“L’HDC” CARBON FOOTPRINT INDICATOR OF L’HOSPITALET “L’H is the short for L’Hospitalet,...

“L’HDC” CARBON FOOTPRINT INDICATOR OF L’HOSPITALET

“L’H is the short for L’Hospitalet, HDC” is short for Carbon Footprint

Smart HUB in which run the current C02 Calculators & Tools links

Smart Benchmark of Ecellence for S.E.A.P. Covenant of Mayors

Smart Cities fostering new Low Carbon Cities, nZEBs to nZECities

http://www.smartcityexpo.com/ca/home

The Commintment S.E.A.P of L’H/2010

-20 %

S.E.A.P target beyond 2014

overall CO2 reduction in 2020: above 22%in addition to SEAP Renewable Energy Improvements 22%

-20 %

L’HDCThe Framework: 2008 COVENANT of MAYORS signatories, Sustainable Energy Action Plans


URBAN PLANNING footprint

BUILT PROCESS footprint

LIFE CYCLE

MAINTAIN ABILITY footprint

CO2eq

PROJECT/ targets•REGULATORY FRAMEWORK•SITE/BUILDING PROCESS•MATERIALCYCLE/WASTE•ENERGY CYCLE/ NEEDS•WATER CYCLE/ NEEDS•MAINTAINABILITY/PBACK•VHAC/CROSS-V/H-RECOV•POWER/RENEV/S.PV.G.H.•INDOOR HEALTH/S.LIGHT•RESILIENCE•LABELS

OCCC/ measures

•URBAN TYPOLOGY•URBAN SITE IMPACT•POPULATION/ DENSITY•URBAN ENERGY CYCLE•URBAN WATER CYCLE•URBAN WASTE CYCLE•URBAN MOBILITY NEEDS•RESILIENCE

ITeC/ measures

•MATERIALS/ SYSTEMS from resorces to becom goods

•TRANSPORT until 30km•WASTE by building•WATER when building

•MAINTENANCE/LIFESPAN

LIDER-CALENER•LIFESPAN/CONSUMPTIONS•BULIDINGS’SHAPE FACTOR•HEATLOAD/SAVINGS/LOOSES•ENVELOPE TRANSMITANCE•H&C DEMAND/CONSUMPTION•EQUIPMENT/SYSTEMS/LIGHT•POWER/RENEVABLES/PV.G.H.•SOLARCONTRIBUTION/FLOOR•IMPROVING PROPOSALS•LABELING

A Carbon Footprint is a way of working out the Harm that makes to the environment

It shows the pollution that we, as individuals, are responsible for

L’HDC

towards SMART CITY through C02DATA management


PEM NºEXP.OMJ.

nº ='FITXA DE CO2'!M4 DISTRICT ='FITXA DE CO2'!R4

='FITXA DE CO2'!V2 BUILDING TYPE ='FITXA DE CO2'!X3:Y3 PUBLIC E. TYPE #REF! ='FITXA DE CO2'!X2 P.G.M. DATES WORKS #REF!

#REF!

#REF! kWh #REF! kg CO2



#REF! kWh/year #REF! kg CO2/year


#REF! kg CO2/year

#REF! kWh #REF! kg CO2/year

#REF! RATING

#REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF!

#REF! % #REF! kWh/year #REF! kg CO2/year

#REF! KgCO2 #REF! KgCO2/m2 #REF! kgCO2/year #REF! KgCO2/10years #REF! OFFSETS #REF! kgCO2

#REF! KgCO2/10years #REF! KgCO2/10years #REF! kgCO2

7- THE FOOTPRINT SAVINGS REPORT, BY REDUCING DEMAND/ MOBILITY/ REFURBISHMENT/ REGENERATION/ ECODESIGN/ DOMOTICS/ SMART

THE RELIABILITY

SURVEY ON ENVIRONMENTAL, ECONOMIC & SOCIAL SUSTAINABILITY AND MAINTAINABILITY: FROM 1 TO 14 ECOEFFICIENCY PARAMETERS:

THE SOCIAL SUSTAINABILITY

6- THE OFFSETS OF CARBON FOOTPRINT BECAUSE OF THE LOCAL "URBAN GREEN" CONTRIBUTION

ESTIMATED FOOTPRINT ASBUILT FOOTPRINT

BACK TO MAIN MENU

WATER AND ENERGY CONSUMPTION CARBON FOOTPRINT / LIFE SPANPRODUCT CARBON FOOTPRINT / MATERIALS AND WASTE

THE FINAL CALCULATION

PROPOSAL vs ASBUILT DIFFERENTIAL CALCULUS

CADASTRAL REFERENCE

OVERALL : THE CARBON FOOTPRINT OF PROJECT - WORKS - LIFE CYCLE/SPAN - OFFSETS, CONTEMPLATING 1 USE CYCLE/RENEWAL OF 10 YEARS

THE ENVIRONMENTAL SUSTAINABILITY THE ECONOMICAL SUSTAINABILITY

CO2 FOOTPRINT at 10 years

POSITIVE REPORT vs CTECONTRIBUTIONS TO THE L'H SEAP 202020 THE POSITIVE ENVIRONMENTAL REPORT

FOOTPRINT REDUCTION

5- THE CARBON FOOTPRINT OF THE ENERGY PERFORMANCE AND MOBILITY CYCLES

4- THE CARBON FOOTPRINT OF THE WATER PERFORMANCE CYCLE

='FITXA DE CO2'!H5:N5

URBAN CUALIFICATION

AUTHOR

1- THE CARBON FOOTPRINT OF URBAN PLANNING, URBAN RENEWAL/ REGENERATION, AND THEIR RELATED MOBILITY

CARBON FOOTPRINT OF BUILDINGS / REFURBISHMENT / RETROFITTING / URBANIZATION / INFRASTRUCTURE AND URBAN PLANNING

3- THE CARBON FOOTPRINT OF MATERIALS AND WASTE MANAGEMENT CYCLES

GEOGRAPHIC ORIENTATION

L'HDC

OVERVIEW OF THE BUILDING / PUBLIC SPACE / INFRASTRUCTURE / DATA='FITXA DE CO2'!H2:R2

='FITXA DE CO2'!O4:P4NEIGHBORHOOD='FITXA DE CO2'!H4:K4

='FITXA DE CO2'!K3:L3

PROPOSAL

#REF! ='FITXA DE CO2'!O3:R3

STREET

OVERALL CO2 FOOTPRINT

BUDGET

2- THE CARBON FOOTPRINT OF GROUNDWORKS AND/OR DECONSTRUCTION/DEMOLISH TO ADEQUATE SITE

BUILT AREA, m2

CARBON FOOTPRINTEMBODIED ENERGY

- Offsets

- Carbon Footprint

Public Space

and Infrastructure

- the Life Cycle

and Maintainability

- Carbon Footprint

the Construction Process

the Life Cycle

and Maintainability

- Climate Zone

the Urban Policy

- Contributions to 202020, the comparison with the CTE

?

