17/2/3/GS-59
Final Environmental Impact Report for the Secunda Growth Programme (SGP) 1B (New): Proposed Retrofitting of Two Gas Turbines, Mpumalanga
February 2013 A Project for: Sasol Synfuels (Pty) Ltd
Tel: +27 (0) 12 367 5973 Email:[email protected] Fountain Square, 78 Kalkoen Street, Monument Park Ext. 2, Pretoria, 0181
DOCUMENT DESCRIPTION
Client:
Sasol Synfuels (Pty) Ltd
Project Name:
Final Environmental Impact Report for the Proposed Retroffiting of Two Gas Turbines, Secunda
SSI Environmental Reference Number:
E02.PTA.000407
Authority Reference:
17/2/3/GS-59
Compiled by:
Phyllis Kalele
Date:
February 2013
Location:
Pretoria
Reviewer: Prashika Reddy
_____________________________ Signature
Approval: Prashika Reddy
______________________________ Signature
© SSI Environmental
All rights reserved
No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, without the written permission from SSI Environmental.
TABLE OF CONTENTS
1 INTRODUCTION 1 1.1 NEED AND BACKGROUND 1 1.2 APPROACH TO THE EIA STUDIES 2 1.2.1 ENVIRONMENTAL SCOPING STUDY 2 1.2.2 ENVIRONMENTAL IMPACT STUDY 2 1.3 DETAILS OF THE ENVIRONMENTAL ASSESSMENT PRACTITIONER 3 1.4 STRUCTURE OF THE REPORT 4
2 PROJECT DESCRIPTION 5 2.1 PROJECT LOCATION 5 2.2 ELECTRICITY GENERATION FROM AROMATIC NAPHTHA 7 2.3 FACILITIES FOR RETROFITTING THE GAS TURBINES 8
3 PROJECT ALTERNATIVES 11 3.1 SITE ALTERNATIVES – AROMATIC NAPHTHA TANK 11 3.1.1 SITE 1 (PREFERRED) 11 3.1.2 SITE 2 (ALTERNATIVE 1) 11 3.2 NO‐GO ALTERNATIVE 11
4 GENERAL DESCRIPTION OF THE STUDY AREA 12 4.1 GEOLOGY 12 4.2 TOPOGRAPHY AND SOILS 12 4.3 WATER RESOURCES 12 4.3.1 GEOHYDROLOGY (GROUNDWATER) 12 4.3.2 HYDROLOGY (SURFACE WATER) 12 4.4 CLIMATE AND LOCAL WEATHER CONDITIONS 13 4.4.1 WIND 13 4.4.2 ATMOSPHERIC STABILITY 15 4.4.3 TEMPERATURE AND HUMIDITY 16 4.4.4 PRECIPITATION 17 4.5 AIR QUALITY 18 4.5.1 IDENTIFIED SENSITIVE RECEPTORS 18 4.5.2 EXISTING SOURCES OF AIR POLLUTION 18 4.5.3 AGRICULTURE 19 4.5.4 DOMESTIC FUEL BURNING 19 4.5.5 MINING ACTIVITIES 20 4.5.6 VELD FIRES 20 4.5.7 POWER STATIONS 21 4.5.8 OTHER SASOL OPERATIONS 21 4.5.9 AIR QUALITY SITUATION 21 4.6 NOISE 30 4.7 SOCIAL 30 4.8 LAND‐USE 30 4.9 HEALTH AND SAFETY 30 4.10 HERITAGE 30
5 ENVIRONMENTAL IMPACT ASSESSMENT METHODOLOGY AND APPROACH 31 5.1 APPROACH TO UNDERTAKING THE STUDY 31 5.2 ENVIRONMENTAL SCOPING STUDY 31
5.3 AUTHORITY CONSULTATION 315.3.1 CONSULTATION WITH DECISION‐MAKING AUTHORITY 31 5.3.2 ENVIRONMENTAL IMPACT ASSESSMENT 31 5.3.3 METHODOLOGY – ASSESSMENT OF IMPACTS 32 5.3.4 IMPACT ASSESSMENT METHODOLOGY 32 5.4 EIA REPORT (EIR) 34 5.5 DRAFT ENVIRONMENTAL MANAGEMENT PROGRAMME 35 5.6 SPECIALIST STUDIES 35 5.7 ASSUMPTIONS AND LIMITATIONS 35
6 PUBLIC PARTICIPATION PROCESS 37 6.1 AIMS OF THE PUBLIC PARTICIPATION PROCESS 37 6.1.1 CONSULTATION WITH RELEVANT AUTHORITIES AND KEY STAKEHOLDERS 37 6.1.2 ADVERTISING 38 6.1.3 IDENTIFICATION OF INTERESTED AND AFFECTED PARTIES 38 6.1.4 I&AP DATABASE 38 6.1.5 ISSUES TRAIL 38 6.1.6 PUBLIC REVIEW OF THE DRAFT ENVIRONMENTAL IMPACT REPORT 39 6.1.7 PUBLIC MEETING 39 6.1.8 AUTHORITY REVIEW OF THE FINAL ENVIRONMENTAL IMPACT REPORT 39 6.1.9 ENVIRONMENTAL AUTHORISATION 39
7 POTENTIAL IMPACTS ASSOCIATED WITH THE PROJECT 40 7.1 CONSTRUCTION PHASE IMPACTS ‐ AROMATIC NAPHTHA TANK 40 7.1.1 GEOLOGY 40 7.1.2 SOILS 40 7.1.3 WATER RESOURCES 42 7.1.4 DUST AND EMISSIONS DURING CONSTRUCTION 43 7.1.5 NOISE 44 7.1.6 WASTE 45 7.1.7 HEALTH AND SAFETY 46 7.1.8 SOCIAL 47 7.2 CONSTRUCTION PHASE IMPACTS – ADDITIONAL INFRASTRUCTURE 48 7.3 OPERATIONAL PHASE IMPACTS ‐ AROMATIC NAPHTHA TANK 51 7.3.1 SOILS 51 7.3.2 GEOHYDROLOGY (GROUNDWATER) AND HYDROLOGY (SURFACE WATER) 52 7.3.3 AIR QUALITY ‐ EMISSIONS 53 7.3.4 WASTE 54 7.3.5 SAFETY 55 7.4 OPERATIONAL PHASE IMPACTS – ADDITIONAL INFRASTRUCTURE 56 7.5 CUMULATIVE IMPACTS 59 7.5.1 EMISSIONS 60 7.6 DECOMMISSIONING PHASE 60
8 CONCLUSIONS AND RECOMMENDATIONS 61 8.1 CONCLUDING REMARKS 61 8.2 FINAL RECOMMENDATIONS 62
TABLE OF FIGURES FIGURE 1: ENVIRONMENTAL STUDIES FLOWCHART 3
FIGURE 2: LOCATION OF THE AROMATIC NAPHTHA, MFO, CETANE & OCTANE TANKS AND FLARE 6 FIGURE 3: EXAMPLE OF AN ENCLOSED GROUND FLARE 9 FIGURE 4: EXAMPLE OF AN ELEVATED FLARE 10 FIGURE 5: PERIOD WIND ROSE FOR THE SASOL CLUB & LANGVERWACHT STATIONS 14 FIGURE 6: DIURNAL WIND ROSES FOR THE SASOL CLUB & LANGVERWACHT MONITORING STATIONS 14 FIGURE 7: SEASONAL WIND ROSES FOR THE SASOL CLUB & LANGVERWACHT MONITORING STATIONS 15 FIGURE 8: STABILITY CLASS FREQUENCY DISTRIBUTION FOR SASOL CLUB & LANGERWACHT STATIONS 16 FIGURE 9: AVERAGE MONTHLY TEMPERATURE AND HUMIDITY FOR SASOL CLUB & LANGVERWACHT 17 FIGURE 10: ANNUAL AVERAGE BENZENE CONCENTRATION (PPB) RECORDED AT TWO SASOL STATIONS 22 FIGURE 11: DAILY AVERAGE PM10 CONCENTRATIONS RECORDED AT THE SASOL STATIONS 23 FIGURE 12: DAILY AVERAGE PM10 CONCENTRATIONS RECORDED AT THE DEA STATION 24 FIGURE 13: DIURNAL PM10 CONCENTRATIONS RECORDED AT THE SASOL STATIONS 24 FIGURE 14: HOURLY AVERAGE NO2 CONCENTRATIONS (PPB) RECORDED AT THE SASOL STATIONS 25 FIGURE 15: HOURLY AVERAGE NO2 CONCENTRATIONS (PPB) RECORDED AT THE DEA STATION 26 FIGURE 16: DIURNAL NO2 CONCENTRATIONS (PPB) RECORDED AT THE SASOL STATIONS 27
LIST OF TABLES TABLE 1: DETAILS OF THE EAP 3
TABLE 2: REPORT STRUCTURE 4 TABLE 3: COORDINATES OF THE DIFFERENT COMPONENTS OF THE PROPOSED PROJECT 5 TABLE 4: ATMOSPHERIC STABILITY CLASSES (PASQUILL GIFFORD) 15 TABLE 5: IDENTIFIED SENSITIVE RECEPTORS SURROUNDING THE SITE 18 TABLE 6: ANNUAL AVERAGE BENZENE CONCENTRATIONS FOR ALL MONITORING STATIONS 22 TABLE 7: MAXIMUM HOURLY, DAILY AND ANNUAL AVERAGE PM10 (µG/M3), SO2 AND NO2
CONCENTRATIONS FOR ALL MONITORING STATIONS FOR THE PERIOD 2006 – 2010. EXCEEDANCES OF THE STANDARDS AND ALLOWABLE FREQUENCY OF EXCEEDANCE (WHERE APPLICABLE) ARE HIGHLIGHTED IN BOLD 28
TABLE 8: ANNUAL AVERAGE PM10 (µG/M3), SO2 AND NO2 CONCENTRATIONS FOR ALL MONITORING
STATIONS FOR THE PERIOD 2006 – 2010. EXCEEDANCES OF THE ANNUAL STANDARDS ARE HIGHLIGHTED IN BOLD 29
TABLE 9: EXCEEDANCES OF THE NATIONAL STANDARDS (WHERE APPLICABLE) AT ALL MONITORING
STATIONS FOR THE PERIOD 2006 – 2010 29 TABLE 10: CRITERIA FOR THE RATING OF IMPACTS 33 TABLE 11: CRITERIA FOR THE RATING OF CLASSIFIED IMPACTS 34 TABLE 12: KEY STAKEHOLDERS CONTACTED AS PART OF PP PROCESS 37 TABLE 13: SUMMARY OF CONSTRUCTION PHASE IMPACTS AND AVERAGE ALLOCATION POINTS ALLOCATED
TO THE AROMATIC NAPHTHA TANK ON THE EASTERN AND WESTERN TANK FARM 48 TABLE 14: SUMMARY OF OPERATIONAL PHASE IMPACTS AND AVERAGE ALLOCATION POINTS ALLOCATED
TO THE AROMATIC NAPHTHA TANK ON THE EASTERN AND WESTERN TANK FARM 56
APPENDICES APPENDIX A: LOCALITY MAP
APPENDIX B: PROCESS FLOW DIAGRAM APPENDIX C: PROPERTIES OF AROMATIC NAPHTHA APPENDIX D: APPROVAL OF SCOPING STUDY APPENDIX E: AIR QUALITY IMPACT ASSESSMENT APPENDIX F: PUBLIC NOTIFICATIONS
APPENDIX G: I&AP DATABASE, MINUTES OF MEETING & ISSUES TRAIL APPENDIX H: ENVIRONMENTAL MANAGEMENT PROGRAMME
ACRONYMS CCR Continuous Catalyst Regeneration (part of the Platforming units)
CO Carbon monoxide
CTN Coal Tar Naphtha
DHT Distillate Hydrotreater
DSC Distillate Selective Cracker
H2S Hydrogen sulphide
EAP Environmental Assessment Practitioner
EIA Environmental Impact Assessment
EMPr Environmental Management Programme
ESS Environmental Scoping Study
ESR Environmental Scoping Report
I&AP Interested and Affected Party
MDEDET Mpumalanga Department of Economic Development, Environment and Tourism
MFO Medium Fuel Oil
NEMA National Environmental Management Act
NHT Naphtha Hydrotreater
NO Nitrogen monoxide
NO2 Nitrogen dioxide
O3 Ozone
PHT Poly Hydrotreater
RON Research Octane Number
SCC Synfuels Catalytic Cracker
SCF2 Secunda Clean Fuels 2
SGP Secunda Growth Programme
SO2 Sulphur dioxide
TAME Tertiary Amyl Methyl Ether
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1 INTRODUCTION Due to the new fuel specifications, Sasol Technology proposes the retrofitting of two existing gas turbines as the basis for the Secunda Growth Programme (SGP) 1B (new) project (also referred to as Secunda Clean Fuels (SCF2) project. The turbines will be retrofitted for co-firing using aromatic naphtha and gas simultaneously, as these were originally designed only for gas firing. Currently 100 MW of electricity (per turbine) is generated in a closed cycle system in the turbines and it should be noted there will be no change in the amount of electricity generated. Aromatic naphtha is the liquid fuel hydrocarbon stream that contains approximately 40% benzene. The sources of the aromatic naphtha streams are the Synfuels Catalytic Cracker (Unit 293) gasoline and the Coal Tar Naphtha (CTN) Hydrogenation units (Units 15 and 215). Each of these stream sources will be sent to separate fractionators to obtain a benzene-rich stream which will be combusted in the gas turbines to generate electricity. In support of the retrofitting of the two gas turbines, Sasol Synfuels therefore proposes to install:
i. A hold up tank with a capacity of approximately 11500 m3 to store aromatic naphtha. The hold up tank will be located in the Eastern tank farm.
ii. A Medium Fuel Oil (MFO) tank with a capacity of approximately 2000 m3 in the Western tank farm. iii. A tank with a capacity of approximately 6000 m3 for the Octane booster system in the Western tank farm. iv. A tank with a capacity of approximately 100 m3 tank for the Cetane booster system in the Western tank farm.
