1st Progress MeetingProfessor Robin Smith,

Dr Igor BulatovProcess Integration Limited

Veszprem 8 July 2011

Project Overview8:00 am to 8:30 am: Arrival -Tea/Coffee 1. Opening (8:30) 2. Welcome/Introduction by Professor Ferenc Friedler, the Rector of University of Pannonia (8:30 - 8:35) 3. Project Overview (progress, technical and financial issues)

PIL (8:35 - 9:00) 4. SME Partners presentations

CALGAVIN (9:00 - 9:15) SODRU (9:15 - 9:30) MAKATEC (9:30 - 9:45) OIKOS (9:45 - 10:00)

5. OTHER Partner presentation:

EMBAFFLE B.V. (10:00 - 10:15) 6. RTD Partners presentations:

The University of Manchester (10:15 - 10:45) Bath University (10:45 - 11:15) Paderborn University (11:15 - 11:45) University of Pannonia (11:45 - 12:15)

7. Buffet lunch and informal discussion (12:15 - 13:15) 8. Any other business (13:15 - 13:45) 9. Conclusions/Actions for the next phase of project (13:45 - 14:00) 10. Date/venue for next progress meeting (14:00)

Work Package Structure

Demonstration

WP 1Analysis of intensified heat

transfer under fouling

WP 2Combined tube-side and shell-side heat exchanger

enhancement

WP 3Heat Exchangers made of

Plastic Materials

WP 4Design, retrofit and control of intensified heat recovery

networks

WP 5Putting into practice

WP 6Technology transfer

WP 7Management

RTD

Exploitation

Management

Project Overview and Deliverables

Report on technical review of fouling and its impact on heat transfer

Project Overview and Deliverables

Project Overview

Project Overview and Deliverables

Project Overview and Deliverables

Number Title WP Partner PM Nature Dissemination

Date

D1.1 Report on technical review of fouling and its impact on heat transfer

1 1 5 R PU Month 3

D1.2 Report on experimental fouling investigation and CFD research on heat transfer enhancement

1 6 28 R CO Month 12

D2.1 Report on state-of-art of heat transfer enhancement technologies and their benefits

2 2 2.5 R PU Month 6

D2.2. Report on tube side and shell side

enhancement research2 2 10 R CO Month9

D2.3 Mathematical models and the software

implementation of tube- and shell side

heat transfer enhancement

2 2 12 P CO Month18

Project Overview and Deliverables

D2.2. Report on tube side and shell side enhancement research

Details of research and technical development on the tube-side heat transfer enhancement which is combined with the internal fin structures on integrally-finned tubes. The systems will be investigated to enhance both single and two-phase flow applications, high and low viscosity fluids, with a wide range of flow regimes. Also externally-finned tubes with and without tube inserts will be evaluated. Details of research and technical development on the shell-side heat transfer enhancement using expanded metal baffles, and associated impacts and benefits.

Project Overview and Deliverables

D3.1 Report on of basic configuration for plastic heat

exchanger units 3 5 8 R PU Month 4

D3.2 Report on CFD modelling frameworks and validation, optimisation studies of the geometry and operating

conditions for plastic heat exchanger units

3 5 23 R CO Month 18

D4.1 Report on design methodology for new heat

exchanger networks using P-graph and the ABB

(Accelerated Branch-and-Bound) optimisation algorithm

4 6 9 R CO Month 9

D4.2 Report on retrofit procedure for heat exchanger networks prone to fouling deposition

4 6 12 R CO Month 14

D4.3 Software tool for screening and analysis design and

retrofit HEN options taking into account the intensified heat exchanger parameters

and software User Guide

4 6 20.5 P CO Month 24

Number Title WP Partner PM Nature Dissemination

Date

Project Overview and Deliverables

D4.1 - Report on design methodology for new heat exchanger networks using P-graph and the ABB (Accelerated Branch-and-Bound) optimisation algorithm (Month 10)

Description of an automated design procedure which is able to integrate the networks of heat exchangers and identify the optimal network design as well as operating conditions. Optimisation frameworks includes modelling of heat exchanger networks and optimisation search algorithm based on P-graph and ABB method

Project Overview and Deliverables

D5.1 Application of spiral plastic heat exchanger for cooling

of acids5 1 16 D PU Month 24

D5.2 Report on case studies with achieved benefits

(Oil/petrochemical sector)5 1 11 R PU Month 24

D5.3 Report on case studies with achieved benefits (Food

sector)5 1 10 R PU Month 24

Number Title WP Partner PM Nature Dissemination

Date

Project Overview and Deliverables

D6.1 Training Workshop 6   2 O PU Month 23

D6.2 Report on the performed marketing activities and

commercialisation outcomes 6 9 2 R PU Month 24

D6.3 Four dissemination events 6 9 4 O PU

Month 8, 12, 18, 22

D6.4 At least 4 conference publications and 2 journal

publications 6 9 5 O PU Month 24

D6.5 Training materials for the methods and tools

developed 6 9 6 O PU Month 24

D7.1

Project website with management activities and

public section7 1 6 O PU/RE Month 3-24

Number Title WP Partner PM Nature Dissemination

Date

Project Overview and Deliverables

Deliverables reports should be submitted on time!