GATHER AND ANALYZING CO2 DATA

L’HDC


L’HDC

THE L'HDC STEP BY STEP

2- THE SUSTAINABILITY SURVEYTHE PROJ ECT/ASBUILT/LIFESPAN.Environmental, Economic andSocial Sustainability. The traceabilityand the management

ENVIRONMENTAL REPORTON L'HDC"L'HDC" is a Footprint Indicator and

CO2 Observatory of Sustainability of

Projects/ Asbuilt/ Lifespan in the

municipal premises of L'Hospitalet

THE STEPS 1 CO2 eq 2 SUSTAINABILITY 3 POSITIVE REPORT L'HDC

1- FORM THE PROJECT'S CARBONFOOTPRINT AND ASBUILTAn Excel spreadsheet to calculatecarbon footprint. The CO2equivalent suplied in theatmosphere that is released byUrban Planning, ProjectUrbanization for Public Space,Urban Infrastructure and Building /Refurbishment / Regeneration.Observe the impact categories:Materials and Waste / Water andEnergy / Mobility andMaintainability. Contemplate theWhole Clicle: The Groundworks onSite and / or Demolition /Deconstruction previous to Works.Covers the whole process areas:Extracting resources, Productionand Transportation of the materialsand the works in process to build,refurbisment & urban regeneration,including the Waste Management'sown work. And also the Lifespan:CO2eq associated to EnergyResources and non-renewablewater demand over a 10-yearcycle of Use. We have taken CO2eopen and public Calculators from

3- "L'HDC" IS A POSITIVE REPORTbecause it is based on Benchmarks

of Ecoefficiency you may always

improve. In "The HDC" is linked to

the Declaration of Responsible

planning permission for building.

The report was issued in the Project

and has to be updated to Asbuilt.

Contemplates the Environmental

Impact/Greening/Public

Welfare."The HDC" promotes and

highlights the positive agreement

and contribution of the private

sector to reach the European

Public environmental objectives of

the 202020: the reduction of CO2

equivalent emissions by improving

energy efficiency and increased

uptake in clean and renewable

energy sources. This is the Primary

Goal P.A.E.S. L'Hospitalet:

incorporating Energy Efficiency and

Environmental Quality

Improvement in the Urban Planning

in L'Hospitalet, Barcelona.

SMART CITY: CO2 Footprint Protocol


THE EXCEL WORKSHEET: CO2, CARBON FOOTPRINT CALCULATOR

L’HDC SMART HUB IN WHICH RUN THE CURRENT C02 CALCULATORS & TOOLS

PGM URBAN CLASSIFICATION

PEM NºEXP.OMJ.

nº DISTRICT

DATES WORK FINAL FORECAST

m3

MATERIAL -1 % m3 m3 Km Kg CO2 kW h kg CO2





SYSTEM -1 % m3 m3 Km Kg CO2 kW h kg CO2

SYSTEM - 2 % m3 m3 Km Kg CO2 kW h kg CO2

SYSTEM - 3 % m3 m3 Km Kg CO2 kW h kg CO2

0,00 0,00 % 0,00 m3 0,00 m3 0,00 Km 0,00 Kg CO2 0,00 kW h 0,00 kg CO2 1

EXCAVATION m3 EARTHWORKS m3 MINIMIZED m3 0,00 m3 TOTAL kW h kg CO2 eq 2

DEMOLITION m3 WORK WASTE m3 REUSED m3 0,00 m3 TOTAL kW h kg CO2eq 3

kW h kg CO2 4

kW h kg CO 2 5

m3/year 0,00 kWh/year m3/year kWh/year 0,00 m3/year 0,00 kWh/year 0,00 kg CO2/year


0,00 m3/year 0,00 kWh/year 0,00 m3/year 0,00 kWh/year 0,00 m3/year 0,00 kWh/year 0,00 kg CO2/year 6

m3/year 0,00 kWh/year m3/year kWh/year GREY WATER m3/year m3/year 0,00 kWh/year 0,00 kg CO2/year 7

kWh/year 0,00 kg CO2/year 8

0,00 kWh/year 0,00 kg CO 2/year 9

0,00 kWh/year 0,00 kg CO 2/10 years 10 = 9X10 years

STR.LIGHT kWh/year TRAFFIC L. kWh/year CAPTURED kWh/year kWh/year 0,00 kWh/year 0,00 kg CO2/year

P.HOLIDAYS kWh/year OTHERS kWh/year CAPTURED kWh/year kWh/year 0,00 kWh/year 0,00 kg CO2/year

TOTAL kWh/year TOTAL 0,00 kWh/year TOTAL 0,00 kWh/year 0,00 kWh/year 0,00 kWh/year 0,00 kg CO2/year 11



kWh/year

DEMAND ELÈCTRICS kWh/year GAS *(10) kWh/year kWh/year kWh/year #VALOR! kWh/year #VALOR! kg CO2/year

PRODUCTION P.V. kWh/year COGENERATION

kWh/year kWh/year kWh/year #VALOR! kWh/year #VALOR! kg CO2/year

CONSUMPTION APLYANCES kWh/year LIFT kWh/year kWh/year kWh/year 0,00 kWh/year 0,00 kg CO2/year 14

HEAT LOAD Cfi W/m2 kWh/year 0,00 kg CO2/year

kWh/year kWh/year FROM TYPE TO TYPE kWh/year 0,00 kg CO2/year

kWh/year kgCO2/year kgCO2/year kgCO2/year 0,00 kWh/year 0,00 kg CO2/year 15

UM US UC F kWh/year 0,00 kg CO2/year 16


0,00 kWh/year 0,00 kg CO 2/year 18

0,00 kW h 0,00 kg CO 2/10 years 19 = 18X10 years

RESIDENTS INHABITANTS URBAN AREA Ha. REGENERATED Has. EXTENSIVE Has. BUIT UP Ha Ha

VEHICLES nº

m2 m2 GARDEN/PARK m2 m2 GREENING m2

% PLAYGROUND INCLUSIVE % THERAPEUTIC % % PEDAGOGIC %

kgCO2 kWh kg CO2 20

0,00 kWh 0,00 kg CO2 21

0,00 kWh 0,00 kg CO2/10 years 22

kWh 0,00 kg CO2

kWh 0,00 kg CO2 23

kWh 0,00 kg CO2 24


0,00 kWh/year 0,00 kgCO2/year 26

TREES TYPE nº KgCO2 KgCO2/year 0,00 kg CO2/year

BUSHES TYPE nº KgCO2 KgCO2/year 0,00 kg CO2/year

UPHOLSTERY TYPE m2 KgCO2 KgCO2/year 0,00 kg CO2/year

0,00 KgCO2 0,00 KgCO2/year 0,00 kg CO2/year

0,00 kg CO 2/year 28

0,00 kg CO 2/10 years 29

0,00 kg CO2/year 30

0,00 kgCO 2/10years 31

0,00 kg CO2/year

WATER : CO2 =

TO

TA

L

LINK TO ITeC

SA

VIN

GS/C

OM

PE

NSA

TIO

NS

LINK TO L'O CCC

THE FOOTPRINT OF CERTIFIED LIVE CERCLE OF BUILDINGS

MA

TE

RIA

LS

&W

AST

EM

AN

AG

WA

TE

RE

F.M

AN

AG

CO2 STORAGE

MODAL SHARE MOBILITY, in %

EN

ERG

YE

FFIC

IE

NT

MA

NA

GE

ME

NT

WATER FOR MAINTENANCE AND CLEANING

TOTAL WATERING

GROUNDWATER / PHREATIC *(7)

UR

BA

NP

LA

NN

IN

G

LINK TO ENV. D.