After the Environmental Scoping Study was concluded and subsequently accepted by the Mpumalanga Department of Economic Development, Environment and Tourism (MDEDET) on 07 February 2012, the Sasol engineering team indicated that the liquid feed systems required on the gas turbines, to enable electricity generation, will require protection systems on the process equipment. The Pressure Safety Systems will need to be routed to a safe location/system. It was originally proposed that a vapour line from the liquid knock-out system will be routed to the existing LP flare header. Routing this vapour to this destination requires significant civil work (foundations) and a new pipe rack to be installed for an ad hoc vapour flow from the safety systems. Routing such a line to the LP Flare header would hinder access (for cranes during turnarounds) to various units in the vicinity and therefore is not deemed suitable or practical to deal with relief loads. Therefore, it was proposed to install a flare on the Closed Cycle Power Generation Plant (Unit 543) (already authorised MDEDET Ref. No. 17/2/22/3/GS 2) plot plan to handle the ad hoc vapours flows, due to emergency conditions, from the liquid hydrocarbon feed system. This would protect the unit and maintain its safety integrity. The flare will require pilots to be lit to ensure that it is available at all times, the fuelling gas to keep these pilots lit is likely to be natural gas (NG) and/or Methane Rich Gas (MRG). It should be noted that no new listed activities in terms of the Environmental Impact Assessment Regulations (2012) GN R 544 – 546 will be triggered by the addition of the flare. The proposed project is situated within the Sasol Industrial Complex in Secunda (refer to Appendix A for the locality map).
1.1 Need and Background The purpose of the SGP 1B (new) project is to achieve compliance with the clean fuel specifications (Euro V specifications effective, 01 July 2017)) which were published in Government Notice R.421 of 31 May 2012. According to the Euro V specifications, South Africa has to comply with international best practice and specify the content of benzene in fuel. For the Petrol pool, the intent is to reduce the benzene content in fuel from 3 volume% to a maximum of 1 volume% and achieve the 18 volume% olefins specifications, while for the Distillate pool the T95 specification of 360 °C is to be met. The 1 volume% benzene content of the fuel pool will be met by generating electricity from the aromatic naphtha stream. The 18 volume% olefin specification will be met within the existing operational parameters of the Synfuels complex. The future T95 specification will be met by fractionation optimisation and minor modifications of the existing Distillate Hydrotreaters and the Distillate Selective Cracker.
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To ensure compliance with the EIA regulations (2010) made under section 24 (5) of the National Environmental Management Act - NEMA (Act No. 107 of 1998) (as amended) and environmental best practice, Sasol Synfuels (Pty) Ltd appointed SSI Environmental as the independent Environmental Assessment Practitioner (EAP) to conduct the necessary studies to obtain Environmental Authorisation to undertake the proposed project. It should be noted, that the retrofitting of the gas turbines is not the trigger for the EIA but rather the construction of the various tanks mentioned in points i – iv as the installation of the gas turbines and generation of electricity was authorised as part of the Power Generation from Waste Energy project (MDEDET Ref. No. 17/2/22/3/GS 2).
1.2 Approach to the EIA Studies The environmental impacts associated with the proposed project require investigation in compliance with the Environmental Impact Assessment Regulations (2010) published in Government Notice No. R. 543 and No. R. 545 and read with Section 24 (5) of the National Environmental Management Act (NEMA-Act No 107 of 1998) (as amended). The required environmental studies include the undertaking of an Environmental Impact Assessment (EIA) process. This process is being undertaken in two phases: Phase 1 - Environmental Scoping Study (ESS) including Plan of Study for EIA - complete; and Phase 2 - Environmental Impact Assessment (EIA) and Environmental Management Programme (EMPr).
1.2.1 Environmental Scoping Study The ESS provided a description of the receiving environment and how the environment may be affected by the development of the proposed project. Desktop studies making use of existing information were used to highlight and assist in the identification of potential significant impacts (both social and biophysical) associated with the proposed project. Additional issues for consideration were extracted from feedback from the public participation process, which commenced at the beginning of the Scoping phase, and will continue throughout the duration of the project. All issues identified during this Scoping study were documented within the final Environmental Scoping Report (ESR) which was accepted by the MDEDET on 07 February 2012.
1.2.2 Environmental Impact Study The Environmental Impact Assessment phase aimed to achieve the following: to provide an overall assessment of the social and biophysical environments of the affected area by the
proposed project; to undertake a detailed assessment of the preferred site/alternatives in terms of environmental criteria
including the rating of significant impacts; to identify and recommend appropriate mitigation measures (to be included in an EMPr) for potentially
significant environmental impacts; and to undertake a fully inclusive public participation process to ensure that I&AP issues and concerns are
recorded and commented on and addressed in the EIA process.
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FIGURE 1: ENVIRONMENTAL STUDIES FLOWCHART
1.3 Details of the Environmental Assessment Practitioner SSI Environmental were appointed as the independent Environmental Assessment Practitioner (EAP) by Sasol Synfuels, to undertake the appropriate environmental studies for this proposed project. The professional team of SSI Environmental has considerable experience in the environmental management and EIA fields. SSI Environmental has been involved in and/or managed several of the largest Environmental Impact Assessments undertaken in South Africa to date. A specialist area of focus is on assessment of multi-faceted projects, including the establishment of linear developments (national and provincial roads, and power lines), bulk infrastructure and supply (e.g. wastewater treatment works, pipelines, landfills), electricity generation and transmission, the mining industry, urban, rural and township developments, environmental aspects of Local Integrated Development Plans (LIDPs), as well as general environmental planning, development and management.
TABLE 1: DETAILS OF THE EAP CONSULTANT: SSI ENVIRONMENTAL Contact Persons: Prashika Reddy and Phyllis Kalele Postal Address PO Box 25302, Monument Park, 0105 Telephone: 012 367 5973 / 5916 Facsimile: 012 367 5878 E-mail: [email protected] / [email protected] Expertise: Prashika Reddy is a senior environmental scientist / associate
(BSc Honours – Geography) with experience in various environmental fields including: environmental impact assessments, environmental management programmes, public participation and environmental monitoring and auditing. Ms Reddy has extensive experience in compiling environmental reports (Screening, Scoping, EIA and Status Quo Reports). She is a registered Professional Natural Scientist (Pr Sci Nat 400133/10) with the South African Council for Natural Scientific Professions (SACNASP). Phyllis Kalele is a senior environmental consultant with experience in various facets of environmental management. These include conducting the Public Participation process; compiling Environmental Impact Reports; compiling Environmental Management Programmes; conducting environmental awareness training; and conducting legal compliance audits. She is a registered Professional Natural
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CONSULTANT: SSI ENVIRONMENTAL Scientist (Pr Sci Nat 400456/11) with SACNASP.
1.4 Structure of the Report
TABLE 2: REPORT STRUCTURE CHAPTER CONTENT
Chapter 1 – Introduction Introduction to project Chapter 2 - Project Description Provides the technical description of the project as well as a
description of the infrastructure Chapter 3 - Project Alternatives Consideration of alternatives (design/layout, site and do-nothing)
for the project Chapter 4 - General Description of the Study Area
A description of the biophysical and social environment
Chapter 5 – Environmental Impact Assessment Methodology and Approach
Methodology used in the assessment of significant impacts
Chapter 6 - Public Participation Process Overview of the public participation process conducted to date Chapter 7 – Potential Impacts associated with the Project
A description and assessment of construction, operations, decommissioning and cumulative impacts
Chapter 8 - Conclusions and Recommendations
Conclusions and recommendations of the Environmental Impact Assessment Study
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2 PROJECT DESCRIPTION
2.1 Project Location The project will take place within the primary area of the Sasol Secunda Complex. The tanks proposed to be constructed will be located in the areas as shown in Figure 2 below. The coordinates of the different components of the project are shown in Table 3 below.
TABLE 3: COORDINATES OF THE DIFFERENT COMPONENTS OF THE PROPOSED PROJECT PROPOSED ACTIVITY COORDINATES
New Aromatic Naphtha Tank (Eastern Tank Farm) -Preferred site
26°32'49.14"S; 29°10'1.90"E
New Aromatic Naphtha Tank (Western Tank Farm) -Alternative site
26°32'37.45"S; 29°9'18.49"E
New MFO Tank (Western Tank Farm) 26°32'49.62"S; 29°8'57.98"E Modifications to the existing Refinery Plants (East) 26°33'8.23"S; 29°10'9.41"E Modifications to the existing Gas Turbines 26°33'55.63"S; 29°9'53.15"E Octane Booster tanks (Western Tank Farm) 26°32'37.45"S; 29°9'18.49"E Cetane Booster tanks (Western Tank Farm) 26°32’39.20”S; 29°9’11.74”E Flare 26°33’50.6”S; 29°09’56.8”E
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FIGURE 2: LOCATION OF THE AROMATIC NAPHTHA, MFO, CETANE & OCTANE TANKS AND FLARE (Courtesy Google Earth, 2010)
Western Tank Farm
Eastern Tank Farm
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2.2 Electricity Generation from Aromatic Naphtha Aromatic naphtha is the liquid fuel stream and it contains an average concentration of approximately 40% benzene. The sources of the aromatic naphtha streams are the Synfuels Catalytic Cracker - SCC (Unit 293), gasoline and the Coal Tar Naphtha (CTN) Hydrogenation units (Units 15 and 215). Each of these stream sources will be sent to separate fractionators1 to obtain a benzene-rich stream which will be combusted in the gas turbines to generate electricity. At Units 15 and 215 (CTN Hydrogenation units), new CTN fractionation columns will be installed to remove benzene from the CTN. The CTN aromatic naphtha (with benzene content of approximately 40wt%) will be recovered in the CTN fractionator overhead stream and pumped to the hold up aromatic naphtha storage tank. The CTN fractionation bottoms will be routed to the existing Naphtha Hydrotreatment (NHT) feed tanks. SCC aromatic naphtha is prone to gum formation and will be dosed with an additive to prevent gumming. This stream will be routed to an intermediate storage tank (256TK-1509) prior to being routed to the gas turbines. This will ensure that gas turbines receive a stable feed to minimise interruptions to power generation at Unit 543. The SCC aromatic naphtha and CTN aromatic naphtha are both fed to the Closed Cycle Power Generation Plant - Unit 543, via tanks, where it will be combusted in the gas turbines (to be retrofitted) for the purpose of electricity generation. At the NHT units (Units 30 and 230), new Dehexanizer columns will be installed to recover benzene precursors as an overhead product that will be routed to low octane fuel component tanks (256TK-3201/2) as a petrol blending component. Both 256TK-3201 and 256TK-3202 are currently in CTN service and the impact due to a change of service will be investigated. Dehexanizer overheads can also be routed to the gas turbines at Unit 543 should the need arise, typically during upset scenarios. Benzene, having a RON of 101, is contributing significantly to Secunda’s octane pool. Once the benzene content is reduced to 1 volume%, it will become increasingly difficult to meet the unleaded petrol (ULP) 93 RON target during upset conditions. In order to improve the petrol pool’s RON, it is proposed to implement side-draw streams on the Poly Hydrotreatment (PHT) splitters at both Units 33 and 233 (33/233VL-101). Despite the proposed efforts to improve the petrol pool’s RON, there is still a significant risk of a RON deficit during upset scenarios such as when the Tertiary Amyl Methyl Ether (TAME) block and SCC are offline. It was therefore proposed to make use of a chemical fuel additive to ensure that the RON target be met at all times. ChimecFA0612 was identified as the additive of choice. New offloading, storage and dosing facilities will be required to introduce this additive into the fuel pool. The Diesel Hydrotreater units (Unit 35 DHT and Unit 235 DHT) are the final processing step for distillate streams of the diesel value chain for the factory. Unit 35 is divided into the Distillate Hydrotreater (DHT) and the Distillate Selective Cracker (DSC). The DHT fractionation system produces naphtha, light diesel and a heavy stream. This heavy stream is the feed to the DSC unit. The DSC unit produces a naphtha stream, a heavy diesel and a Medium Fuel Oil (MFO). In order to meet the T95 diesel specification, the post SGP 1B (new) operation of the DSC fractionators will result in a higher yield of MFO. It is expected that the MFO production will increase from 4.0 m3/h to 12.8 m3/h. As a result, the MFO slate will also become lighter. To accommodate the expected increase in MFO production, additional storage (in the form of a new 2000 m3 tank in the Western tank farm) will be required. The process flow diagram in Appendix B illustrates the process of generating electricity from aromatic naphtha.
1 Fractionation is a separation process in which a certain quantity of a mixture (solid, liquid, solute, suspension or isotope) is divided up in a
number of smaller quantities (fractions) in which the composition changes according to a gradient.
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2.3 Facilities for Retrofitting the Gas Turbines The proposed retrofitting of the gas turbines will involve modifications in various sections of the Secunda plant; these include:
i. West Refinery Plant The plant will be modified by:
Routing of aromatic naphtha into Unit 32 (Cat Poly). Upgrading of side-draw on existing tower within Unit 33 (PHT). Installation of a Dehexaniser with associated equipment at Unit 30 (NHT). Modifications will be
required within the existing Unit 30 NHT, Platforming and Continuous Catalyst Regeneration (CCR) units to process the feedstocks to meet future fuel requirements.
Debottlenecking of the Medium Fuel Oil (MFO) product rundown line in Unit 35 Distillate Selective Cracking (DSC).
Construction of a new CTN fractionation tower and associated equipment in Unit 15 (Naphtha Hydrogenation) to generate a stream of aromatic naphtha.
ii. Western Tank Farm (Unit 56) Installation of a steam heated tank with a capacity of approximately 2000 m3 in Unit 56 for MFO.
The tank will be a thermal insulated fixed roof storage tank. Installation of an Octane booster system in Unit 56 which will be comprised of an off-loading
facility, a tank with a capacity of approximately 6000 m3 and blending pumps. The tank will be a thermal insulated fixed roof storage tank.
Installation of a Cetane booster system in Unit 56 which will be comprised of an off-loading facility, a tank with a capacity of approximately 100 m3 and blending pumps. The tank will be a thermal insulated fixed roof storage tank.
iii. Eastern Tank Farm (Unit 256) Installation of an approximately 11500 m3 hold up tank in Unit 256 to store aromatic naphtha. The
hold up tank will have a floating roof and the tank’s main role will be the storage of aromatic naphtha.
iv. East Refinery Plant The plant will be modified by:
Upgrading of side-draw on the existing tower within Unit 233 (Polymer Hydrotreater). Installation of a Dehexaniser with associated equipment in Unit 230 (Naphtha Hydrotreater).
Modifications will be required within the existing Unit 230 NHT, Platforming and CCR units to process the feedstocks to meet future fuel requirements.
Installation of a new charge heater in Unit 235 (Distillate Hydrotreater) and other modifications to ensure unit can maintain nameplate capacity with new fuel specification requirements.
