Primjeri za određivanje besplatne dodjele emisijskih jedinicaZagreb, 25.-29. ožujka 2019.

Korekcija referentne vrijednosti – pripisane emisije

𝑨𝒕𝒕𝒓𝑬𝒎 = 𝑫𝒊𝒓𝑬𝒎∗ + 𝑬𝒎𝑯,𝒊𝒎𝒑𝒐𝒓𝒕 − 𝑬𝒎𝑯,𝒆𝒙𝒑𝒐𝒓𝒕 + 𝑾𝑮𝒄𝒐𝒓𝒓,𝒊𝒎𝒑𝒐𝒓𝒕 − 𝑾𝑮𝒄𝒐𝒓𝒓,𝒆𝒙𝒑𝒐𝒓𝒕 + 𝑬𝒎𝒆𝒍,𝒆𝒙𝒄𝒉 − 𝑬𝒎𝒆𝒍,𝒑𝒓𝒐𝒅𝒖𝒄𝒆𝒅

Pripisane emisije potpostrojena

Direktno pripisane emisije su povezane s tokovima izvora, na način kao što su i

tokovi izvora u planovima praćenja u skladu s MRR (osim topline i otpadnih plinova)

Emisije koje se odnose na dodijeljenu uvezenu neto mjerljivu toplinu

Emisije koje se odnose na dodijeljenu izvezenu neto mjerljivu toplinu

Korekcija za uvezene otpadne plinove

Korekcija za izvezene otpadne plinove

Emisije koje se odnose na potrošnju

izmjenjive struje

Emisije iz

proizvodnje

el.energije

2

Primjeri – boje oznaka

3

Tip strelice Opis

Zelene strelice koriste se za tokove izvora iz planova praćenja u skladu s MRR (tokovi izvora iz plana praćenja)

Sive strelice se koriste za gorivo koje izgara izvan granica postrojenja, tj. Nije pokriveno planom praćenja

Crvene strelice koriste se za „interne tokove izvora” koji nisu pokriveni

planom praćenja (npr. Jer je masena bilanca primijenjena za cijelo

postrojenje)

Tamno plave strelice koriste se za mjerljive tokove

topline.

Plave strelice koriste se za proizvode, npr. Proizvode s

referntnom vrijednošću - BM.

Crvene strelice koriste se za tok

električne energije.

Fuel

Fuel

Cinternal

Heat

Product

Electricity

Link to templates

4

Attributed emissions

Relevant section in the baseline data collection

template

Relevant section in theMMP Template

Relevant examples in this sectionProduct

BMFallback

BMProduct

BMFallback

BMDirEm* (MP source streams) F.g G.c F.e.i G.c AllDirEm* (Internal source streams) F.i – F.e.ii – WG-1DirEm* (CO2 feedstock) F.j – F.e.iii – –

EmH,import F.k G.1.f F.g G.1.fMH(all),

WG-3,Elec-2

EmH,export F.k G.4.e F.g G.4.e MH(all)

WGcorr,import F.l G.4.d F.h G.4.d WG(all)

WGcorr,export F.l – F.h – WG(all)

Emel,exch F.c – F.c – Elec-1

Emel,prod F.m – F.c – Elec-2Parameter: Fuel input F.h G.d F.f G.d AllParameter: Fuel input from waste gases(WG) F.k GParameter: Heatproduced – GParameter: Heat frompulp F.k GParameter: Heat from nitricacid F.kParameter: Waste gasesproduced F.lParameter: Waste gasesconsumed F.kParameter: Waste gasesflared F.lParameter: Total pulp produced F.n

.d F.h G.d WG(all). – G.e MH-5

.1.f F.g G.1.f MH-3– – – MH-3– F.h – WG(all)– F.h – WG(all)– F.h – WG(all)– F.a – MH-3

Parameter: Intermediateproducts F.o – F.a – -

Sheet F

No direct impact on

attributed emissions

(consistency checks, etc.)

Case study 1

Installation boundaries

Lime kiln 1

Lime kiln 2

Lime mill

Natural gas400 TJ/year

Petcoke50 TJ/year

Limestone170.000 t/year

Lime

95.000 t/year

EF Natural gas

EF Petcoke EF

EF Limestone

56 t CO2/TJ

96 t CO2/TJ

0.44 t CO2/t

Parameter Value

Activity level (HAL)

DirEm* (MP source streams)DirEm* (Internal source streams)DirEm* (CO2 feedstock)

EmH,importEmH,exportWGcorr,importWGcorr,exportEmel,exchEmel,prod

Parameter: Fuel inputParameter: Fuel input from WGParameter: Heat producedParameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases producedParameter: Waste gases consumedParameter: Waste gases flaredParameter: Total pulp producedParameter: Intermediate products