FO O TPRINT O F THE ENERGY M ANAGEM ENT, 10 YEARS CYCLE

NEIGHBORHOOD

LINK TO CREAF

CO2 KIDNAPPINGCO2 STORAGE

NATURAL CO2 SINKS

iPREVISION START WORKS

LINK TO EPD DB

IN

F.D

AT

A

CADASTRAL REFERENCE

OVERALL CARBON FOOTPRINT - CO2 - 10 years CYCLE

REPO RT O N THE CARBO N FO O TPRINT O F THE PRO JECT, w hen calculating ASBUILT

THE CO2 EXCEL WORKSHEET - 1 of 2 - THE PRODUCT'S AND IT'S LIFE SPAN FOOTPRINT, THE CYCLE OF MATERIALS&WASTE, WATER AND ENERGY PERFORMANCE

FOOTPRINT *(8)

TOTAL DEMAND

RELEVANT MATERIALS *(1) CODI ITeC

GEO. FOCUS: N/S/E/W/NE/SE/NW/SW

BUILDYNG TYPE

TYPE PUBLIC SPACE PRIVATE / PUBLIC / PASSABLE

AUTHOR BUILT AREA, m2

STREET

PROJECT

QUOTE TOWER/HOUSE/BETWEEEN DIVIDING

kWh

kWh/year *(7)

THE FOOTPRINT OF WASTE 105/2008 RD, D.89 / 2010 * (1)

THE FOOTPRINT BY MEASURING THE PRODUCT: VIA "ITeC" TCQ-GMA

FOOTPRINT *(7)

TOTAL CLEANING

TO TAL PRO DUCTS' FO O TPRINT: APPLYING THE M O ST EFFECTIVE VALUE BETW EEN (1 + 2 + 3) and 4)

FOOTPRINT *(7)

REUSE m3QUOTE % ECO DESIGN *(9)

COLLECTED WATER / RAINRETRIEVED/REUSED WATER

TOTAL WATER REQUIREMENTS FROM THE NETWORK / POTABLEWATER CYCLE IN PUBLIC SPACE * (2)

TOTAL SAMPLING 1 - n EVALUATED LEVEL: ...%

DRINKING WATER NETWORK

TOTAL CONSUMPTION

ENTHALPY RECOVERY

LIGHTING CONSUMPTION

EMISSIONS FROM CARRIAGE TO WORKS * (6)

LINK O CT/CO AC

THE FOOTPRINT OF THE WATER CYCLE. CALCULATOR BY OCCC and/or T/ENV.DEP. - 1 year

PREXISTENCE DECONSTRUCTION REJECTED/BUILDING/INFRAESTRUCTURE (1)

LINK TO L'O CCC WATER FOR IRRIGATION

LINK TO EPD DB

TOTAL *(8) FOOTPRINT *(8)

ELECTRICITY DEMAND BY LIGHTING AND TRAFFIC LIGHTS

CONSUMPTION / CAPTURE / FLOW / SOURCES

TOTAL kWh/year

NETWORK PHREATIC WATER *(7)

FOOTPRINT

FOOTPRINT OF WATER DEMAND

WATER/ USED IN B.'s DAILY LIFE *(2)

FOOTPRINT

POWER

TOTAL kWh/year

RENOVABLEENERGY MANAGEMENT, USEFULL LIVE, PUBLIC SPACE*(2) FROM THE NETWORK

ESTIMATED DEMAND FOR PUBLIC SPACE BASED ON BENCHMARK *(11)

THE FOOTPRINT OF ENERGY MANAGEMENT, THE PUBLIC SPACE/INFRASTRUCTURE'S LIFE SPAN: APPLYING THE MOST EFFECTIVE VALUE BETWEEN 11/12

THE FOOTPRINT OF CONSUMPTION: USING THE CALCULATOR DEP. T M.A. - 1 year

L'ENERGIA A LA VIDA ÚTIL DE L'EDIFICI, EL CO NSUM i LA DEM ANDA, CTE-HE-0/1 *(4)

LINK TO ENV. D.

FO O TPRINT O F THE W ATER M ANAGEM ENT, 10 YEARS CYCLE

CO2 LIGHTING EMISSIONS

LINK TO LIDER-CALENER CTE

LINK TO L'O CCC

LINK TO ENV. D.

RENEV/GEOTH/BIOM/.. SOLAR/ ACS/ R.FLORING TOTAL CAPTURED

TOTAL PRODUCTION

TO TAL FO O TPRINT O F THE W ATER M ANAGEM ENT CYCLE: APPLYING THE M O ST EFFECTIVE VALUE BETW EEN: (6 & 7) and 8

PRIVATE VEHICLE

OTHER ELECTRIC DEMAND

PUBLIC TRANSPORT

CO2 ACS EMISSIONS

WALKING / CYCLING

LANDSCAPED AREA

HVAC CONSUMPTION

NEW BUILT

HEATING/COOLING+...CONSUMPTION

SAVING EMISSIONS BY ECODESIGN, MATERIALS RECOVERY, RECYCLED AND REINCORPORATED WASTE, ENVIRONMENTAL IMPROVEMENTS OFFERED BY THE CONTRACTOR OF WORKS * (7)

TOTAL PUBLIC SPACE SURFACE

REPORT ON THE SAVINGS AND OFFSETS IN CO2 EMISSIONS ASSOCIATED TO THE BUILDING'S PUBLIC SPACE, INFRAESTRUCTURES AND URBAN PLANNING LIFE SPAN* (1), (2), (3), (5)(5)

REPORT ON THE SAVINGS AND OFFSETS IN CO2 EMISSIONS ASSOCIATED TO LIFE CYCLE

TO TAL FO O TPRINT O F URBAN PLANNING

EMISSIONS SAVINGS BY DIMINISH THE NUMBER OF POLLUTANT VEHICLES, CHANGING SECTION AND MORPHOLOGY OF THE WAY AND ENCOURAGE THE PUBLIC TRANSPORT

LEISURE/RECREATIONAL/SPORTSUSEFULL TO THE ELDERLY, DISSABLED

FO O TPRINT O F URBAN PLANNING, 10 YEARS CYCLE

ESTIMATED DEMAND FOR URBAN PLANING REFERENCE *(11)

EMISSIONS SAVINGS BY REDUCING THE DEMAND, BY REUSING/REFURBISHMENT/REGENERATING: APPENDIX A

TOTAL

TOTAL

TOTAL

CALCULATING GHG EMISSIONS IN URBAN PLANNING: WITH THE DEP.T. and ENVIRONMENT GEN.CAT's CALCULATORS

SAVING EMISSIONS IN IMPROVE THE ECODESIGN: APPENDIX A

SPECIES OF

CO2 KIDNAPPINGCO2 STORAGECONTRIBUTION OF VEGETATION, STORAGE,

DEPURATIVE AND CO2 UPTAKE / CREAF

EMISSIONS SAVINGS BY REUSING PRE-EXISTING, SOIL THAT REMAINS ON SITE, BASE AND/OR SUBBASE PAVEMENTS, STRUCTURE AND/OR FAÇADE, PROMOTING BIOCLIMATISM...