Construction of a new CTN fractionation tower and associated equipment in Unit 215 (Naphtha Hydrogenation) to generate a stream of aromatic naphtha.
v. Closed Cycle Power Generation Units (Unit 543) The two existing gas turbines in Unit 543 will be retrofitted in order to utilise a liquid feed to
generate electricity.
vi. Handling of Relief Streams at the Gas Turbines using a Flare The liquid feed systems required on the gas turbines, to enable electricity generation, will require protection systems on the process equipment. The pressure safety systems will need to be routed to a safe location / system. It was originally proposed that a vapour line from the liquid knock-out system will be routed to the existing LP flare header. Routing this vapour to this destination requires significant civil work (foundations) and a new pipe rack to be installed for an ad hoc vapour flow from the safety systems. Routing such a line to the LP Flare header would hinder access (for cranes during turnarounds) to various units in the vicinity and therefore is not deemed suitable or practical to deal with relief loads. It is therefore proposed to install a flare – either enclosed ground flare or an elevated flare (see example in Figure 3 and Figure 4 ) on the U543 plot plan to handle the ad hoc vapours flows, due to emergency conditions, from the liquid hydrocarbon feed system. This would protect the unit and maintain its safety
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integrity. The flare will require pilots to be lit to ensure that it is available at all times; the fuelling gas to keep these pilots lit is likely to be Natural Gas (NG) and/or Methane Rich Gas (MRG).
The dimensions of the enclosed ground flare are 6.8 m diameter, 21 m total height and the plot space requirements is 20 x 20 m2. The lined combustion chamber will be surrounded by a wind fence (approximately 11.1 diameter) which also encloses the pilot and burner manifolding. The wind fence would most probably be built out of concrete blocks supported on concrete pillars. The preliminary dimensions of an elevated flare are unknown at this stage therefore only the enclosed ground flare will be included in the air quality modelling, however, the impacts of both the ground and elevated flare will be included in the Air Quality Impact Assessment (AQIA).
FIGURE 3: EXAMPLE OF AN ENCLOSED GROUND FLARE (COURTESY: JOHN ZINK®)2
2 http://www.johnzink.com
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FIGURE 4: EXAMPLE OF AN ELEVATED FLARE (COURTESY: JOHN ZINK®)3
3 http://www.johnzink.com
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3 PROJECT ALTERNATIVES In terms of the EIA Regulations, Section.28 (1) (c) feasible alternatives are required to be considered as part of the environmental investigations. In addition, the obligation that alternatives are investigated is also a requirement of Section 24(4) of the National Environmental Management Act (Act 107 of 1998) (as amended). An alternative in relation to a proposed activity refers to the different means of meeting the general purpose and requirements of the activity (as defined in Government Notice R.543 of the EIA Regulations, 2010), which may include alternatives to: a) the property on which or location where it is proposed to undertake the activity; b) the type of activity to be undertaken; c) the design or layout of the activity; d) the technology to be used in the activity; e) the operational aspects of the activity; and f) the option of not implementing the activity. For this project, only feasible site alternatives are applicable and are discussed in further detail in the subsequent sections.
3.1 Site Alternatives – Aromatic Naphtha Tank Currently, two site alternatives within the Sasol Industrial Complex are under consideration for the installation of the hold up tank with a capacity of approximately 11500 m3 for storing aromatic naphtha:
3.1.1 Site 1 (Preferred)
This site is located in the Eastern tank farm and the tank is proposed to be located in Unit 256 within a footprint of approximately 35 m by 65 m. This site is preferred because of its proximity to the existing SCC aromatic naphtha tank, process feed and maintenance tanks which allows synergy. The proposed CTN and existing SCC aromatic naphtha tanks will be interchangeable with each other doing tank turnarounds.
3.1.2 Site 2 (Alternative 1) This site is located in the Western tank farm and the tank is proposed to be located in Unit 56 within a footprint of approximately 35 m by 65 m. Site 2 is some distance away from the process feed and maintenance tanks. This site has been selected as an alternative because it can accommodate the biggest size tank.
3.2 No-go Alternative Nationally, the reduction of benzene in fuel is being undertaken under the Clean Fuels 2 Programme. The anticipated deadline – 2017, is the year by which fuel produced in South Africa must adhere to the fuel specifications (i.e. reduce the benzene content in fuel from 3 volume% to 1 volume %), standards and Euro V emissions (Department of Energy, 2011)4. If this project does not go ahead, Sasol Synfuels will not be able to comply timeously with the fuel specifications, standards and Euro V emissions. As a result, South Africa will be restricted from exporting fuel to other countries that purchase fuel compliant to the Euro V emissions and this will in turn increase the country’s dependency on imported crude.
4 Department of Energy, 2011. Discussion document on the review of fuel specifications and standards for South Africa.
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4 GENERAL DESCRIPTION OF THE STUDY AREA
4.1 Geology Sasol’s Secunda plant is underlain by rocks belonging to the Vryheid Formation of the Ecca Group, Karoo Supergroup. These rocks primarily consist of sandstones, shales and coal beds and are extensively intruded by dolerites of Jurassic age. The dolerites occur both as sills and linear dyke structures that may extend over tens of kilometers.
4.2 Topography and Soils The topography of the greater study area is relatively flat and stable with little agricultural potential. The greater study area falls within the Karoo Supergroup, however the proposed site is highly transformed. The highest point of the site elevation is 1600 m above sea level. Soils in the proposed area have been disturbed with the historical establishment of the Secunda Complex in the 1970’s where the existing soil was replaced with a 1:1 mixture of dolerite and ash. The importation and compaction of fill material has inherently created a near impermeable soil horizon, minimizing the potential for the ingress of contaminants from surface into the underlying subsoil.
4.3 Water Resources
4.3.1 Geohydrology (Groundwater)
The groundwater at the Sasol Complex is characterised by two groundwater aquifers, including a weathered aquifer occurring at a depth of between 8 and 14 m below existing ground level, and a fractured rock aquifer occurring at depths greater than 20 m below existing ground level. The weathered aquifer occurs within the weathered shale, siltstone and mudstones of the Karoo Formation, this aquifer consequently has a low permeability of, on average, 0.005 m/day, whereas the fractured rock aquifer has a very low permeability of, on average, 0.0004 m/day. The low permeability’s of the weathered and fractures rock aquifer will limit the movement of contaminants within the groundwater system. Groundwater flows in a northerly direction towards the Klipspruit with a relatively low hydraulic gradient of 0.08, based on topographical elevations.
4.3.1.1 Groundwater Quality Monitoring boreholes located within the factory and to the north of the Klipspruit have indicated the character of the groundwater quality to be dominated by inorganic components, calcium, sodium, nitrate, ammonia, sulphate, iron and manganese. As could be expected, groundwater quality monitoring boreholes in close proximity of contaminant sources reflect localized elevated contaminant levels. Usually, this occurs at a shallow depth of about 5 m. However, it should be noted that background total dissolved concentrations in boreholes within the greater Secunda area could reflect values up to about 850 mg/l. It is noted that a 5 km exclusion zone has been established in terms of groundwater abstractive use around the Complex. Consequently, there are no direct users of groundwater within the area of potential influence.
4.3.2 Hydrology (Surface Water)
The Sasol Secunda Industrial and Mining Complex is located in the upper reaches of the Waterval River, affecting the following tributaries of this river: Klein and Groot Bossiespruit Brandspruit Klipspruit Trichardspruit
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The above streams combine into the Trichardspruit and after the confluence with the Grootspruit, the Trichardspruit joins the Waterval River. The water quality and flow profile of the Waterval River changed substantially from the time Sasol Industrial and Mining Complex was established in the late 1970’s. A notable portion of the salinity generated in the Waterval River catchment now originates from the Trichardspruit sub-catchment in which the Sasol Secunda Industrial and Mining Complex is located.
4.3.2.1 Surface Water Quality Sasol Synfuels monitors the quality of water in the adjacent surface water streams in accordance with license conditions. A review of Sasol Synfuels monitoring data for the Klipspruit (RESM 17) being the upper catchment, RESM 7 being midpoint of the Northern Boundary section of the Klipspruit of the Complex and RESM 6 being at the Charlie 2 Bridge exit of the Northern Boundary section of the Klipspruit, indicates some variability in water quality, principally associated with the seasonality of flow in the Klipspruit, and extended periods of no flow or low flow. The surface water qualities are principally characterised by the presence of inorganics. Elevated salts concentrations have been observed to occur during periods of relatively high flow, suggesting that salts accumulated in the upper catchment are washed into the Klipspruit at such times. It is noted that stormwater is not released directly to the Klipspruit from the Complex but routed through the API containment dams and quality checked for compliance before release, treatment or reuse. RESM 11 and 13 are surface water quality monitoring points on the Bossiespruit, forming the southern boundary of the Sasol Synfuels Complex. RESM 1 is the water use license compliance monitoring point after the convergence of the Bossiespruit and the Klipspruit and prior to the watercourse leaving the Complex boundary.
4.4 Climate and Local Weather Conditions Local meteorological data was obtained from Sasol which operates a network of monitoring stations in the area. Meteorological data for the period January 2006 – December 2010 was obtained from the Club and Langverwacht stations. Meteorological parameters recorded at these stations include wind speed, wind direction, temperature, humidity and solar radiation. Given the close proximity of these stations to the site under investigation, data from these stations is considered to be representative of the prevailing meteorological conditions in the area.
4.4.1 Wind
Wind roses comprise of 16 spokes which represent the directions from which winds blew during the period. The colours reflect the different categories of wind speeds. The dotted circles provide information regarding the frequency of occurrence of wind speed and direction categories. Based on an evaluation of the meteorological data provided, winds for both stations generally predominate from the north-easterly and north-westerly sectors (Figure 5). However, winds at the Club station have a higher frequency of occurrence from the north-westerly sector than observed at the Langverwacht station. In general, moderate to fast winds are recorded at both stations, although faster winds are noted to occur at the Langverwacht station. Calm wind speeds, which are designated as wind speeds less than 0.5 m/s, occur infrequently at both stations.
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FIGURE 5: PERIOD WIND ROSE FOR THE SASOL CLUB (LEFT) AND LANGVERWACHT (RIGHT) MONITORING STATIONS FOR THE PERIOD JAN 2006 – DEC 2010
A diurnal trend in the wind field is recorded at both stations (Figure 6). At the Club station, winds originate predominantly from the north-east, east-north-east and east during the night–time (12:00 – 06:00). A shift is observed during the day-time (06:00 – 18:00), with a higher frequency of winds originating from the west-north-west over this period. At the Langverwacht station, winds originate predominantly from the east-north-east and north-east during the night-time (Figure 6). During the day-time, winds occur with a higher frequency of occurrence from the westerly and northerly sectors. As would be expected, faster winds are recorded during the day-time period compared to the night-time at both stations. Club Station
0:00 – 06:00
06:00 – 12:00
12:00 – 18:00
18:00 – 24:00
Langverwacht Station
00:00 – 06:00
06:00 – 12:00
12:00 – 18:00
18:00 – 24:00
FIGURE 6: DIURNAL WIND ROSES FOR THE SASOL CLUB AND LANGVERWACHT MONITORING STATIONS FOR THE PERIOD JAN 2006 – DEC 2010
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The seasonal variability in the wind field at both stations is shown in Figure 7. A similar wind field is recorded at the Club station during all seasons, with winds originating predominantly from the westerly and easterly sectors. Winds occur with a higher frequency of occurrence from the easterly sector during the spring (September, October and November) and summer months (December, January and February). At the Langverwacht station, winds originate predominantly from the west-south-west and south-west, south-south-east during the spring and summer months. During autumn and winter, a different wind field is observed with additional components recorded from the north-east and east-north-east during these seasons.
Summer
Autumn
Winter
Spring
Summer
Autumn
Winter
Spring
FIGURE 7: SEASONAL WIND ROSES FOR THE SASOL CLUB (TOP) AND LANGVERWACHT (BOTTOM) MONITORING STATIONS FOR THE PERIOD JAN 2006 – DEC 2010
4.4.2 Atmospheric Stability
Atmospheric stability is commonly categorised into six stability classes (Table 4). The atmospheric boundary layer is usually unstable during the day due to turbulence caused by the sun's heating effect on the Earth's surface. The depth of this mixing layer depends mainly on the amount of solar radiation, increasing in size gradually from sunrise to reach a maximum at about 5 - 6 hours after sunrise. The degree of thermal turbulence is increased on clear warm days with light winds. During the night-time a stable layer, with limited vertical mixing, exists. During windy and/or cloudy conditions, the atmosphere is normally neutral.
TABLE 4: ATMOSPHERIC STABILITY CLASSES (PASQUILL GIFFORD) A Very unstable Calm wind, clear skies, hot daytime
conditions B Moderately unstable Clear skies, daytime conditions C Unstable Moderate wind, slightly overcast daytime
conditions D Neutral High winds or cloudy days and nights E Stable Moderate wind, slightly overcast night-
time conditions F Very stable Low winds, clear skies, cold night-time
conditions In general, the site experiences very stable (Class F) atmospheric conditions (Figure 8). This is expected given the predominance of a high-pressure anticyclone over South Africa which produces stable, clear conditions.
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FIGURE 8: STABILITY CLASS FREQUENCY DISTRIBUTION FOR SASOL CLUB (TOP) AND
LANGERWACHT (BOTTOM) MONITORING STATIONS
4.4.3 Temperature and Humidity
Temperature affects the formation, action, and interactions of pollutants in various ways5. Chemical reaction rates tend to increase with temperature and the warmer the air, the more water it can hold and hence the higher the humidity. When relative humidity exceeds 70%, light scattering by suspended particles begins to increase, as a function of increased water uptake by the particles6. This results in decreased visibility due to the resultant haze. Many pollutants may also dissolve in water to form acids. Temperature also provides an indication of the rate of development and dissipation of the mixing layer.
5 Kupchella, C.E. and M.C. Hyland, 1993. Environmental Science. Living Within the System of Nature. Prentice Hall, New
Jersey. 6 CEPA/FPAC Working Group, 1999. National Ambient Air Quality Objectives for Particulate Matter. Part 1: Science
Assessment Document. Minister, Public Works and Government Services, Ontario. Available at URL: http://www.hc-sc.gc.ca/bch.
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Average monthly temperature and humidity at both stations for the period Jan 2006 – Dec 2010 is given in Figure 9. Daily average summer temperatures range between ~18°C and ~19 °C while winter temperatures range between ~7 °C and ~11 °C. Relative humidity is lowest during autumn and winter and highest in summer and spring.
FIGURE 9: AVERAGE MONTHLY TEMPERATURE AND HUMIDITY FOR SASOL CLUB (TOP) AND
LANGVERWACHT (BOTTOM) FOR THE PERIOD JAN 2006 – DEC 2010
4.4.4 Precipitation
The area under investigation lies in the summer rainfall region of South Africa, receiving a total annual rainfall of 418 mm for the Club site during 2006 and 603.6 mm for the Langverwacht site during the same period.