Publications• Arsenyeva O, Tovazhnyansky L, Kapustenko P, Khavin G, Optimal

design of plate-and-fram heat exchangers for efficient heat recovery

in process industries, Energy (IF: 3.565), 2011,

doi:10.1016/j.energy.2011.03.022.

• Yang M, Crittenden B, Fouling thresholds in bare tubes and tubes

fitted with inserts, Applied Energy (IF: 3.888), 2011, doi:

10.1016/j.apenergy.2001.01.038.

• Yang M, Young A, Nietkalieyev A, Crittenden B, Modelling of fouling

induction period, manuscript submitted to Journal of Thermal Sciences, 2011

• Yang M, O’Meara A, Crittenden B, Determination of crude oil fouling

thresholds, proceedings of The International Conference on Heat

Exchanger Fouling and Cleaning 2011, Crete, Greece, June 5-10 2011

• Yang M, Crittenden B, Effect of inserts on crude oil fouling conditions,

proceedings of The International Conference on Heat Exchanger Fouling

and Cleaning 2011, Crete, Greece, June 5-10 2011

Publications • Varbanov P, Klemes J, Friedler F, Cell-based dynamic heat exchanger

models – Direct determination of the cell number and size,

Computers&Chemical Engineering (IF: 2.072), in press,

doi:10.1016/j.compchemeng.2011.01.033

• Nemet A, Varbanov P, Klemes J, Waste-to-energy technologies

performance evaluation techniques, Chemical Engineering

Transactions, v.25, 2011, doi: 10.3303/CET1125086

• Wang Y, Pan M, Bulatov I, Smith R, Kim JK , Application of

intensified heat transfer for the retrofit of heat exchanger network,

Apply Energy (IF: 3.888), (2011) In press, doi:

10.1016/j.apenergy.2001.03.019

• Pan M, Bulatov I, Smith R, Kim JK, Improving energy recovery in

heat exchanger network with intensified tube-side heat transfer,

Chemical Engineering Transactions, 25 (2011) 375-380, doi:

10.3303/CET1125063

Publications

• Pan M, Bulatov I, Smith R, Kim JK, Novel optimization method for

retrofitting heat exchanger networks with intensified heat transfer,

Computer Aided Chemical Engineering, 29 (2011) 1864-1868,

• Pan M, Smith R, Kim JK, Bulatov I, Mathematical optimization for

large scale heat exchanger network retrofit with intensified heat

transfer, proceedings of SusTEM2011 conference, (2011)

Any publications missing?

All Partners should send copies of their INTHEAT acknowledged

publications to the Coordinator!

Subcontracting Agreements

PIL Cal Gavin SODRUMAKATEC OIKOS

UNIMAN UNIBATH UPB UNIPAN

Finance

Total prefinancing received = EUR 635,250

Finance

ParticipantTo UNIMAN

To UNIBATH To UPB

To UNIPAN

Total to RTD

Balance for SME

Transferred from PIL so far

PIL 117700 0 0 0 117700 17380 [135080]

CALGAVIN 54747.55 77802.45 0 0 132550 7700 140250

Sodrugestvo-T 0 54747.55 0 65152.45 119900 7700 7700

MAKATEC 0 0 113850 0 113850 7700 121550

OIKOS 277.2 26442.9 45299.1 21480.8 93500 3850 97350

577500 44330

UNIMAN 172724.75 3740 3740

UNIBATH 158992.9 2420

2420 (+54747.55)

UPB 159149.1 2420 2420

UNIPAN 86633.25 4840

4840 (+65152.45)

EMBAFFLE

TOTAL RTD 577500 13420

Total prefinancing = 44330 + 577500 + 13420 = EUR 635250

Contract specific terms

Review number

Tentative timing Planned venue of review

Comments, if any

1Mid-term review meeting to be done after Month 11

Brussels

RP1 (Month 9) + 75 days Go/No-go decisions will be based on the performance of the developed materials by Month 9 Overall project review Monitoring WP progress and collaboration Risk analysis/contingency measures Corrective actions if neededWPs involved: WP1, WP2, WP3, WP6, WP7

2Final review meeting within Month 26

Manchester

Fine tuning of draft final reports (submitted in advance - 10 days berore) will be discussed Overall project review WP outcome (research, dissemination) review Exploitation WPs involved: WP4, WP5, WP6, WP7

Future Meetings Planning

• Mid-term review meeting to be done after Month 11 (November/December 2011) – Brussels. Please be available!!!

• June 2012 – your suggestions?

• November 2012 – your suggestions?

Thank you