CO2 KIDNAPPING

TOTAL

TOTAL

0,77 kWh/ m3 ...m3 X 0,77 kWh/ m3 X 0,248 kg CO2 eq/ m30,248 kg CO2/ kWh MI X MAI NLAND ELECTRI CI TY. GROSS PRODUCTI ON 2013 NET TLL, BENCHMARK AMB :

OVERALL CARBON FOOTPRINT - CO2

(6) - ONLY WHEN THE DISTANCE IS OVER 30 km. THE CALCULATION CAN BE MADE USING THE CALCULATOR OF THE "OCCC" IN THE ATTACHED LINK

(1) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE OPEN DATABASE "BEDEC-2014" THE OCT / COAC OR IN REGISTRATION OF DAPS CAATEB THROUGH/USING THE ATTACHED LINKS

CO2

ELECTRI CI TY FROM THE NET:

(11) - STANDARD DEMAND AT DEVELOPMENT / PLANNING IN PROJECTS WITH TECHNIQUES, MATERIALS, LIGHTING AND TRAFFIC LIGHTS STANDARD

TABLE FOR ENERGY CONVERSION INTO CO2eq EMISSIONS TO ATMOSPHERE

TO TAL O FFSETS IN CO 2 EM ISSIO NS/ 10 YEARS CYCLE

TO TAL O FFSETS IN CO 2 EM ISSIO NS

(5) - YOU CAN MAKE THE CALCULATION USING THE "CREAF" CALCULATOR WITH ATTACHED LINK

(2) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "L'OCCC" CALCULATOR WITH ATTACHED LINK

(3) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "ENVIRONMENTAL DEP." CALCULATOR WITH ATTACHED LINK

(4) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "LIDER-CALENER" CALCULATOR WITH ATTACHED LINK

BACK TO MAIN MENU

(7) - IN THE ABSENCE OF FOOTPRINT ASSOCIATED WITH GROUNDWATER, ASSIMILATE TO MAINS WATER SUPPLY, WITH THE CONVERSION FACTOR OF "OCCC"

(8) - ONLY MAINS WATER, WITH THE CONVERSION FACTOR OF "OCCC"

(9) - FOLLOW PATTERN FOR ECODESIGNED MATERIALS "POSITIVE REPORT"

(10) - CONVERSION FROM M3/YEAR TO KWH/YEAR WITH THE CONVERSION TABLE OF L'OCCC INCLUDED IN "POSITIVE REPORT"

INFRAESTRUCTURE SUPERFICIAL TREATMENT

TOTAL 3.1.- SAVINGS FOR STORE AND KIDNAPPING CARBON EMISSIONS * (5) TOTAL CO2 STORAGE TOTAL CO2 KIDNAPPING

PROJECTED TRANSMITTANCE MÍNIMUM SOLAR CONTRIBUTION ACCORDING TO LOCAL REGULATION

HEATING/COOLING EMISSIONS

THE CO2 EXCEL WORKSHEET - 2 of 2 - URBAN PLANNING FOOTPRINT, EMISSION SAVINGS REPORT AND THE OFFSETS BECAUSE OF "URBAN GREEN" BENEFITS

TO TAL FO O TPRINT O F THE ENERGY M ANAGEM ENT

FOOTPRINT *(7 i 8)

THE ENERGY MANAGEMENT FOOTPRINT, THE BUILDINGS LIFESPAN,: APPLYING THE MOST EFFECTIVE VALUE BETWEEN: 14/15/O43

THE BENCHMARK BUILDING'S ESTIMATED DEMAND-CTE

DISTRICT H&C/EOLIC/...

MILLORES PER LES TRANSMITÀNCIES vs CTE EFFICIENCY IMPROVS.

REFURBISHMENT/RETROFITING/REUSE: PREVIOUS DEMAND NEW DEMAND EFFICIENCY IMPROVS.

CLEAN VEHICLE / GAS / ELECTRICITY...

URBAN PLANNING FOOTPRINT, THE RESIDENTIAL DENSITY, MOBILITY, WATER AND ENERGY CONSUMPTION, CO2 EMISSIONS * (3)


L’HDC


SMART HUB IN WHICH RUN THE CURRENT C02 CALCULATORS & TOOLS


PEM NºEXP.OMJ.

nº DISTRICT


m3

MATERIAL -1 % m3 m3 Km Kg CO2 kWh kg CO2





SYSTEM -1 % m3 m3 Km Kg CO2 kWh kg CO2

SYSTEM - 2 % m3 m3 Km Kg CO2 kWh kg CO2


0,00 0,00 % 0,00 m3 0,00 m3 0,00 Km 0,00 Kg CO2 0,00 kWh 0,00 kg CO2 1

EXCAVATION m3 EARTHWORKS m3 MINIMIZED m3 0,00 m3 TOTAL kWh kg CO2 eq 2

DEMOLITION m3 WORK WASTE m3 REUSED m3 0,00 m3 TOTAL kWh kg CO2eq 3

kWh kg CO2 4

kWh kg CO2 5






0,00 kWh/year 0,00 kg CO2/year 9

0,00 kWh/year 0,00 kg CO2/10 years 10 = 9X10 years






kWh/year











0,00 kWh 0,00 kg CO2/10 years 19 = 18X10 years


VEHICLES nº



kgCO2 kWh kg CO2 20

0,00 kWh 0,00 kg CO2 21

0,00 kWh 0,00 kg CO2/10 years 22

kWh 0,00 kg CO2

kWh 0,00 kg CO2 23

kWh 0,00 kg CO2 24







0,00 kg CO2/year 28

0,00 kg CO2/10 years 29

0,00 kg CO2/year 30

0,00 kgCO2/10years 31

0,00 kg CO2/year

WATER : CO2 =

TO

TA

L

LINK TO ITeC

SA

VIN

GS

/C

OM

PE

NS

AT

IO

NS

LINK TO L'OCCC


MA

TE

RIA

LS

&W

AS

TE

MA

NA

GW

AT

ER

EF

.M

AN

AG

CO2 STORAGE


ENERGYE

FF

IC

IE

NT

MA

NA

GE

ME

NT


TOTAL WATERING


UR

BA

NP

LA

NN

IN

G

LINK TO ENV. D.