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4.5 Air Quality On 23 November 2007, the Highveld was declared a priority area, referred to as the Highveld Priority Area, in terms of section 18(1) of the National Environmental Management: Air Quality Act, 2004 (Act No 39 of 2004). This implies that the ambient air quality within the Highveld Priority Area exceeds or may exceed ambient air quality standards, alternatively, that a situation exists within the Highveld Priority Area, which is causing or may cause a significant negative impact on air quality in the area, and that the area requires specific air quality management action to rectify the situation. The area declared as such, includes inter alia the local municipalities of Govan Mbeki, Dipaleseng, Lekwa, Msukaligwa, and Pixley ka Seme. Hence, five of the seven local municipalities constituting the District form part of the Highveld Priority Area.
4.5.1 Identified Sensitive Receptors
A sensitive receptor for the purposes of the current investigation is defined as a person or place where involuntary exposure to pollutants released by the project could take place. Receptors surrounding Sasol were identified from satellite images and are given in Table 5. Local communities in close proximity to Sasol include the towns of Secunda, Evander and Trichardt with the informal area of Embalenhle to the immediate west of the Sasol Complex.
TABLE 5: IDENTIFIED SENSITIVE RECEPTORS SURROUNDING THE SITE Receptor Name Distance from Plant Direction from Plant
Secunda ~3 km NNE
Embalenhle ~5 km W
Evander ~7 km NNW
Trichardt ~8 km NE
Kinross ~ 15 km NW
Standerton ~ 15 km SW
Springbokdraai ~13 km W
Brendan Village ~15 km NW
4.5.2 Existing Sources of Air Pollution
The Sasol Complex falls within the Highveld Priority Area which was declared a priority area by the Minister of Environmental Affairs and Tourism on 23 November 2007. The Highveld area in South Africa is characterised by poor ambient air quality and elevated concentrations of criteria pollutants due to the concentration of industrial and non-industrial sources7. The priority area is comprised of parts of Gauteng and Mpumalanga Provinces8. Secunda was identified to be an air quality ‘hotspot’ in the Highveld Priority Area Air Quality Management Plan due to frequent exceedances of the SO2 standards, mainly due to emissions from the petrochemical industry and energy sector in the region. Emission reduction measures, not specific to each industrial sector, have been recommended in the Air Quality Management Plan9. Such measures include the: Development and maintenance of a site emission inventory, including greenhouse gases; Development and implementation of a plant maintenance plan; Development of a fugitive emission management plan; Implementation of appropriate interventions to reduce fugitive emissions; Installation and maintenance of appropriate abatement technologies; Research into improving abatement technology and reducing retrofitting costs.
7 Held G., Gore B.J., Surridge A.D., Tosen G.R., Turner C.R. and Walmsley R.D. (eds), 1996. Air pollution and its impacts
on the South African Highveld, Environmental Scientific Association, Cleveland, South Africa. 8 Zunckel., M, Naicker, Y., Raghunandan, A., Fischer, T., Crouse, H., Ebrahim, A and Carter, W., 2011. The Highveld
Priority Area Air Quality Management Plan, Department of Environmental Affairs, Pretoria. 9 See reference above.
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Sources of air pollution within the immediate area surrounding the plant were identified from satellite imagery and a site description of the area. Surrounding sources were identified to be: Agriculture; Domestic Fuel Burning; Mining Activities; Veld Fires; Power stations; and Other Sasol operations. A qualitative discussion of each identified sources is provided in the subsections below. The aim is to highlight the potential contribution of surrounding sources to the overall ambient air quality situation in the area. These sources have not been quantified as part of this assessment, rather a qualitative assessment of impacts is provided.
4.5.3 Agriculture
Agricultural activity can be considered a significant contributor to particulate emissions, although tilling, harvesting and other activities associated with field preparation are seasonally based. The main focus internationally with respect to emissions generated due to agricultural activity is related to animal husbandry, with special reference to malodours generated as a result of the feeding and cleaning of animal. The types of livestock assessed included pigs, sheep, goats and chickens. Emissions assessed include ammonia and hydrogen sulphide10 (USEPA, 1996). Little information is available with respect to the emissions generated due to the growing of crops. The activities responsible for the release of particulates and gases to atmosphere would however include: Particulate emissions generated due to wind erosion from exposed areas; Particulate emissions generated due to the mechanical action of equipment used for tilling and harvesting
operations; Vehicle entrained dust on paved and unpaved road surfaces; Gaseous and particulate emissions due to fertilizer treatment; and Gaseous emissions due to the application of herbicides and pesticides.
4.5.4 Domestic Fuel Burning
Due to the close proximity of residential developments, it is anticipated that low income households in the area are likely to combust domestic fuels for space heating and/ or cooking purposes. Exposure to indoor air pollution (IAP) from the combustion of solid fuels is an important cause of morbidity and mortality in developing countries. Biomass and coal smoke contain a large number of pollutants and known health hazards, including PM, CO, NO2, SO2 (mainly from coal), formaldehyde, and polycyclic organic matter, including carcinogens such as benzo[a]pyrene11. Exposure to indoor air pollution (IAP) from the combustion of solid fuels has been implicated, with varying degrees of evidence, as a causal agent of several diseases in developing countries, including acute respiratory infections (ARI) and otitis media (middle ear infection), chronic obstructive pulmonary disease (COPD), lung cancer (from coal smoke), asthma, cancer of the nasopharynx and larynx, tuberculosis, perinatal conditions and low birth weight, and diseases of the eye such as cataract and blindness12.
10 U.S Environmental Protection Agency, 1996. Compilation of Air Pollution Emission Factors (AP-42), 6th Edition, Volume
1, as contained in the AirCHIEF (AIR Clearinghouse for Inventories and Emission Factors) CD-ROM (compact disk read only memory), US Environmental Protection Agency, Research Triangle Park, North Carolina. Also available at URL: http://www.epa.gov/ttn/chief/ap42/.
11 Ezzati, M. and D.M. Kammen, 2002. Environmental Health Perspective. The health impacts of exposure to indoor air pollution from solid fuels in developing countries: Knowledge, Gaps and data needs. Risk Resource and Environmental Management Divisions, Resources for the future, Washington DC, USA, Energy and Resources Group and Goldman School of Public Policy, University of California, Berkley California, USA.
12 See reference in Footnote 11 above.
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Monitoring of pollution and personal exposures in biomass-burning households has shown concentrations are many times higher than those in industrialized countries. The latest International Ambient Air Quality Standards for instance, required the daily average concentration of PM10 to be < 180 µg/m3 (annual average < 60 µg/m3). In contrast, a typical 24-hr average concentration of PM10 in homes using bio fuels may range from 200 to 5000 µg/m3 or more throughout the year, depending on the type of fuel, stove, and housing. Concentration levels, of course, depend on where and when monitoring takes place, because significant temporal and spatial variations may occur within a house. Field measurements, for example, recorded peak concentrations of > 50 000 µg/m3 in the immediate vicinity of the fire, with concentrations falling significantly with increasing distance from the fire. Overall, it has been estimated that approximately 80% of total global exposure to airborne particulate matter occurs indoors in developing nations. Levels of CO and other pollutants also often exceed international guidelines13. Although a high percentage of households in the area are electrified, the burning of domestic fuels for heating and cooking purposes is likely to occur in informal areas surrounding Sasol. Even in electrified areas, households make use of domestic fuels due to high electricity costs and the traditional use of such fuels. Based on the Census 2001, coal and paraffin are predominantly also used in the nearby informal area of Embalenhle, which is located approximately 5 km to the west of Sasol.
4.5.5 Mining Activities
Mining activities surrounding Sasol include Winkelhaak Mines (Evander Goldfield). Mining activities and the extraction of material results in the formation of discard or slimes dams to accommodate the waste material. The surrounding residential areas of Evander, Embalenhle, Secunda and Trichardt will likely be exposed to elevated dust levels from the neighbouring slimes dams. Dust originating from slimes dams has in recent times become more than a nuisance factor. The health implications of this dust are now being studied in more detail and as the information becomes available local communities are becoming more emotional and concerned in regards to their health.
4.5.6 Veld Fires
A veld fire is a large-scale natural combustion process that consumes various ages, sizes, and types of flora growing outdoors in a geographical area. Consequently, veld fires are potential sources of large amounts of air pollutants that should be considered when attempting to relate emissions to air quality. The size and intensity, even the occurrence, of a veld fires depend directly on such variables as meteorological conditions, the species of vegetation involved and their moisture content, and the weight of consumable fuel per hectare (available fuel loading). Once a fire begins, the dry combustible material is consumed first. If the energy released is large and of sufficient duration, the drying of green, live material occurs, with subsequent burning of this material as well. Under suitable environmental and fuel conditions, this process may initiate a chain reaction that results in a widespread conflagration. It has been hypothesized, but not proven, that the nature and amounts of air pollutant emissions are directly related to the intensity and direction (relative to the wind) of the veld fire, and are indirectly related to the rate at which the fire spreads. The factors that affect the rate of spread are (1) weather (wind velocity, ambient temperature, relative humidity); (2) fuels (fuel type, fuel bed array, moisture content, fuel size); and (3) topography (slope and profile). However, logistical problems (such as size of the burning area) and difficulties in safely situating personnel and equipment close to the fire have prevented the collection of any reliable emissions data on actual veld fires, so that it is not possible to verify or disprove the hypothesis.
13 Ezzati, M. and D.M. Kammen, 2002. Environmental Health Perspective. The health impacts of exposure to indoor air
pollution from solid fuels in developing countries: Knowledge, Gaps and data needs. Risk Resource and Environmental Management Divisions, Resources for the future, Washington DC, USA, Energy and Resources Group and Goldman School of Public Policy, University of California, Berkley California, USA.
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The major pollutants from veld burning are PM, CO and VOCs. Nitrogen oxides are emitted at rates of from 1 to 4 g/kg burned, depending on combustion temperatures14. Emissions of SOx are negligible15. A study of biomass burning in the African savannah estimated that the annual flux of particulate carbon into the atmosphere is estimated to be of the order of 8 Tg C, which rivals particulate carbon emissions from anthropogenic activities in temperate regions16.
4.5.7 Power Stations
There are numerous Eskom coal powered stations such as Duvha, Kriel and Tutuka that are located within the Highveld Priority area. The burning of coal for power generation results in significant emissions being generated. At the power stations surrounding the pipeline route, various mitigation measures have been put in place at the stations to reduce the emissions before entering the atmosphere, these include bag filters or electrostatic precipitator (ESPs) for the removal of particulate matter and ash, scrubbers for sulphur dioxide and over air burners for oxides of nitrogen.
4.5.8 Other Sasol Operations
The Sasol chemical complex in Secunda operates numerous chemical processes. The products manufactured include olefins, surfactants, polymers, solvents, ammonia, wax etc. Emissions released during refining as they relate to combustion processes include sulphur dioxide, carbon monoxide, carbon dioxide, oxides of nitrogen and particulate matter. Other pollutants released include various levels of volatile organic compounds or heavy metals.
4.5.9 Air Quality Situation
Sasol operates meteorological and ambient air quality monitoring stations in Secunda (Club, Bossiespruit and Langverwacht). These stations measure meteorological and pollutant parameters including ambient CO, SO2, H2S, NO, NO2, O3, PM10 and BTEX concentrations. The Department of Environmental Affairs (DEA) also operates an ambient air quality monitoring station in eMbalenhle. For the purpose of the study, benzene, NO2 and PM10 were assessed in the Air Quality Impact Assessment (AQIA).
4.5.9.1 Benzene Concentrations Annual average benzene concentrations are in compliance with the annual average standard of 3.2 ppb over the monitoring period at the Club and Langverwacht stations (Figure 10). Annual average concentrations for 2009 and 2010 at the DEA monitoring station are also in compliance. Annual average concentrations range from 0.34 – 0.56 ppb at the Club station and 0.60 – 0.95 ppb at the Langverwacht station. An annual average concentration of 0.01 and 1.66 ppb was recorded at the DEA station in 2009 and 2010, respectively. The annual average benzene concentration at all monitoring stations are presented in Table 6.
14 U.S Environmental Protection Agency, 1996. Compilation of Air Pollution Emission Factors (AP-42), 6th Edition, Volume
1, as contained in the AirCHIEF (AIR Clearinghouse for Inventories and Emission Factors) CD-ROM (compact disk read only memory), US Environmental Protection Agency, Research Triangle Park, North Carolina. Also available at URL: http://www.epa.gov/ttn/chief/ap42/.
15 See reference in Footnote 14 above. 16 Cachier, H., Liousse, C., Buat-Menard, P. and Gaudichet, A. 1995. Particulate content of savanna fire emissions. J.
Atmos. Chem., 22(1-2), 123-148.
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FIGURE 10: ANNUAL AVERAGE BENZENE CONCENTRATION (PPB) RECORDED AT TWO SASOL
STATIONS
TABLE 6: ANNUAL AVERAGE BENZENE (PPB) CONCENTRATIONS FOR ALL MONITORING STATIONS FOR THE PERIOD 2006 – 2010. EXCEEDANCES OF THE ANNUAL STANDARDS ARE HIGHLIGHTED IN
BOLD
Pollutant Station Annual Average
2006 2007 2008 2009 2010
Benzene
Club 0.40 0.44 0.37 0.34 0.34
Langverwacht 0.60 0.70 0.77 0.69 0.74
Secunda x x - 0.01 1.66
Notes:
x indicates station was not operational
– indicates insufficient data is available to determine annual average
4.5.9.2 PM10 Concentrations Daily average PM10 concentrations generally fall below the current National daily standard of 120 µg/m3 at the Sasol stations, although five exceedances were recorded at the Langverwacht station in 2010, resulting in non-compliance (Figure 11). Maximum daily average concentrations range from 87 – 127.8 µg/m3 at the Club station and 85.16 – 192.5 µg/m3 at the Langverwacht station (Table 7). Higher concentrations are recorded at the DEA monitoring station, with exceedances of the daily standard frequently recorded at this site. The higher concentrations recorded at this site are interesting given the close proximity to the Langverwacht station (approx. 3 km). The DEA monitoring station is located in Embalenhle, the burning of biomass and domestic fuel in this area could contribute to the PM10 levels. Maximum daily average concentrations range from 321.29 - 537.04 µg/m3 at this station (Table 7). A similar pattern is recorded at all stations over the monitoring period, with a distinct
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seasonal trend evident in the datasets. Ambient PM10 concentrations increase during the winter months due to the prevailing meteorological conditions which promote the stagnation of pollution. Annual average PM10 concentrations are in compliance with the annual standard at the Sasol stations and non-compliance at the DEA station.