FOOTPRINT OF THE ENERGY MANAGEMENT, 10 YEARS CYCLE

NEIGHBORHOOD

LINK TO CREAF


NATURAL CO2 SINKS


LINK TO EPD DB

IN

F.D

AT

A

CADASTRAL REFERENCE


REPORT ON THE CARBON FOOTPRINT OF THE PROJECT, when calculating ASBUILT


FOOTPRINT *(8)

TOTAL DEMAND



BUILDYNG TYPE



STREET

PROJECT


kWh

kWh/year *(7)



FOOTPRINT *(7)

TOTAL CLEANING

TOTAL PRODUCTS' FOOTPRINT: APPLYING THE MOST EFFECTIVE VALUE BETWEEN (1 + 2 + 3) and 4)

FOOTPRINT *(7)






TOTAL CONSUMPTION

ENTHALPY RECOVERY



LINK OCT/COAC



LINK TO L'OCCC WATER FOR IRRIGATION

LINK TO EPD DB




TOTAL kWh/year


FOOTPRINT



FOOTPRINT

POWER

TOTAL kWh/year





L'ENERGIA A LA VIDA ÚTIL DE L'EDIFICI, EL CONSUM i LA DEMANDA, CTE-HE-0/1 *(4)

LINK TO ENV. D.

FOOTPRINT OF THE WATER MANAGEMENT, 10 YEARS CYCLE



LINK TO L'OCCC

LINK TO ENV. D.


TOTAL PRODUCTION

TOTAL FOOTPRINT OF THE WATER MANAGEMENT CYCLE: APPLYING THE MOST EFFECTIVE VALUE BETWEEN: (6 & 7) and 8

PRIVATE VEHICLE


PUBLIC TRANSPORT

CO2 ACS EMISSIONS

WALKING / CYCLING

LANDSCAPED AREA

HVAC CONSUMPTION

NEW BUILT






TOTAL FOOTPRINT OF URBAN PLANNING



FOOTPRINT OF URBAN PLANNING, 10 YEARS CYCLE



TOTAL

TOTAL

TOTAL



SPECIES OF




CO2 KIDNAPPING

TOTAL

TOTAL

0,77 kWh/ m3 ...m3 X 0,77 kWh/ m3 X 0,248 kg CO2 eq/ m30,248 kg CO2/ kWh MIX MAINLAND ELECTRICITY. GROSS PRODUCTION 2013 NET TLL, BENCHMARK AMB :


(6) - ONLY WHEN THE DISTANCE IS OVER 30 km. THE CALCULATION CAN BE MADE USING THE CALCULATOR OF THE "OCCC" IN THE ATTACHED LINK


CO2

ELECTRICITY FROM THE NET:

(11) - STANDARD DEMAND AT DEVELOPMENT / PLANNING IN PROJECTS WITH TECHNIQUES, MATERIALS, LIGHTING AND TRAFFIC LIGHTS STANDARD


TOTAL OFFSETS IN CO2 EMISSIONS/ 10 YEARS CYCLE

TOTAL OFFSETS IN CO2 EMISSIONS

(5) - YOU CAN MAKE THE CALCULATION USING THE "CREAF" CALCULATOR WITH ATTACHED LINK

(2) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "L'OCCC" CALCULATOR WITH ATTACHED LINK

(3) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "ENVIRONMENTAL DEP." CALCULATOR WITH ATTACHED LINK

(4) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "LIDER-CALENER" CALCULATOR WITH ATTACHED LINK

BACK TO MAIN MENU

(7) - IN THE ABSENCE OF FOOTPRINT ASSOCIATED WITH GROUNDWATER, ASSIMILATE TO MAINS WATER SUPPLY, WITH THE CONVERSION FACTOR OF "OCCC"

(8) - ONLY MAINS WATER, WITH THE CONVERSION FACTOR OF "OCCC"


(10) - CONVERSION FROM M3/YEAR TO KWH/YEAR WITH THE CONVERSION TABLE OF L'OCCC INCLUDED IN "POSITIVE REPORT"






TOTAL FOOTPRINT OF THE ENERGY MANAGEMENT

FOOTPRINT *(7 i 8)












PEM NºEXP.OMJ.

nº DISTRICT


m3






SYSTEM -1 % m3 m3 Km Kg CO2 kWh kg CO2



0,00 0,00 % 0,00 m3 0,00 m3 0,00 Km 0,00 Kg CO2 0,00 kWh 0,00 kg CO2 1

EXCAVATION m3 EARTHW ORKS m3 MINIMIZED m3 0,00 m3 TOTAL kWh kg CO2 eq 2

DEMOLITION m3 W ORK W ASTE m3 REUSED m3 0,00 m3 TOTAL kWh kg CO2eq 3

kWh kg CO2 4

kWh kg CO2 5







0,00 kWh/year 0,00 kg CO2/10 years 10 = 9X10 years






kWh/year











0,00 kWh 0,00 kg CO2/10 years 19 = 18X10 years


VEHICLES nº



kgCO2 kWh kg CO2 20

0,00 kWh 0,00 kg CO2 21

0,00 kWh 0,00 kg CO2/10 years 22

kWh 0,00 kg CO2

kWh 0,00 kg CO2 23

kWh 0,00 kg CO2 24







0,00 kg CO2/year 28

0,00 kg CO2/10 years 29

0,00 kg CO2/year 30

0,00 kgCO2/10years 31

0,00 kg CO2/year

WATER : CO2 =

TO

TA

L

LINK TO ITeC

SA

VIN

GS

/C

OM

PE

NS

AT

IO

NS

LINK TO L'OCCC


MA

TE

RIA

LS

&W

AS

TE

MA

NA

GW

AT

ER

EF

.M

AN

AG

CO2 STORAGE


ENERGYE

FF

IC

IE

NT

MA

NA

GE

ME

NT


TOTAL WATERING


UR

BA

NP

LA

NN

IN

G

LINK TO ENV. D.

FOOTPRINT OF THE ENERGY MANAGEMENT, 10 YEARS CYCLE

NEIGHBORHOOD

LINK TO CREAF


NATURAL CO2 SINKS


LINK TO EPD DB

IN

F.D

AT

A

CADASTRAL REFERENCE


REPORT ON THE CARBON FOOTPRINT OF THE PROJECT, when calculating ASBUILT


FOOTPRINT *(8)

TOTAL DEMAND



BUILDYNG TYPE



STREET

PROJECT


kWh

kWh/year *(7)



FOOTPRINT *(7)

TOTAL CLEANING

TOTAL PRODUCTS' FOOTPRINT: APPLYING THE MOST EFFECTIVE VALUE BETWEEN (1 + 2 + 3) and 4)

FOOTPRINT *(7)






TOTAL CONSUMPTION

ENTHALPY RECOVERY



LINK OCT/COAC



LINK TO L'OCCC WATER FOR IRRIGATION

LINK TO EPD DB




TOTAL kWh/year


FOOTPRINT



FOOTPRINT

POWER

TOTAL kWh/year





L'ENERGIA A LA VIDA ÚTIL DE L'EDIFICI, EL CONSUM i LA DEMANDA, CTE-HE-0/1 *(4)

LINK TO ENV. D.