FIGURE 11: DAILY AVERAGE PM10 CONCENTRATIONS (µg/m3) RECORDED AT THE SASOL STATIONS.
THE RED LINE REPRESENTS THE DAILY AVERAGE PM10 STANDARD OF 120 µg/m3
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FIGURE 12: DAILY AVERAGE PM10 CONCENTRATIONS (µg/m3) RECORDED AT THE DEA STATION. THE
RED LINE REPRESENTS THE DAILY AVERAGE PM10 STANDARD OF 120 µg/m3 A similar diurnal signature is observed in diurnal PM10 concentrations at all three stations, although a sharper morning and evening peak is recorded by the DEA station (see Figure 12). This diurnal signature is consistent with domestic fuel burning with elevated concentrations recorded in the early morning (05:00 – 09:00) and evening (17:00 – 21:00) periods. Increased domestic fuel burning together with stable meteorological conditions promotes the increase in pollution during these periods.
FIGURE 13: DIURNAL PM10 CONCENTRATIONS (µg/m3) RECORDED AT THE SASOL STATIONS
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4.5.9.3 NO2 Concentrations Maximum hourly average NO2 concentrations are generally in compliance with the hourly standard of 106 ppb and allowable frequency of exceedance for all monitoring stations (Table 7) However, hourly average concentrations were in non-compliance at the Sasol stations in 2009 (Figure 14), although this is not observed at the DEA station (Figure 15). Lower NO2 concentrations are recorded at the DEA station compared to the two Sasol stations. A seasonal trend is also observed in ambient NO2 concentrations at all stations. Annual average NO2 concentrations are in compliance with the annual standard at all stations (Table 9).
FIGURE 14: HOURLY AVERAGE NO2 CONCENTRATIONS (PPB) RECORDED AT THE SASOL STATIONS
FOR THE PERIOD JAN – DEC 2009. THE RED LINE REPRESENTS THE HOURLY AVERAGE NO2 STANDARD OF 106 PPB
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FIGURE 15: HOURLY AVERAGE NO2 CONCENTRATIONS (PPB) RECORDED AT THE DEA STATION FOR THE PERIOD JAN – DEC 2009. THE RED LINE REPRESENTS THE HOURLY AVERAGE NO2 STANDARD OF
106 PPB Diurnal NO2 concentrations are given in Figure 16. A similar diurnal signature is recorded at all three stations, with elevated concentrations in the early morning (04:00 – 08:00) and evening (16:00 – 22:00) periods. However, a much sharper peak in concentrations is recorded in the morning at Langverwacht while the evening peak also extends much later at the Langverwacht station. These periods coincide with increased traffic volumes as well as possible emissions from domestic fuel burning.
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FIGURE 16: DIURNAL NO2 CONCENTRATIONS (PPB) RECORDED AT THE SASOL STATIONS
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TABLE 7: MAXIMUM HOURLY, DAILY AND ANNUAL AVERAGE PM10 (µg/m3), SO2 AND NO2 CONCENTRATIONS FOR ALL MONITORING
STATIONS FOR THE PERIOD 2006 – 2010. EXCEEDANCES OF THE STANDARDS AND ALLOWABLE FREQUENCY OF EXCEEDANCE (WHERE APPLICABLE) ARE HIGHLIGHTED IN BOLD
Pollutant Station Max Hour Average Max Daily Average
2006 2007 2008 2009 2010 2006 2007 2008 2009 2010
PM10
Club N/A N/A N/A N/A N/A 87.00 92.58 94.65 87.38 127.8
Langverwacht N/A N/A N/A N/A N/A 103.64 85.16 102.65 130.49 192.5
Secunda(1) N/A N/A N/A N/A N/A x x 321.29 362.31 537.04
SO2
Club 171.49 93.35 222.22 177.82 176.4 38.22 20.60 49.88 32.45 29.1
Langverwacht 234.43 272.47 241.64 324.34 185.3 43.64 54.34 41.62 39.48 31.1
Secunda x x 67.13 194.26 164.24 x x 18.11 38.11 44.61
NO2
Club 59.30 132.21 107.26 262.54 257.2 N/A N/A N/A N/A N/A
Langverwacht 186.08 84.57 124.01 370.80 72.7 N/A N/A N/A N/A N/A
Secunda x x 83.83 120.60 287.55 N/A N/A N/A N/A N/A
Notes: (1) Maximum daily average for 2008 is given for the period Aug – Dec 2008
x indicates station was not operational
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TABLE 8: ANNUAL AVERAGE PM10 (µg/m3), SO2 AND NO2 CONCENTRATIONS FOR ALL MONITORING STATIONS FOR THE PERIOD 2006 – 2010. EXCEEDANCES OF THE ANNUAL STANDARDS ARE
HIGHLIGHTED IN BOLD
Pollutant Station Annual Average
2006 2007 2008 2009 2010
PM10
Club 28.08 25.62 30.54 - 30.4
Langverwacht 36.77 28.24 29.93 30.30 44.9
Secunda x x - 72.82 88.52
SO2
Club 6.36 2.82 6.01 6.99 7.2
Langverwacht 8.53 9.40 7.61 6.15 6.7
Secunda x x - 8.54 10.99
NO2
Club 3.92 6.99 5.89 13.20 10.8
Langverwacht 7.80 6.21 8.77 18.81 9.8
Secunda x x - 15.37 20.14
Notes:
x indicates station was not operational
– indicates insufficient data is available to determine annual average
TABLE 9: EXCEEDANCES OF THE NATIONAL STANDARDS (WHERE APPLICABLE) AT ALL MONITORING
STATIONS FOR THE PERIOD 2006 – 2010
Pollutant Station Hourly Exceedances Daily Exceedances
2006 2007 2008 2009 2010 2006 2007 2008 2009 2010
PM10
Club N/A N/A N/A N/A N/A 0 0 0 0 1
Langverwacht N/A N/A N/A N/A N/A 0 0 0 3 5
Secunda N/A N/A N/A N/A N/A x x 21 64 98
SO2
Club 3 0 5 6 4 0 0 1 0 0
Langverwacht 13 21 16 4 7 0 1 0 0 0
Secunda x x 0 2 6 x x 0 0 0
NO2
Club 0 3 1 73 10 N/A N/A N/A N/A N/A
Langverwacht 1 0 3 190 0 N/A N/A N/A N/A N/A
Secunda x x 0 2 9 N/A N/A N/A N/A N/A
Notes:
x indicates station was not operational
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4.6 Noise The Sasol Synfuels Complex is a source of existing noise as a result of current industrial processes that are taking place. The noise at the Complex is within 85 dBA.
4.7 Social The proposed project falls within the Govan Mbeki Local Municipality (GMLM) which is located in the north west of the Gert Sibande District Municipality (GSDM). The GMLM has the most diversified economy within the GSDM, dominated by the petrochemical industry (Sasol II and III complexes) and coal and gold mining. Secunda and Embalenhle are the closest town/communities to the study area. The study area extends potentially across much of the Govan Mbeki Municipality, which consists of Secunda, Embalenhle, Kinross, Evander, Trichardt, Charl Cilliers, Leslie/Leandra, Lebohang, Eendracht, Bethal and eMzinoni. The Govan Mbeki Local Municipality has the largest number (53.8% or 99201 people)17 and highest level of employment within the District. This could be attributed to the fact that the GMLM is one of two local municipalities that hosts the majority of all the mining, manufacturing and agricultural activity taking place within the District.
4.8 Land-use The Sasol Synfuels Industrial Complex is surrounded by a number of different land uses i.e. industrial, residential, commercial and agricultural. The middle to high-income residential area of Secunda is located approximately 5 km north-east of the Complex and includes a variety of commercial activities. In turn, the low cost housing development of Embalenhle is located 10 km north-west of the site. Due to the highly industrialised nature of the area there is an extensive infrastructural development including an extensive road and rail network. The project will not have an impact on the land-use.
4.9 Health and Safety The nature of Sasol’s business brings with it substantial inherent safety, health and environmental (SH&E) risks. The Group’s annual sustainable development reporting includes a comprehensive list of these potential risks, the most substantial of which are: the risk of fire or explosion at sites that host inventories of flammable hydrocarbons above ground; risks associated with extensive underground coal operations; and toxicity risks associated with the wide range of hazardous chemicals that are produced. Sasol’s Safety and Health Essential Requirements are compulsory and applicable to all new projects such as the proposed project retrofitting of the gas turbines. The properties of aromatic naphtha are attached as Appendix C.
4.10 Heritage The Sasol Synfuels Complex is a highly developed Industrial area that has been in operation for more than 30 years, the landscape has been changed by the development. None of the structures have aesthetic, historic, research or historical significance. There are no sites of archaeological or cultural significance known on the proposed study area. Sasol will ensure that all requirements of Chapter II, Section 38 of the National Heritage Resources Act, Act 25 of 1999, are complied with in the EIA process and that the comments and/or recommendations of the relevant heritage resources authority responsible for the area in which the development is proposed, are considered.
17 Gert Sibande District Municipality, 2009. Spatial Development Framework.
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5 ENVIRONMENTAL IMPACT ASSESSMENT METHODOLOGY AND APPROACH
5.1 Approach to Undertaking the Study An EIA for the proposed SGP 1B (new) project has been undertaken in accordance with the Environmental Impact Assessment (EIA) Regulations published in Government Notice No. R. 543, R. 544 and R. 545 of 2010 in terms of Section 24 (5) of the National Environmental Management Act (Act No 107 of 1998) (as amended). The environmental studies are following a two-phased approach: Phase 1: Environmental Scoping Study (ESS) – complete. Phase 2: Environmental Impact Assessment (EIA) – this report, including an Environmental Management
Programme (EMPr) to address impacts identified during the ESS and EIA.
5.2 Environmental Scoping Study An issues-based ESS was first undertaken for the project. Existing information and input from the Authorities as well as Interested and Affected Parties (I&APs) were used to identify and evaluate potential environmental impacts (both social and biophysical) associated with the proposed project. No fatal flaws associated with the proposed project were identified through the ESS, although potentially significant environmental impacts were identified as requiring further in-depth study within the EIA. The Scoping Phase of the environmental studies provided I&APs with the opportunity to receive information regarding the project, participate in the EIA process and raise issues of concern. The draft Environmental Scoping Report (ESR) was made available at public places for I&AP review and comment from 15 November 2011 to 13 January 2012. All the comments, concerns and suggestions received during the public participation process for the Scoping Phase and from the draft report review period were included in the final Environmental Scoping Report, which was submitted to the MDEDET for review and decision-making and subsequently the acceptance was signed on 07 February 2012 and received on 11 April 2012.
5.3 Authority Consultation
5.3.1 Consultation with Decision-Making Authority
The relevant authority (MDEDET) providing input into the proposed project has been consulted from the onset of this study, and will continue to be engaged throughout the project process. The consultation process to date with MDEDET aimed to determine specific authority requirements with regards to the project, and ensure inclusion of these in the environmental studies. Authority consultation to date also included the following activities: Submission of an application for environmental authorisation in terms of Section 26 of the EIA Regulations
(2010) on 14 September 2011. Approval of the application documentation by MDEDET was received on 04 October 2011. Site visit with MDEDET official, Mr Bheki Mndawe on 01 November 2011. Submission of the final Environmental Scoping Report and Plan of Study for EIA on 30 January 2012. Acceptance of the final Environmental Scoping Report and Plan of Study for EIA was received on
11 April 2012 (Appendix D).
5.3.2 Environmental Impact Assessment
As part of the overall project planning process, this EIA aims to achieve the following: to supplement, where necessary, the assessment of the social and biophysical environments affected by the
proposed project during the Scoping study; to assess impacts on the study area in terms of environmental criteria; to identify and recommend appropriate mitigation measures for potentially significant environmental impacts;
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to complete an Environmental Management Programme (EMPr) for the inclusion of proposed mitigation measures; and
to undertake a fully inclusive public participation process to ensure that I&AP issues and concerns are recorded and addressed.
5.3.3 Methodology – Assessment of Impacts
Impact assessment must take account of the nature, scale and duration of effects on the environment, whether such effects are positive (beneficial) or negative (detrimental). Each issue/impact is also assessed according to the project stages from planning, through construction and operation to the decommissioning phase. Where necessary, the proposal for mitigation or optimisation of an impact is noted. A brief discussion of the impact and the rationale behind the assessment of its significance is provided below.
5.3.4 Impact Assessment Methodology The potential environmental impacts associated with the project will be evaluated according to it nature, extent, duration, intensity, probability and significance of the impacts, whereby: Nature: A brief written statement of the environmental aspect being impacted upon by a particular action or
activity. Extent: The area over which the impact will be expressed. Typically, the severity and significance of an
impact have different scales and as such bracketing ranges are often required. This is often useful during the detailed assessment phase of a project in terms of further defining the determined significance or intensity of an impact. For example, high at a local scale, but low at a regional scale;
Duration: Indicates what the lifetime of the impact will be; Intensity: Describes whether an impact is destructive or benign; Probability: Describes the likelihood of an impact actually occurring; and Cumulative: In relation to an activity, means the impact of an activity that in itself may not be significant but
may become significant when added to the existing and potential impacts eventuating from similar or diverse activities or undertakings in the area.
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TABLE 10: CRITERIA FOR THE RATING OF IMPACTS
CRITERIA DESCRIPTION
EXTENT National (4)
The whole of South Africa Regional (3)
Provincial and parts of neighbouring provinces
Local (2) Within a radius of 2 km of the
construction site
Site (1) Within the construction site
DURATION
Permanent (4) Mitigation either by man or
natural process will not occur in such a way or in such a time span that the impact can be
considered transient
Long-term (3) The impact will continue or last for the entire operational life of the development, but will be mitigated by direct human
action or by natural processes thereafter. The only class of
impact which will be non-transitory
Medium-term (2) The impact will last for the period of the construction
phase, where after it will be entirely negated
Short-term (1) The impact will either
disappear with mitigation or will be mitigated through natural
process in a span shorter than the construction phase
INTENSITY
Very High (4) Natural, cultural and social
functions and processes are altered to extent that they
permanently cease
High (3) Natural, cultural and social
functions and processes are altered to extent that they
temporarily cease
Moderate (2) Affected environment is
altered, but natural, cultural and social functions and
processes continue albeit in a modified way
Low (1) Impact affects the environment
in such a way that natural, cultural and social functions
and processes are not affected
PROBABILTY OF
OCCURANCE
Definite (4) Impact will certainly occur
Highly Probable (3) Most likely that the impact will
occur
Possible (2) The impact may occur
Improbable (1) Likelihood of the impact materialising is very low
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Significance is determined through a synthesis of impact characteristics. Significance is also an indication of the importance of the impact in terms of both physical extent and time scale, and therefore indicates the level of mitigation required. The total number of points scored for each impact indicates the level of significance of the impact.
TABLE 11: CRITERIA FOR THE RATING OF CLASSIFIED IMPACTS
Low impact (4 -6 points)
A low impact has no permanent impact of significance. Mitigation measures are feasible and are readily instituted as part of a standing design, construction or operating procedure.
Medium impact (7 -9 points)
Mitigation is possible with additional design and construction inputs.
High impact (10 -12 points)
The design of the site may be affected. Mitigation and possible remediation are needed during the construction and/or operational phases. The effects of the impact may affect the broader environment.
Very high impact (12 - 14 points)
Permanent and important impacts. The design of the site may be affected. Intensive remediation is needed during construction and/or operational phases. Any activity which results in a “very high impact” is likely to be a fatal flaw.
Status Denotes the perceived effect of the impact on the affected area. Positive (+) Beneficial impact. Negative (-) Deleterious or adverse impact. Neutral (/) Impact is neither beneficial nor adverse. It is important to note that the status of an impact is assigned based on the status quo – i.e. should the project not proceed. Therefore not all negative impacts are equally significant. The suitability and feasibility of all proposed mitigation measures will be included in the assessment of significant impacts. This will be achieved through the comparison of the significance of the impact before and after the proposed mitigation measure is implemented. Mitigation measures identified as necessary will be included in an EMPr.
5.4 EIA Report (EIR) This Environmental Impact Assessment Report (EIR) contains the following: Details of the EAP who compiled the report and their expertise to carry out an EIA; Detailed description of the activity/ies; Description of the property on which the activity is being undertaken; A description of the environment that might be affected by the activity and the manner in which the physical,
biological, social, economic and cultural aspects of the environment may be affected by the activity; Details of the public participation process conducted during the Scoping Phase and the ongoing consultation
during the EIA phase; Description of the need and desirability of the activity including advantages and disadvantages that the
activity may have on the environment and the community that may be affected by the activity; An indication of the methodology used in determining the significance of potential environmental impacts; A summary of the findings and recommendations of any specialist report or report on a specialised process; A description of all environmental issues that were identified during the environmental impact assessment
process, an assessment of the significance of each issue and an indication of the extent to which the issue could be addressed by the adoption of mitigation measures;
An assessment of each identified potentially significant impact, including cumulative impacts, the nature of the impact, the extent and duration of the impact, the probability of the impact occurring, the degree to which the impact can be reversed, the degree to which the impact may cause irreplaceable loss of resources and the degree to which the impact can be mitigated;
A description of any assumptions, uncertainties and gaps in knowledge; An opinion as to whether the activity should or should not be authorised, and if the opinion is that it should be
authorised, any conditions that should be made in respect of that authorisation;
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An environmental impact statement which contains a summary of the key findings of the environmental impact assessment; and a comparative assessment of the positive and negative implications of the activity.
A draft environmental management programme (EMPr) and Copies of any specialist reports and reports on specialised processes.
5.5 Draft Environmental Management Programme During the compilation of this EIR, a draft EMPr has been compiled in accordance with the EIA Regulations (2010). The draft EMPr provides the actions for the management of identified environmental impacts emanating from the project and a detailed outline of the implementation programme to minimise and/or eliminate the anticipated negative environmental impacts. The draft EMPr provides strategies to be used to address the roles and responsibilities of environmental management personnel on site, and a framework for environmental compliance and monitoring. The EMPr includes the following: Details of the person who prepared the EMPr and the expertise of the person to prepare an EMPr; Information on any proposed management or mitigation measures that will be taken to address the
environmental impacts that have been identified in the EIR, including environmental impacts or objectives in respect of operation or undertaking of the activities, rehabilitation of the environment and closure where relevant;
A detailed description of the aspects of the activity that are covered by the draft EMPr; An identification of the persons who will be responsible for the implementation of the measures; Where appropriate, time periods within which the measures contemplated in the draft EMPr must be
implemented; Proposed mechanisms for monitoring compliance with the EMPr and reporting thereon; An environmental awareness plan; and Procedures for managing incidents which have occurred as a result of undertaking the activity and
rehabilitation measures.
5.6 Specialist Studies A detailed air quality assessment has been conducted in order to provide a better indication of the extent of the impacts expected from the proposed construction and operational phases of this development. A detailed emissions inventory has been compiled to determine the emissions released from the proposed activities. Dispersion modelling simulations have been undertaken using the AERMOD dispersion model and the impacts are presented graphically as isopleths plots. Refer to Appendix E.
5.7 Assumptions and Limitations All information provided by Sasol Synfuels (Pty) Ltd to the EAP was correct and valid at the time it was
provided. The EAP does not accept any responsibility in the event that additional information comes to light at a later
stage of the process. All data from unpublished research is valid and accurate. Air Quality - Due to the unavailability of information the following assumptions were made:
All emissions estimated from the TANKS 4.09 programme were assumed to be Benzene in order to assess impact against an available South African Ambient Standard. It is understood that this approach would result in an over estimation of the potential impacts from these sources as not all the emissions estimated to be released would be benzene. A Chimec (Octane Booster) and Cetane storage tank will also be installed on site, however due to the lack of detailed information related to the chemical constituents being stored the emissions released from these sources could not be estimated at this stage. It can be noted though that the mixture does not include benzene, the only volatile organic compound to which ambient standards have been promulgated. Thus the quantity of the additive being stored, and the
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lack of ambient standards to use as a comparison to impacts from these sources makes the lack of assessment of the emissions released from these sources an acceptable omission.
The emission calculation for the MFO tank was based on Residual Oil specifications. The emission calculations for the CTN (Aromatic naphtha) were based on the Jet Naphtha specifications.
These was utilised as the chemical properties and compositions closely matched that of the mixture. During upset conditions it was assumed that the flare would not operate for more than 3 hours at any
given incident.
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6 PUBLIC PARTICIPATION PROCESS
6.1 Aims of the Public Participation Process The primary aims of the public participation process were: to inform interested and affected parties (I&APs) and key stakeholders of the proposed application and
environmental studies; to initiate meaningful and timeous participation of I&APs; to identify issues and concerns of key stakeholders and I&APs with regards to the application for the
development (i.e. focus on important issues); to promote transparency and an understanding of the project and its potential environmental (social and
biophysical) impacts (both positive and negative); to provide information used for decision-making; to provide a structure for liaison and communication with I&APs and key stakeholders; to assist in identifying potential environmental (social and biophysical) impacts associated with the proposed
development; to ensure inclusivity (the needs, interests and values of I&APs must be considered in the decision-making
process); to focus on issues relevant to the project, and issues considered important by I&APs and key stakeholders;
and to provide responses to I&AP queries.
6.1.1 Consultation with Relevant Authorities and Key Stakeholders
Consultation with other relevant authorities and key stakeholders was undertaken via telephone calls and written correspondence in order to actively engage these stakeholders from the outset and to provide background information about the proposed project. The representatives from these authorities (presented in Table 12) were requested to formally provide input into the EIA process.
TABLE 12: KEY STAKEHOLDERS CONTACTED AS PART OF PP PROCESS CONTACT PERSON ORGANISATION
NON-GOVERNMENTAL ORGANISATIONS (NGOs) Andrew Rossaak WESSA: Regional Chairperson Carolyn Ah Shene-Verdoorn Birdlife South Africa Marianna Nieuwoudt Olifants River Forum Siziwe Khanyile groundWork Rico Euripidou groundWork
GOVERNMENT Martha Mokonyane Department of Mineral Resources JM van Aswegen Department of Water Affairs Sibongisani Sibiya Department of Labour Prinsloo Vaino Mpumalanga Tourism and Parks Agency Thamsanqa Xesibe Department of Water Affairs I Silinda Chief Director: Agricultural Support Services A Van Niekerk DEDET, Acting Director: Policy Planning and Information Management Philip Hine SAHRA Dan Hlanyane Eastvaal District Council
LOCAL MUNICIPALITY SS Nkosi Govan Mbeki Municipality Sibongile Zibakalala Govan Mbeki Municipality Willie Coetzee Govan Mbeki Municipality LH Mathunyane Govan Mbeki Municipality: Municipal Manager Kamesh Rohan Govan Mbeki Municipality - Technical and Engineering section
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CONTACT PERSON ORGANISATION Bongani Cedric Malaza Govan Mbeki Municipality Albert Olivier Govan Mbeki Municipality Philisiwe Nzama-Councillor Embalenhle: Ward 4 C Gwiji-Councillor Embalenhle: Ward 7 D Mahlangu-Councillor Embalenhle: Ward 9 Johana Ndlovu Embalenhle: Ward 10 A Motaung Embalenhle: Ward 11 Thabo Tsotetsi Embalenhle: Ward 8 Nick Mathabe Embalenhle: Ward 12 T Mtsweni Embalenhle: Ward 19 Simon Mabena Embalenhle: Ward 20 Timothy Denny Secunda: Ward 5 Angela van Royen Secunda: Ward 21 Naomi Victor Secunda: Ward 25 Tarnia Baker Secunda: Ward 30
OTHER STAKEHOLDERS Attie Jankowitz Waterval Forum William Matonana EUWO Richard Morajane Secunda Cosatu Local Bulelani Msizi HCAF Len Roodtman Waterval Forum - Harmony Saul Vilakazi Highveld Ridge TLC Freddy Mukwevho Voice of the Voiceless Johannes Nkosi Embalenhle Recreactional Environment Club Hennie du Preez Goedehoop Primary School FJ Papendorp Highveld Ridge Primary School Francois Rohrbeck Secunda Fire Department George Malatsi Zamokuhle Primary School Nomsa Mahlangu Community Police Forum
6.1.2 Advertising
Advertisements on the availability of the EIR for public comment and public meeting was placed in the Ridge Times and Echo News on 30 November and 06 December 2012 (refer to Appendix F).
6.1.3 Identification of Interested and Affected Parties
I&APs and key stakeholders have been identified during the ESS phase of the project. The identification of I&APs and key stakeholders continued in the EIA phase of the project as the public participation process is a continuous process that runs throughout the duration of environmental investigation.
6.1.4 I&AP Database All I&AP information (including contact details), together with dates and details of consultations and a record of all issues raised is recorded within a comprehensive database of I&APs (refer to Appendix G). This database has been updated on an on-going basis throughout the project, and will act as a record of the communication/involvement process.
6.1.5 Issues Trail All issues, comments and concerns raised during the public participation process of the EIA study has been compiled into an Issues Trail (refer to Appendix G).
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6.1.6 Public Review of the Draft Environmental Impact Report The draft EIR was made available for public review for a 40 day review period from 04 December 2012 to 31 January 2013. Hard copies of the report were available for review at the following public places: Secunda Municipal Library Sasol Technology Library Embalenhle Municipal Library Offices of SSI Engineers and Environmental Consultants (78 Kalkoen Street, Monument Park, Pretoria); and SSI Environmental’s website (http://www.rhdhv.co.za/pages/services/environmental/current-projects.php).
6.1.7 Public Meeting
A public meeting was held on 22 January 2013. The minutes from the meeting is attached in Appendix G.
6.1.8 Authority Review of the Final Environmental Impact Report
All relevant comments received from the public and other I&APs have been considered and included into the final EIR. According to Section 56 (6) of the EIA (2010) Regulations, registered I&APs must comment on final reports and submit the comments to the competent authority and provide a copy of such comments to the applicant or Environmental Assessment Practitioner (EAP).
6.1.9 Environmental Authorisation
On receipt of environmental authorisation (positive or negative) for the project, I&APs registered on the project database will be informed of this authorisation and its associated terms and conditions by correspondence.
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7 POTENTIAL IMPACTS ASSOCIATED WITH THE PROJECT The proposed retrofitting of the gas turbines is anticipated to impact on a range of biophysical and socio-economic aspects of the environment. One of the main purposes of the EIA process is to understand these potential impacts and to determine if they can be minimised or mitigated.
7.1 Construction Phase Impacts - Aromatic Naphtha Tank
7.1.1 Geology
POTENTIAL IMPACT/S: Disturbance of surface geology for the development of foundations.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
The aromatic naphtha hold up tank will be located in an established tank farm which is bound by existing tank earth berms.
All site disturbances must be limited to the areas where structures will be constructed.
Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-5)
Western Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Apply mitigation measures listed above. Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-5)
7.1.2 Soils
POTENTIAL IMPACT/S: Alteration of topography due to stockpiling of soil, building material, debris, waste material on site and establishment of lay-down areas. Removal and compaction of soil during construction activities. Potential erosion, degradation and loss of topsoil due to construction activities as well surface and stormwater runoff. Contamination of soils due to spillage, leakage, incorrect storage and handling of chemicals, grease, oils, lubricants, paints, sewage, fuel and other
hazardous material. ASSESSMENT OF IMPACTS:
Without Mitigation Mitigation Measures After Mitigation Eastern Tank Extent: Site (-1) The existing construction lay-down area situated to Extent: Site (-1)
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POTENTIAL IMPACT/S:
Farm Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
the east of the Eastern tank farm should be utilized. Topsoil should only be exposed for minimal periods of
time and adequately stockpiled to prevent the topsoil loss and runoff.
Topsoil must not be compacted in any way, nor should any object be placed or stockpiled upon it.
Land disturbance must be minimised in order to prevent erosion and run-off – this includes leaving exposed soils open for a prolonged period of time.
Areas susceptible to erosion must be protected by installing the necessary temporary and/or permanent drainage works to prevent surface water from being concentrated in streams.
Any tunnels or erosion channels developed during the construction period shall be backfilled and compacted, and the area restored to a proper condition.
Implement the appropriate topsoil and stormwater runoff control management measures to prevent the loss of topsoil.
Only designated areas should be used for the handling or storage of construction materials.
Spill kits must be available on site to clean up spills and leaks.
All diesel-operated equipment must be provided with drip trays and should be maintained in good working order.
Proper portable toilet facilities must be provided for workers. The facilities must be sufficiently maintained to avoid spillage.
Any contaminated soil that has been excavated must be disposed off responsibly.
Used oil and grease from machinery or construction vehicles must be disposed off at a hazardous waste site.
The contractor must ensure that his workers do not litter on the site.
Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
Western Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2)
An appropriate area must be identified for the construction lay-down area.
Refer to other mitigation measures included above for
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1)
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POTENTIAL IMPACT/S:
Probability: Highly Probable (-3) Significance: Medium (-8)
the Eastern Tank Farm.