FOOTPRINT OF THE WATER MANAGEMENT, 10 YEARS CYCLE



LINK TO L'OCCC

LINK TO ENV. D.


TOTAL PRODUCTION

TOTAL FOOTPRINT OF THE WATER MANAGEMENT CYCLE: APPLYING THE MOST EFFECTIVE VALUE BETWEEN: (6 & 7) and 8

PRIVATE VEHICLE


PUBLIC TRANSPORT

CO2 ACS EMISSIONS

WALKING / CYCLING

LANDSCAPED AREA

HVAC CONSUMPTION

NEW BUILT






TOTAL FOOTPRINT OF URBAN PLANNING



FOOTPRINT OF URBAN PLANNING, 10 YEARS CYCLE



TOTAL

TOTAL

TOTAL



SPECIES OF




CO2 KIDNAPPING

TOTAL

TOTAL

0,77 kWh/ m3 ...m3 X 0,77 kWh/ m3 X 0,248 kg CO2 eq/ m30,248 kg CO2/ kWh MIX MAINLAND ELECTRICITY. GROSS PRODUCTION 2013 NET TLL, BENCHMARK AMB :


(6) - ONLY W HEN THE DISTANCE IS OVER 30 km. THE CALCULATION CAN BE MADE USING THE CALCULATOR OF THE "OCCC" IN THE ATTACHED LINK


CO2

ELECTRICITY FROM THE NET:

(11) - STANDARD DEMAND AT DEVELOPMENT / PLANNING IN PROJECTS W ITH TECHNIQUES, MATERIALS, LIGHTING AND TRAFFIC LIGHTS STANDARD


TOTAL OFFSETS IN CO2 EMISSIONS/ 10 YEARS CYCLE

TOTAL OFFSETS IN CO2 EMISSIONS

(5) - YOU CAN MAKE THE CALCULATION USING THE "CREAF" CALCULATOR W ITH ATTACHED LINK

(2) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "L'OCCC" CALCULATOR W ITH ATTACHED LINK

(3) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "ENVIRONMENTAL DEP." CALCULATOR W ITH ATTACHED LINK

(4) - YOU CAN MAKE THE CALCULATION QUANTIFY AND MANUALLY, ADDING IMPACTS USING THE "LIDER-CALENER" CALCULATOR W ITH ATTACHED LINK

BACK TO MAIN MENU

(7) - IN THE ABSENCE OF FOOTPRINT ASSOCIATED W ITH GROUNDW ATER, ASSIMILATE TO MAINS W ATER SUPPLY, W ITH THE CONVERSION FACTOR OF "OCCC"

(8) - ONLY MAINS W ATER, W ITH THE CONVERSION FACTOR OF "OCCC"


(10) - CONVERSION FROM M3/YEAR TO KW H/YEAR W ITH THE CONVERSION TABLE OF L'OCCC INCLUDED IN "POSITIVE REPORT"






TOTAL FOOTPRINT OF THE ENERGY MANAGEMENT

FOOTPRINT *(7 i 8)









ENGAGEMENT p2p TOWARS A NEW URBAN AGENDA

L’HDC

UM #REF! W/M2k US #REF! W/M2k UC #REF! W/M2k F #REF! 0,00

#REF! #REF! #REF! #REF!

DE A

kg CO2 eq/kgkg CO2 eq/kgkg CO2 eq/kgkg CO2 eq/kgkg CO2 eq/kg

m3 Càrrega amb mitjans mecànics i transport de residus inerts o no especials a instal·lació autoritzada

m3 Consumo

kwh3020,392210 m3 2,52,5 Consumo304

Componentes constitutivos de maquináriagasoilTotal

POSITIVE ASSESSMENT EMISSIONS

POSITIVE REPORT

#REF!#REF!0,32 KgCO2/year

BUILDING SERVICES / TRANSMITTANCE LIMITS IN WALLS, FLOOR AND ROOF AND SOLAR FACTOR MODIF. TRANSMITTANCE PROPOSAL/ UM: FACADES AND WALLS/ US: GROUND FLOOR/ UC: AND F COVER: SOLAR FACTOR MODIFIED

UMlim

PUBLIC SPACE/ INFRASTRUCTURE / URBAN PLANNING: STANDARD ENERGY CONSUMPTION

DISPLAY OF COMPARATIVE CALCULATION PROJECT/CONSTRUCTION STANDARD

kWh/year PRODUCTION

DEMAND FOR BUILDING PROPOSAL #REF!0,73 W/m2K

ENERGY DEMAND PROPOSAL

FUSlimCTE DB HE 0-HE 1 0,41 W/m2K

#REF!

UClim

ENERGY EFFICIENCY IMPROVEMENTS

kWh/year

DEMAND FOR BUILDING REFERENCE kWh/year

MILLORES EN EFICIÈNCIA

kWh/year#REF!

KgCO2/ m348,74186,59

GREATER SOALR FRACTION/ACS % VS. THE REFERENCE BUILDING

#REF!

4,085

0,77 kWh/ m3

CERTIFICATION OF ENERGY EFFICIENCY FROM PROPOSAL ENERGY EFFICIENCY IMPROVEMENTS POSITIVE ASSESSMENT EMISSIONS

DISPLAY OF THE AUTOMATIC CALCULATION OF POSITIVE REPORT

kWh/year KgCO2/year#REF! #REF! #REF!

POSITIVE REPORT

RESIDENTIAL BUILDING WITH ENERGY EFFICIENCY CERTIFICATION / reference building

A.M.B. CLIMATE ZONE: C2 / h: U-250m

THE POSITIVE REPORT

#REF!

DB HE0-HE1 kWh/yearCTE

0,50 W/m2K

DEMAND FOR RESIDENTIAL BUILDING PROPOSAL

AHORRO

Envases

kg CO2 eq/m3

kg CO2/kWh0,20160,03693

Emisión CO2

kg CO2 eq/m3Residuos

19%51,83-MJ

Componentes constitutivos de maquinária

emisioneskwh

kg de CO2/ litre

kg de CO2/kg

kg CO2/kWh

Totalelèctrica

kg CO2/Nm3

Gas propano2,78568

Carbón de importación

2,158242,964436 kg CO2/kg

kg CO2/kg

9,26 KgCO2/m348,74

LINK AT L'ITeC

48,74 KgCO2/m3

G2MM3RQ

48,74Kg/ m351,8351,83

G2RM_ 01 - MACHAQUEO MATERIAL PETREO EN OBRA

15'5 % x 1.25 Factor esponjamiento = 19 %Matxuqueig de material petri a l'obra amb matxucadora de residus petris,