Probability: Possible (-2) Significance: Low (-6)
7.1.3 Water Resources
POTENTIAL IMPACT/S: Contamination of surface and groundwater due to spillage, leakage, incorrect storage and handling of chemicals, paints, grease, oils, lubricants,
cement, fuels, sewage and other hazardous materials; disposal of water that has stagnated. ASSESSMENT OF IMPACTS:
Without Mitigation Mitigation Measures After Mitigation Eastern Tank
Farm Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
All hazardous substances must be stored in a designated area on an impervious surface in a designated bunded area, able to contain 110% of the total volume of materials stored at any given time.
The integrity of the impervious surface and bunded area must be inspected regularly and any maintenance work conducted must be recorded in a maintenance report.
All diesel-operated equipment must be provided with drip trays and should be maintained in good working order.
Ensure that washing of containers, equipment, vehicles and other surfaces only occurs at designated washing areas.
Existing stormwater management structures and sumps that are designed to trap any potentially contaminated stormwater must be well maintained.
Any water that collects in foundations must be treated as contaminated and disposed off correctly.
Provide proper warning signage to make people aware of the activities within designated areas.
Employees should be provided with absorbent spill kits and disposal containers to handle spillages.
Train employees and contractors on the correct handling of spillages and precautionary measures that need to be implemented to minimise potential spillages.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
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POTENTIAL IMPACT/S:
All earth moving vehicles and equipment must be regularly maintained to ensure their integrity and reliability. No repairs may be undertaken beyond the contractor lay-down area.
An Emergency Preparedness and Response Plan will be developed and implemented should an incident occur.
Access to storage areas on site must be restricted to authorised employees only.
Ensure the establishment of stormwater diversion berms around the contractor laydown area and other potential contaminated areas (e.g. diesel storage tanks or refuelling station).
All incidents must be reported to the responsible site officer as soon as it occurs.
Proper portable toilet facilities must be provided for workers. The facilities must be sufficiently maintained to avoid spillage. Under no circumstances should sewage be discharged into the stormwater drain.
Used oil and grease from machinery or construction vehicles must be disposed off at a hazardous waste site.
Western Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Refer to the mitigation listed above. Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
7.1.4 Dust and Emissions during Construction
POTENTIAL IMPACT/S: Dust from scraping and site preparation. Handling, truck transport and dumping of debris. Emissions from construction machinery and equipment.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Extent: Site (-1) Speed limits must be adhered to on roads to prevent Extent: Site (-1)
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POTENTIAL IMPACT/S:
Farm Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Highly Probable (-3) Significance: Medium (-8)
the liberation of dust into the atmosphere. Dust must be suppressed on the construction site and
during the transportation of material during dry periods by the regular application of water. Water used for this purpose must be used in quantities that will not result in the generation of run-off.
To avoid the generation of unnecessary dust, material drop height should be reduced and material storage piles should be protected from wind erosion. This can take the form of windbreaks, water sprays or vegetation of piles.
Routes for tracks must be determined prior to construction commencing.
Equipment used by the contractor must be maintained in good working order to prevent smoke emission.
All site workers during construction will need to wear the appropriate PPE to avoid any exposure to contaminated dust particles.
Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-6)
Western Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Medium (-2) Probability: Highly Probable (-3) Significance: Medium (-8)
Refer to the mitigation listed above. Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-6)
7.1.5 Noise
POTENTIAL IMPACT/S: During the construction phase there is likely to be an increase in noise pollution from construction vehicles and construction staff.
ASSESSMENT OF IMPACTS:
Without Mitigation Mitigation Measures After Mitigation Eastern Tank
Farm Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Provide all equipment with standard silencers. Maintain silencer units in vehicles and equipment in good working order.
Construction staff working in area where the 8-hour ambient noise levels exceed 85 dBA must have the appropriate Personal Protective Equipment (PPE).
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable(-1) Significance: Low (-5)
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POTENTIAL IMPACT/S:
Western Tank
Farm Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Refer to the mitigation listed above. Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable(-1) Significance: Low (-5)
7.1.6 Waste
POTENTIAL IMPACT/S: Waste generation during the construction phase will have a negative impact on the environment, if not controlled adequately. Waste on site includes general and hazardous waste composed of spent grinding discs, spent welding rods, packaging material, mixed concrete, paint cans & brushes, insulation material and building rubble.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Highly Probable (-3) Significance: Medium (-8)
General waste disposal bins will be made available for employees to use throughout the construction phase.
Waste will be temporarily stored on site (less than 90 days) before being disposed off appropriately.
General waste will be disposed of an approved waste disposal facility.
Records of all waste being taken off site must be recorded and kept as evidence.
Evidence of correct disposal must be kept. Building rubble will be used, where possible, in
construction or buried with the necessary town planning approvals. Where this is not possible, the rubble will be disposed of at an appropriate site.
Hazardous materials will be generated if there are spillages; this waste should be cleaned up using absorbent material provided in spill kits on site.
Absorbent materials used to clean up spillages should be disposed of in a separate hazardous waste bin.
The storage area for hazardous material must be concreted, bunded, covered, labelled and well ventilated.
Provide employees with appropriate PPE for handling
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-6)
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POTENTIAL IMPACT/S:
hazardous materials. All hazardous waste will be disposed of in a registered
hazardous waste disposal facility. The contractor must take responsibility and ensure
that his workers dispose waste properly. In addition, the workers must be trained on proper waste management.
Western Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Highly Probable (-3) Significance: Medium (-8)
Refer to mitigation listed above. Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-6)
7.1.7 Health and Safety
POTENTIAL IMPACT/S: Staff safety during construction could be compromised by activities such as workers smoking.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Requirements of the OHS Act (85 of 1993) and its Regulations, Sasol SH&E must be strictly adhered to.
A Safety Officer must be appointed to continuously monitor the safety conditions during construction.
Adequate distribution and placement of hazardous signs and fire protection equipment on site must be ensured.
Smoking should be allowed only in designated smoking areas
All construction staff must have the appropriate PPE. The construction staff handling chemicals or
hazardous materials must be trained in the use of the substances and the environmental, health and safety consequences of incidents.
Construction equipment and materials should not be overloaded during transportation.
Report and record any environmental, health and safety incidents to the responsible person.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
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POTENTIAL IMPACT/S:
Safety files must be compiled and signed off by Sasol responsible officer prior to construction.
An assessment should be conducted in hot work areas to determine requirements of working in such zones.
Western Tank Farm
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Refer to mitigation listed above. Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
7.1.8 Social
POTENTIAL IMPACT/S: Limited opportunities do, however, exist for manual labour for unskilled tasks, where the appointed contractor would be required to make use of local
workers (e.g. for loading building materials and the digging of foundations). ASSESSMENT OF IMPACTS:
Without Mitigation Mitigation Measures After Mitigation Eastern Tank
Farm Extent: Local (+2) Duration: Short-term (+1) Intensity: Low (+1) Probability: Possible (+2) Significance: Low (+6)
All labour (skilled and unskilled) and contractors should be sourced locally where possible.
Extent: Local (+2) Duration: Short-term (+1) Intensity: Low (+1) Probability: Possible (+2) Significance: Low (+6)
Western Tank Farm
Extent: Local (+2) Duration: Short-term (+1) Intensity: Low (+1) Probability: Possible (+2) Significance: Low (+6)
All labour (skilled and unskilled) and contractors should be sourced locally where possible.
Extent: Local (+2) Duration: Short-term (+1) Intensity: Low (+1) Probability: Possible (+2) Significance: Low (+6)
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TABLE 13: SUMMARY OF CONSTRUCTION PHASE IMPACTS AND AVERAGE ALLOCATION POINTS ALLOCATED TO THE AROMATIC
NAPHTHA TANK ON THE EASTERN AND WESTERN TANK FARM IMPACTS EASTERN TANK
FARM - Without Mitigation
EASTERN TANK FARM – With
Mitigation
WESTERN TANK FARM - Without
Mitigation
WESTERN TANK FARM - With
Mitigation Geology -7 -5 -7 -5 Soils -7 -5 -8 -6 Water Resources -7 -5 -7 -5 Air Quality -8 -6 -8 -6 Noise -7 -5 -7 -5 Waste -8 -6 -8 -6 Health and Safety -7 -5 -7 -5 Social +6* +6* +6* +6* Average Total -7.57 -5.23 -7.71 -5.42
*Not included as part of the calculation.
7.2 Construction Phase Impacts – Additional Infrastructure (MFO tank, modifications to the East Refinery Plant, modifications to gas turbines, Octane and Cetane Booster tanks)
Nature of Impact Without Mitigation Mitigation Measures After Mitigation Geology Disturbance of surface geology for the development of foundations
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-4) Significance: Medium (-9)
The MFO and octane and cetane booster tanks will be located in an established tank farm (Western Tank Farm) which is bound by existing tank earth berms.
All site disturbances must be limited to the areas where structures will be constructed.
Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-5)
Soils Alteration of topography due to
stockpiling of soil, building material, debris, waste material on site and establishment of lay-down areas.
Removal and compaction of soil during construction activities.
Potential erosion, degradation and loss of topsoil due to
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Refer to the mitigation measures presented in Section 7.1.2..
Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-5)
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Nature of Impact Without Mitigation Mitigation Measures After Mitigation construction activities as well surface and stormwater runoff.
Contamination of soils due to spillage, leakage, incorrect storage and handling of chemicals, grease, oils, lubricants, paints, sewage, fuel and other hazardous material.
Water Resources Contamination of surface and
groundwater due to spillage, leakage, incorrect storage and handling of chemicals, paints, grease, oils, lubricants, cement, fuels, sewage and other hazardous materials; disposal of water that has stagnated.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
All new equipment for the retrofitting of the Gas Turbines will have a common location which will cater for a common drainage system for stormwater. The stormwater will be drained into an observation sump.
Refer to the mitigation measures presented in Section 7.1.3.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
Dust and Emissions Dust from scraping and site
preparation. Handling, truck transport and
dumping of debris. Emissions from construction
machinery and equipment.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Highly Probable (-3) Significance: Medium (-8)
Refer to the mitigation measures presented in Section 7.1.4.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-6)
Noise During the construction phase there is likely to be an increase in noise pollution from construction vehicles and construction staff.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Provide all equipment with standard silencers. Maintain silencer units in vehicles and equipment in good working order.
Construction staff working in area where the 8-hour ambient noise levels exceed 85 dBA must have the appropriate Personal Protective Equipment (PPE).
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable(-1) Significance: Low (-5)
Waste Waste generation during the construction phase will have a negative impact on the environment, if not controlled adequately. Waste on site includes general and
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Highly Probable (-3) Significance: Medium (-8)
Refer to the mitigation measures presented in Section 7.1.6.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2) Significance: Low (-6)
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Nature of Impact Without Mitigation Mitigation Measures After Mitigation hazardous waste composed of spent grinding discs, spent welding rods, packaging material, mixed concrete, paint cans & brushes, insulation material and building rubble.
Health and Safety Construction staff health and safety
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-7)
Requirements of the OHS Act (85 of 1993) and its Regulations, Sasol SH&E must be strictly adhered to.
Refer to the mitigation measures presented in Section 7.1.7.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
Social Limited opportunities do, however, exist for manual labour for unskilled tasks, where the appointed contractor would be required to make use of local workers (e.g. for loading building materials and the digging of foundations).
Extent: Local (+2) Duration: Short-term (+1) Intensity: Low (+1) Probability: Possible (+2) Significance: Low (+6)
No mitigation proposed.
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7.3 Operational Phase Impacts - Aromatic Naphtha Tank
7.3.1 Soils
POTENTIAL IMPACT/S: Contamination of soils due to spillage and leakages
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-8)
Any contaminated soil must be cleaned immediately and removed and disposed off responsibly.
Tanks must be frequently inspected to ensure their integrity.
In upset conditions (e.g. equipment malfunctioning) the flow must be diverted to available process equipment.
Emergency plan and procedures should be in place in the event of spillage.
Spill kits must be available on site to clean up spills and leaks.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Western Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: High (-3) Probability: Possible (-2) Significance: Medium (-9)
Longer pipelines will be required to transport the Aromatic Naphtha to the existing SCC Aromatic Naphtha tank (256TK-1509). Longer pipelines would result in greater disturbance to the soils as well as the potential for spillages are greater. Emergency plan and procedures should be in place in the event of spillage.
Spill kits must be available on site to clean up spills and leaks.
Any contaminated soil must be cleaned immediately and removed and disposed off responsibly.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability : Improbable (-1) Significance: Low (-6)
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7.3.2 Geohydrology (groundwater) and Hydrology (surface water)
POTENTIAL IMPACT/S: Contamination of surface and groundwater due to spillage, leakage, or incorrect handling of chemicals, cleaning of equipment, paints, lubricants,
fuels, and other hazardous materials during use or storage. Water/effluent handling (routing of fire water; management of contaminated and uncontaminated stormwater; generation of additional effluent from
the process). ASSESSMENT OF IMPACTS:
Without Mitigation Mitigation Measures After Mitigation Eastern Tank
Farm Extent: Local (-2) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-9)
All hazardous substances must be stored in a designated area on an impervious surface in a designated bunded area, able to contain 110% of the total volume of materials stored at any given time.
The integrity of the impervious surface and bunded area must be inspected regularly and any maintenance work conducted must be recorded in a maintenance report.
Ensure uncontaminated and contaminated stormwater are channelled into the correct system either for release into the Klipspruit or to be further processed within the Secunda complex.
Employees should be provided with appropriate spill kits and disposal containers to handle spillages.
Train employees and contractors on the correct handling of spillages and precautionary measures that need to be implemented to minimise potential spillages.
An Emergency Preparedness and Response Plan will be developed and implemented should an incident occur.
All incidents must be reported to the responsible site officer as soon as it occurs.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Western Tank Farm
Extent: Local (-2) Duration: Long-term (-3) Intensity: High (-3) Probability: Possible (-2) Significance: Medium (-10)
As this proposed area is some distance away from the process feed and maintenance tanks, the risk for spillage is slightly greater as the Aromatic Naphtha will have to be piped for a longer distance.
All hazardous substances must be stored in a designated area on an impervious surface in a
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Possible (-2) Significance: Medium (-7)
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POTENTIAL IMPACT/S:
designated bunded area, able to contain 110% of the total volume of materials stored at any given time.
The integrity of the impervious surface and bunded area must be inspected regularly and any maintenance work conducted must be recorded in a maintenance report.
Ensure uncontaminated and contaminated stormwater are channelled into the correct system either for release into the Klipspruit or to be further processed within the Secunda complex.
Employees should be provided with appropriate spill kits and disposal containers to handle spillages.
Train employees and contractors on the correct handling of spillages and precautionary measures that need to be implemented to minimise potential spillages.
An Emergency Preparedness and Response Plan will be developed and implemented should an incident occur.
All incidents must be reported to the responsible site officer as soon as it occurs.
7.3.3 Air Quality - Emissions
POTENTIAL IMPACT/S: Emission of volatile organic compounds (aromatic hydrocarbons) during routine conditions.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Maintain optimum operation of the plant. Avoid exposure of tanks to excessive temperatures. All safety precautions should be adhered to when
working with the tanks. The roof legs, slotted pipes and or dipping wells on
the floating roof tanks (except for doomed floating roof tanks or internal floating roof tanks) shall have sleeves fitted to minimise emissions.
All installations with a throughput of 5000 m3 per annum must be fitted with vapour recovery units.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
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POTENTIAL IMPACT/S:
Western Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Maintain optimum operation of the plant. Avoid exposure of tanks to excessive temperatures. All safety precautions should be adhered to when
working with the tanks. The roof legs, slotted pipes and or dipping wells on
the floating roof tanks (except for doomed floating roof tanks or internal floating roof tanks) shall have sleeves fitted to minimise emissions.
All installations with a throughput of 5000 m3 per annum must be fitted with vapour recovery units.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
7.3.4 Waste
POTENTIAL IMPACT/S: Hazardous waste may be generated during operation and maintenance of the tanks e.g. cleaning of tanks.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-8)
Hazardous waste will be generated if there are spillages and leakages; this waste should be cleaned up using absorbent material provided in spill kits on site.
Absorbent materials used to clean up spillages should be disposed of in a separate hazardous waste bin.
The storage area for hazardous waste must be concreted, bunded, covered, labelled and well ventilated.
Records of all waste being taken off site must be recorded and kept as evidence.
Provide employees with appropriate PPE for handling hazardous materials.
Train employees and contractors on the correct handling of hazardous waste.
All hazardous waste must be disposed of in a registered hazardous waste disposal facility.
Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-4)
Western Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2)
Refer to mitigation measures listed above. Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Improbable (-1)
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POTENTIAL IMPACT/S:
Significance: Medium (-8)
Significance: Low (-4)
7.3.5 Safety
POTENTIAL IMPACT/S: Safety of staff could be compromised in the event of an incident such as a fire.
ASSESSMENT OF IMPACTS: Without Mitigation Mitigation Measures After Mitigation
Eastern Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-8)
Requirements of the OHS Act (85 of 1993) and its Regulations, Sasol SH&E must be strictly adhered to.
Smoking should be allowed only in designated smoking areas
The existing hazardous area classification should be reviewed and updated if necessary.
The existing Emergency Management Plans should be updated to provide for the additional tanks.
Adequate distribution and placement of hazardous signs and fire protection equipment on site must be ensured.
Staff should receive refresher training courses to make them aware of the hazards of all products present on site.
Smoking should be allowed only in designated smoking areas
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Western Tank Farm
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-8)
Refer to mitigation measures listed above. Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
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TABLE 14: SUMMARY OF OPERATIONAL PHASE IMPACTS AND AVERAGE ALLOCATION POINTS ALLOCATED TO THE AROMATIC
NAPHTHA TANK ON THE EASTERN AND WESTERN TANK FARM IMPACTS EASTERN
TANK FARM - Without
Mitigation
EASTERN TANK FARM – With
Mitigation
WESTERN TANK FARM - Without
Mitigation
WESTERN TANK FARM - With
Mitigation
Contamination of soils -8 -6 -9 -6 Contamination of surface and ground water
-9 -6 -10 -7
Emissions -6 -6 -6 -6 Waste management -8 -4 -8 -4 Staff Safety -8 -6 -8 -6 AVERAGE TOTAL -7.80 -5.60 -8.20 -5.80
7.4 Operational Phase Impacts – Additional Infrastructure (MFO tank, modifications to the East Refinery Plant, modifications to gas turbines, Octane and Cetane Booster tanks)
Nature of Impact Without Mitigation Mitigation Measures After Mitigation Soils Contamination of soils due to spillage and leakages.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-8)
Any contaminated soil must be cleaned immediately and removed and disposed of responsibly.
The area around the turbines will be paved and bunded.
Tanks must be frequently inspected to ensure their integrity.
In upset conditions (e.g. equipment malfunctioning) the flow must be diverted to available process equipment.
Emergency plan and procedures should be in place in the event of spillage.
Spill kits must be available on site to clean up spills and leaks.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Water Resources Contamination of surface and
groundwater due to spillage,
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2)
All new equipment for the retrofitting of the gas turbines will have a common location which will cater for
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1)
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Nature of Impact Without Mitigation Mitigation Measures After Mitigation leakage, or incorrect handling of chemicals, cleaning of equipment, paints, lubricants, fuels, and other hazardous materials during use or storage.
Water/effluent handling (routing of fire water; management of contaminated and uncontaminated stormwater; generation of additional effluent from the process).
Probability: Possible (-2) Significance: Medium (-7)
a common drainage system for stormwater. The stormwater will be drained into an observation sump. Each retrofitted gas turbine will have a closed hydrocarbon sewer system with a hydrocarbon sewer vessel and hydrocarbon sewer vessel pump which would be able to collect product being drained from the feed surge drum and the distillate (used for flushing). The contents of the hydrocarbon sewer vessel will be bleed back into the feed system of the gas turbines when they are brought back on line.
For steaming out the equipment a condensate drum will collect the oily water, the oily water will be pumped with condensate pumps to a common oily water sewer sump for both trains which will then tie into the existing factory system.
Refer to the mitigation measures presented in Section 7.3.2.
Probability: Improbable (-1) Significance: Low (-5)
Air Quality – Emissions (routine operations)
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Maintain optimum operation of the plant.
Avoid exposure of tanks to excessive temperatures.
All safety precautions should be adhered to when working with the tanks.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
Air Quality – Flaring (upset conditions)
Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-4)
High efficiency combustion of gases according to manufacturer’s specifications should be achieved to limit the release of benzene into the atmosphere.
Extent: Site (-1) Duration: Short-term (-1) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-4)
Waste Hazardous waste may be generated during operation and maintenance of the tanks e.g.
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Moderate (-2) Probability: Highly Probable
Hazardous waste will be generated if there are spillages and leakages; this waste should be cleaned up using absorbent material provided in spill
Extent: Site (-1) Duration: Medium-term (-2) Intensity: Low (-1) Probability: Possible (-2)
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Nature of Impact Without Mitigation Mitigation Measures After Mitigation cleaning of tanks. (-3)
Significance: Medium (-8)
kits on site. Absorbent materials used to clean up
spillages should be disposed of in a separate hazardous waste bin.
The storage area for hazardous waste must be concreted, bunded, covered, labelled and well ventilated.
Records of all waste being taken off site must be recorded and kept as evidence.
Provide employees with appropriate PPE for handling hazardous materials.
Train employees and contractors on the correct handling of hazardous waste.
All hazardous waste must be disposed of in a registered hazardous waste disposal facility.
Significance: Low (-6)
Health and Safety Safety of staff could be compromised in the event of an incident such as a fire.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-8)
Requirements of the OHS Act (85 of 1993) and its Regulations, Sasol SH&E must be strictly adhered to.
Smoking should be allowed only in designated smoking areas
The existing hazardous area classification should be reviewed and updated if necessary.
The existing Emergency Management Plans should be updated to provide for the additional tanks.
Adequate distribution and placement of hazardous signs and fire protection equipment on site must be ensured.
Staff should receive refresher training courses to make them aware of the hazards of all products present on site.
Smoking should be allowed only in designated smoking areas.
Extent: Site (-1) Duration: Long-term (-3) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-6)
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7.5 Cumulative Impacts Cumulative impacts assessment represents an emerging process within the broader field of integrated environmental management. Such considerations broaden the spatial and temporal focus of EIAs. Cumulative impacts are commonly understood as the impacts which combine from different impacts and which result in significant change, which is larger than the sum of all the impacts. The complicating factor is that the project need to be considered from past, present and reasonably foreseeable future development18 (IEM Information Series, Cumulative Effects Assessment, DEAT, 2004).
CUMULATIVE IMPACT/S: Groundwater resources impacts as a result of spillage/seepage of cetane, octane, MFO and aromatic naphtha into groundwater resources. Soil and
groundwater pollution as a result of contaminated stormwater that is not disposed off correctly. ASSESSMENT OF IMPACTS:
Without Mitigation Mitigation Measures After Mitigation Eastern &
Western Tank Farm
Extent: Local (-2) Duration: Long-term (-3) Intensity: Moderate (-2) Probability: Possible (-2) Significance: Medium (-9)
All hazardous substances must be stored in a designated area on an impervious surface in a designated bunded area, able to contain 110% of the total volume of materials stored at any given time.
The integrity of the impervious surface and bunded area must be inspected regularly and any maintenance work conducted must be recorded in a maintenance report.
Ensure uncontaminated and contaminated stormwater are channelled into the correct system either for release into the Klipspruit or to be further processed within the Secunda complex.
Employees should be provided with appropriate spill kits and disposal containers to handle spillages.
Train employees and contractors on the correct handling of spillages and precautionary measures that need to be implemented to minimise potential spillages.
An Emergency Preparedness and Response Plan will be developed and implemented should an incident occur.
All incidents must be reported to the responsible site officer as soon as it occurs.
Extent: Local (-2) Duration: Short-term (-1) Intensity: Low (-1) Probability: Improbable (-1) Significance: Low (-5)
18 Department of Environmental Affairs and Tourism, 2004. Cumulative Effects Assessment, IEM Information Series.
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7.5.1 Emissions
The tanks assessed are positioned in existing tank farms within the Sasol Secunda complex, thus these new tanks will contribute to increasing overall impacts from this area in the plant even though only slightly so. An assessment of the potential cumulative impacts during routine operations demonstrate a maximum of 1.31% increase in ambient ground level concentrations at the Club monitoring station, decreasing to a 0.14% increased contribution at the Secunda monitoring station.
7.6 Decommissioning Phase At this point of the project planning process, the necessity for and timing of decommissioning of the proposed project is not known. However, like construction impacts, de-commissioning impacts are inherently temporary in duration. Impacts relating to de-commissioning and rehabilitation activities (demolition, landscaping, compaction etc.) will be addressed within the Environmental Management Programme. The MDEDET will be appropriately notified and consulted prior to decommissioning taking place.
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8 CONCLUSIONS AND RECOMMENDATIONS The Environmental Impact Assessment (EIA) process for the SGP 1B (new) project has been undertaken in accordance with the EIA Regulations published in Government Notice No. R. 543, R.544 and R.545 of 2010 in terms of Section 24 (5) of the National Environmental Management Act (Act No 107 of 1998) (as amended). In order to protect the environment and ensure that these components of the project in an environmentally responsible manner, there are a number of significant pieces of environmental legislation that have been taken into account during this study. These include:
APPLICABLE NATIONAL LEGISLATION The Constitution of South Africa (Act No. 108 of 1996)
National Environmental Management Act (Act No. 107 of 1998)(as amended) National Environmental Management: Air Quality Act ( Act No. 39 of 2004)
Occupational Health and Safety Act (Act No 85 of 1993) Hazardous Substances Act (Act No 15 of 1973)
This relevant legislation has informed the identification and development of appropriate management and mitigation measures that should be implemented in order to minimise potentially significant impacts associated with the project. The conclusions of this final Environmental Impact Assessment Report (EIR), including comments and concerns from Interested and Affected Parties (I&APs), are as a result of a comprehensive EIA study. These studies are based on issues identified in the Environmental Scoping Study and the parallel process of public participation through to the EIA phase. The public consultation process has been inclusive, and every effort has been made to include representatives of all stakeholders within the process.
8.1 Concluding Remarks This final EIR provides an assessment of both the benefits and potential negative impacts anticipated as a result of the project. The findings conclude that there are no environmental fatal flaws that could prevent Sasol from retrofitting the gas turbines and installing the associated equipment, provided that the recommended mitigation and management measures contained in the preceding chapter and Environmental Management Programme are implemented. Moreover, an Air Quality Impact Assessment (Appendix E) was undertaken which included a meteorological overview of the study area. Meteorological data was obtained from the Sasol Club and Langverwacht monitoring stations for the period Jan 2006- Dec 2010. An emissions inventory was undertaken with the aim of quantifying emissions associated with the proposed activities during routine and upset conditions. Dispersion modelling simulations were then undertaken using AERMOD version 7.2 to evaluate the emissions of benzene that are released from the Sasol Secunda complex. To estimate emissions released from the proposed storage tanks, the US EPA TANKS 4.0.9 Programme was used. Comparison with the relevant benzene air quality standard was made to determine legal compliance. Based on the dispersion modelling simulations, the main impacts can be summarised as follows: The predicted ground level concentrations of benzene from the storage tanks and gas turbines were
estimated at 5.00 E-02 µg/m3 during routine conditions. These annual average ground level predicted concentrations during routine operations do not exceed the
current or future ambient Standard set for benzene. The predicted ground level benzene concentrations released during upset conditions similarly also fell below
the standard of 10 µg/m3. The predicted daily and annual average concentrations of particulate matter released during upset conditions
falls below the annual and daily South African standard set for this pollutant.
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NO2 and CO concentrations released from the flare during upset conditions all complied with the respective hourly and annual South African standards.
Thus, from assessment of potential impacts during the life-cycle of this report, it is recommended that the Environmental Authorisation be granted for the following:
PROPOSED ACTIVITY COORDINATES New Aromatic Naphtha Tank (Eastern Tank Farm) -Preferred site
26°32'49.14"S; 29°10'1.90"E
New MFO Tank (Western Tank Farm) 26°32'49.62"S; 29°8'57.98"E Modifications to the existing Refinery Plants (East) 26°33'8.23"S; 29°10'9.41"E Modifications to the existing Gas Turbines 26°33'55.63"S; 29°9'53.15"E Octane Booster tanks (Western Tank Farm) 26°32'37.45"S; 29°9'18.49"E Cetane Booster tanks (Western Tank Farm) 26°32’39.20”S; 29°9’11.74”E Flare 26°33’50.6”S; 29°09’56.8”E
This is the view and recommendation of the Environmental Assessment Practitioner based on the findings of this Environmental Impact Assessment.
8.2 Final Recommendations In order to achieve appropriate environmental management standards and ensure that the findings of the environmental studies are implemented through practical measures, the recommendations from this EIA study are included within an EMPr (refer to Appendix H). The EMPr would be used to ensure compliance with environmental specifications and management measures. The implementation of this EMPr for the entire life cycle phases (i.e. construction, operation and de-commissioning) of the project is considered to be vital in achieving the appropriate environmental management standards as detailed for this project.