* Factor esponjamiento del árido ITeC-F2R4 = 25 %

3,18 KgCO2/m3--

3.18 Kg/ m312,17 3,38-

12,17#####

RESIDUOS NO TRANSPORTADOS: 19 % Emisión CO2Coste energéticoPesokwhMJ

3,1812,17

emisiones machaqueo

0,2290 3,542kg CO2/kWh

TOTAL SAVINGS TO INCORPORATE RECYCLED WASTE AND SAVE EMISSIONS: 3.53 KG CO2 / M3 + 9.26 KG CO2 / M3-3,18 KG CO2 / M3 = 9.61 KG CO2 / M3 3,38

KgCO2/ m33,183,38

kg CO2 eq/m3

Vidrio 11,0790

0,10965 65,790

0,12651 kg CO2 eq/m3

EXAMPLE: CALCULATION OF EMISSION SAVINGS BY INCORPORATING 20% OF THE RECYCLED AGGREGATE / CRUSHED ON SITE

2,29859Carbón nacional2,9575

37,05545

0,248 kgCO2/ kWh

Fuel 0,27360,2628

kg de CO2/kg2,57853

kg CO2 eq/m3

Peso

kg CO2/kg

F2R6_ 01 - CÀRREGA I TRANSPORT DE RESIDUS

0,2340 kg CO2/kWh

99

1,31

180

-

166,6

POSITIVE ASSESSMENT EMISSIONS

KgCO2/year

kg CO2/bombona de 35 kgkg CO2/kWh

ENERGY CONVERSION FACTORS IN CO2 EMISSIONS TO ATMOSPHERE TABLE

kg CO2/bombona de 12,5 kg

LINK TO L'OCCC0,248 kgCO2eq/ kWh

Kg185,56

ELECTRICITY OF THE NETWORK

#####

NATURAL SINKS OF CO2, THE C.R.E.A.F. THE U.A.B.

1,31

Gas natural

% PLUS ENERGY EFFICIENCY

THE RESULTS OF THE POSITIVE CONTRIBUTION TO 202020

#REF!

% DIMINISHED EMISSIONS CO2 EMISSIONS PROPOSAL

#REF!

#REF!

kWh/year

SOLAR HEDGING PROPOSALSOLAR HEDGING

BUILDING EMISSIONS REFERENCE

CTE-HE1 / BYLAW (2) % PLUS RENEWABLE

% CONTRIBUTION AT 202020

kgCO2 year

kWh/year

POSITIVE ASSESSMENT / CONTRIBUTION TO P.A.E.S. L’H

CO2 EMISSION REDUCTION VS. THE REFERENCE BUILDING

#REF!ENERGY EFFICIENCY IMPROVEMENTS

#REF!

#REF!

CO2

POSITIVE REPORT PROPOSAL

#REF!LIDER-CALENER

POSITIVE REPORT SUMMARY

kWh/year

STANDARD OF ENERGY DEMAND PUBLIC SPACE/URB./INFRASTRUCTURE kWh/year#REF! kWh/year STREET LIGHTING kWh/year TRAFFIC LIGHTING AND OTHERS kWh/year POWER #REF!

kWh/yearPOSITIVE REPORT #REF! KgCO2/year

#REF!

PROJECTED DEMAND/FINAL kWh/year

GREATER EFFICIENCY VS THE BUILDING OF REFERENCE

PesoMJ KgKg

Consumo

3,19475

ciment#####àrid

184,25

D060_ 01 - HORMIGÓN SINE ADITIVOS DESIGNADO POR DOSIFICACIÓN DE CIMIENTO

D060P0B1

#####

Emisión CO2

aiguaComponents constitutius de materials

20% de 2.200,00 Kg/m33,53 Kg CO2/m3densidad Hormigón: 2.580 Kg/m3

Ahorro = 15'5 % residuo no transportado

755,617,6 20% de 17,6 Kg CO2

440 Kg/m3

123,4761,02897

Kg

gasoil186,59

Coste energético

186,59Total

--

kg CO2/year

Electricity mix peninsula. gross output in 2013

0,2383

Net TLL, referent A.M.B :

RESIDUOS AHORRADOS: 400 Kg/m3

F2R6423A

0,06284Papel

Resto y/o Residuo general

kg CO2/kWh

Formigó de 200 kg/m3, amb una proporció en volum 1:3:6, amb ciment pòrtland amb filler calcari CEM I I /B-L 32,5 R i granulat de pedra granítica de grandària màxima 20 mm, elaborat a l'obra amb formigonera de 165 l

Matéria orgánica

Coc de petroleo

FUEL CONSUMPTIONGasoil

ÁRIDO RECICLADO INCORPORADO : 20%

ENERGY OBTAINED FROM SUPPLY NETWORK E. RENOVABLE

Gas butano

3,05368

2,93832 102,8412

kg de CO2/kg

kg CO2/kgGLP genérico

SOLAR FACTOR MODIFIED kWh/year

Urban Green Ecological Services of Appendix X - XI

ahorro emisiones por el transporte de los residuos

BACK TO MAIN MENÚ

CS

RESIDUOS AHORRADOS Kg/m3

WATER

#REF!

LINK TO CREAF

Coste energético

AHORRO emisiones

-Components constitutius de maquinària

#####0,0521,08

330200


GOVERNANCE: CITIZENS AT THE CENTER OF THE CITY RESILIENCE SCHEME

L’HDC

a 5 b 5 c 5 d 6 e 5 f 5 g 4 h 6 i 8 j 5 k 8 l 4 m 4 n 6 o 7 p 3 q 4 r 5

a b c d e f g h i j k l m n o p q r

*(1)

1

2

3

4

5

6 %

7

8 %

9

10

11

12

13

14

BRIEF

FINANCIAL PLANNING FOR THE BUILDING'S LIFE SPAN, PUBLIC SPACE, INFRASTRUCTURE PLANNING CHANGES OF USE, 1 CYCLE

IMPROVEMENTS IN QUALITY AND ECODESIGN %

% CORRECTIVE MAINTENANCE / PALLIATIVE / VANDALISM

EFFICIENCY IMPROVEMENTS, SYSTEMS

10 YEARS

ECONOMIC SUSTAINABILITY

VERDE

BRIEF

CAN BE FOUND IN ANNEX

BRIEF

CTE, IMPROVEMENTS IN BASIC SERVICES

THE SUSTAINABILITY SURVEY

THE ECONOMIC PLANNING MAINTENANCE PREVENTIVE MAINTENANCE

HADES

LINKS


L'OCCC

ACCESSIBILITY, CONNECTIVITY AND INDUCED MOBILITY / MIX MODAL

ACOUSTIC ATTENUATION AND REDUCTION OF HEAT ISLAND, BY PLANTING FUNCTIONAL PLANT SPECIES

YEARS

CAN BE FOUND IN ANNEXBRIEF


CREAF

BIOCOMPATIBILITY/ MATERIALS AND PAINTS / PHOTOCATALYSIS BRIEF

WELLBEING / INDOOR ENVIRONMENTAL QUALITY / NATURAL LIGHTING PROFIT


BACK TO MAIN MENÚ

* (1) FILL THE BOX WITH THE NUMBER OF SUSTAINABILITY CATEGORY, ADDED VALUE. Eg 1, 4,7,12

CAN BE FOUND IN ANNEXBRIEFLABELS AND VERIFICATIONS: ISO 9001, 14001/67, EMAS ...

LCCA

TRANSPARENCY / CHAIN OF CUSTODY /STEWARDSHIP CAN BE FOUND IN ANNEX

TRACEABILITY, CHECKS

INVESTMENT IN ENERGY EFFICIENCY

BRIEF CAN BE FOUND IN ANNEXSATISFACTION OF THE LOCAL RULES FOR NOISE AND VIBRATION



REDUCTION OF HYDRIC DEMAND WITH RETAINING WATER AND SUSTAINABLE DRAINAGES

IMPROVING AIR QUALITY, PROMOTING PUBLIC TRANSPORT GAS/ELECTRICITY BRIEF

BRIEF

%


PLANNING THE ECONOMICS OF REUSING, TO ANNEX

ECONOMIC PLANNING, CAN BE FOUND IN ANNEX

COMPLIANCE WITH REGULATIONS

INVESTMENT IN QUALITY, FACILITIES AND MATERIALS

TERM ECONOMIC RETURN / IN YEARS

SOCIAL SUSTAINABILITY

PLANNING RENOVATION OF SYSTEMS, 1 CYCLE

LCCA, COSTING OF THE LIFE SPAN

REGULAR MAINTENANCE

RETURN ON INVESTMENT/ROI

10 ANYS

ECO-EFFICIENCY IN THE MATERIALS AND CONSTRUCTION SYSTEMS total 0,00

SUSTAINABLE/ENVIRONMENT/QUALITY OF AIR AND WATER IN PUBLIC SPACE/THERMAL COMFORT/LIGHTING AND SOUND

HEALTH PREVENTION / AVOID EXPOSURE TO ELECTROMAGNETIC FIELDS BRIEF

STREET LIGHTING EFFICIENCY IN TO AVOID LIGHT POLLUTION BRIEF


THE “L’HDC”/ SMART URBAN LAB/ BUILDING BETTER CITIES

L’HDC

PEM NºEXP.OMJ.

nº ='FITXA DE CO2'!M4 DISTRICT ='FITXA DE CO2'!R4

='FITXA DE CO2'!V2 BUILDING TYPE ='FITXA DE CO2'!X3:Y3 PUBLIC E. TYPE #REF! ='FITXA DE CO2'!X2 P.G.M. DATES WORKS #REF!

#REF!






#REF! kg CO2/year

#REF! kWh #REF! kg CO2/year

#REF! RATING

#REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF! #REF!

#REF! % #REF! kWh/year #REF! kg CO2/year

#REF! KgCO2 #REF! KgCO2/m2 #REF! kgCO2/year #REF! KgCO2/10years #REF! OFFSETS #REF! kgCO2

#REF! KgCO2/10years #REF! KgCO2/10years #REF! kgCO2

7- THE FOOTPRINT SAVINGS REPORT, BY REDUCING DEMAND/ MOBILITY/ REFURBISHMENT/ REGENERATION/ ECODESIGN/ DOMOTICS/ SMART

THE RELIABILITYSURVEY ON ENVIRONMENTAL, ECONOMIC & SOCIAL SUSTAINABILITY AND MAINTAINABILITY: FROM 1 TO 14 ECOEFFICIENCY PARAMETERS:

THE SOCIAL SUSTAINABILITY

6- THE OFFSETS OF CARBON FOOTPRINT BECAUSE OF THE LOCAL "URBAN GREEN" CONTRIBUTION

ESTIMATED FOOTPRINT ASBUILT FOOTPRINT

BACK TO MAIN MENU

WATER AND ENERGY CONSUMPTION CARBON FOOTPRINT / LIFE SPANPRODUCT CARBON FOOTPRINT / MATERIALS AND WASTE

THE FINAL CALCULATION

PROPOSAL vs ASBUILT DIFFERENTIAL CALCULUS

CADASTRAL REFERENCE

OVERALL : THE CARBON FOOTPRINT OF PROJECT - WORKS - LIFE CYCLE/SPAN - OFFSETS, CONTEMPLATING 1 USE CYCLE/RENEWAL OF 10 YEARS

THE ENVIRONMENTAL SUSTAINABILITY THE ECONOMICAL SUSTAINABILITY

CO2 FOOTPRINT at 10 years

POSITIVE REPORT vs CTECONTRIBUTIONS TO THE L'H SEAP 202020 THE POSITIVE ENVIRONMENTAL REPORT

FOOTPRINT REDUCTION

5- THE CARBON FOOTPRINT OF THE ENERGY PERFORMANCE AND MOBILITY CYCLES

4- THE CARBON FOOTPRINT OF THE WATER PERFORMANCE CYCLE

='FITXA DE CO2'!H5:N5

URBAN CUALIFICATION

AUTHOR

1- THE CARBON FOOTPRINT OF URBAN PLANNING, URBAN RENEWAL/ REGENERATION, AND THEIR RELATED MOBILITY

CARBON FOOTPRINT OF BUILDINGS / REFURBISHMENT / RETROFITTING / URBANIZATION / INFRASTRUCTURE AND URBAN PLANNING

3- THE CARBON FOOTPRINT OF MATERIALS AND WASTE MANAGEMENT CYCLES

GEOGRAPHIC ORIENTATION

L'HDC

OVERVIEW OF THE BUILDING / PUBLIC SPACE / INFRASTRUCTURE / DATA='FITXA DE CO2'!H2:R2

='FITXA DE CO2'!O4:P4NEIGHBORHOOD='FITXA DE CO2'!H4:K4

='FITXA DE CO2'!K3:L3

PROPOSAL

#REF! ='FITXA DE CO2'!O3:R3

STREET

OVERALL CO2 FOOTPRINT

BUDGET

2- THE CARBON FOOTPRINT OF GROUNDWORKS AND/OR DECONSTRUCTION/DEMOLISH TO ADEQUATE SITE

BUILT AREA, m2

CARBON FOOTPRINTEMBODIED ENERGY


Performance Breakdown

OPEN/PUBLIC CARBON FOOTPRINT CALCULATORS



L’HDC THE TEAM / BIG DATA MANAGEMENT

Blanca Atienza Gatnau, Civil Engineer, Channels and Ports, Head of Service, E.P.U.S. L'H

Sergi Lopez-Grado Padreny, Arch. Públic Space, Urban Planning and Environment of L'H

COLLABORATING

Susana Pinto Cañete, Civil Engineer, C. & P. of the Service E.P.U.S. L'H

Manuel Zarobe Watiné, Industrial Engineer, of the Service E.P.U.S. L’H

Javier Rufas Rivas, Computer Technician , of the Service E.P.U.S. L’H

FIRST GOAL: Public Social Housing 63 dwellings for Young People/INCASOL

please,do not hesitate to adress any questions to : [email protected]

WWW.l-h.cat

mailto:[email protected]

http://www.l-h.cat/


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“L’HDC” CARBON FOOTPRINT INDICATOR OF L’HOSPITALET “L’H is the short for L’Hospitalet,...

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