Case study 1

Installation boundaries

Lime kiln 1

Lime kiln 2

Lime mill

Natural gas400 TJ/year

Petcoke50 TJ/year

Limestone170.000 t/year

Lime

95.000 t/year

EF Natural gas

EF Petcoke EF

EF Limestone

56 t CO2/TJ

96 t CO2/TJ

0.44 t CO2/t

Parameter Value

Activity level (HAL) 95.000 t

DirEm* (MP source streams) 102.000 t CO2DirEm* (Internal source streams)DirEm* (CO2 feedstock)

EmH,importEmH,exportWGcorr,importWGcorr,exportEmel,exchEmel,prod

Parameter: Fuel input 450 TJParameter: Fuel input from WGParameter: Heat producedParameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases producedParameter: Waste gases consumedParameter: Waste gases flaredParameter: Total pulp producedParameter: Intermediate products

Case study 2

7

Identify for all sub-installations:

Reactor 2Boiler

FlaringSafety

flaring

Heat1

Installation boundariesWGexport

(to EU ETS installation)

Heat2(to districtheating)

Electricity

Reactor 1 Coutput,1(Product BM,CL)

Fuel1

CInput

Fuel2

He

at3

Co

utp

ut,

2

Parameter Value

Activity level (HAL)

DirEm* (MP source streams)DirEm* (Internal source streams)DirEm* (CO2 feedstock)EmH,importEmH,exportWGcorr,importWGcorr,exportEmel,exchEmel,prod

Parameter: Fuel inputParameter: Fuel input from WGParameter: Heat producedParameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases producedParameter: Waste gases consumedParameter: Waste gases flaredParameter: Total pulp producedParameter: Intermediate products

Product(CL, no BM)

Case study 2 – solution (1) Sub-installation 1: Product BM Parameter Value

Activity level (HAL) AL(Coutput,1)

DirEm* (MP source streams) 3.664 x (Cinput – Coutput,1) [t CO2e]DirEm* (Internal source streams) – 3.664 x Coutput,2 [t CO2e]DirEm* (CO2 feedstock)EmH,importEmH,export – Heat3 [TJ] x BMHeatWGcorr,importWGcorr,export – WGexport [TJ] x EFNG xCorrFEmel,exchEmel,prod

Parameter: Fuel input Fuel(Cinput) [TJ]Parameter: Fuel input from WGParameter: Heat producedParameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases produced WG(export + flaring + safety flaring) [TJ]Parameter: Waste gases consumed WG(safety flaring) [TJ]Parameter: Waste gases flared WG(Flaring) [TJ]Parameter: Total pulp producedParameter: Intermediate products

27

Reactor 1

Reactor 2Boiler

FlaringSafety

flaring

Heat1

Installation boundariesWGexport

(to EU ETS installation)

Heat2(to district heating)

Electricity

Coutput,1(Product BM,CL)

Fuel1

CInput

Fuel2

Heat3

Co

utp

ut,

2

Product(CL, no BM)

32

Reactor 1

Reactor 2Boiler

FlaringSafety

flaring

Heat1

Installation boundariesWGexport

(to EU ETS installation)

Heat2(to district heating)

Electricity

Coutput,1(Product BM,CL)

Fuel1

CInput

Fuel2

Heat3

Co

utp

ut,

2

Product(CL, no BM)

Case study 2 – solution (2) Sub-installation 2: Heat BM, CL Parameter Value

Activity level (HAL) Heat1 + Heat3 [TJ]

DirEm* (MP source streams) 0DirEm* (Internal source streams)DirEm* (CO2 feedstock)EmH,import + Heat1 [TJ] x EFHeat + Heat3 [TJ] xBMHeatEmH,exportWGcorr,importWGcorr,export DeterminedEmel,exch via “CHP Tool”Emel,prod

Parameter: Fuel input 0Parameter: Fuel input from WGParameter: Heat produced + Heat1 + Heat3[TJ]Parameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases producedParameter: Waste gases consumedParameter: Waste gases flaredParameter: Total pulp producedParameter: Intermediate products

31

Reactor 1

Reactor 2Boiler

FlaringSafety

flaring

Heat1

Installation boundariesWGexport

(to EU ETS installation)

Heat2(to district heating)

Electricity

Coutput,1(Product BM,CL)

Fuel1

CInput

Fuel2

Heat3

Co

utp

ut,

2

Product(CL, no BM)

Case study 2 – solution (3) Sub-installation 3: District heating Parameter Value

Activity level (HAL) Heat2 [TJ]

DirEm* (MP source streams) 0DirEm* (Internal source streams)DirEm* (CO2 feedstock)EmH,import + Heat2 [TJ] x EFHeatEmH,exportWGcorr,importWGcorr,export DeterminedEmel,exch via “CHP Tool”Emel,prod

Parameter: Fuel input 0Parameter: Fuel input from WGParameter: Heat produced Heat2 [TJ]Parameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases producedParameter: Waste gases consumedParameter: Waste gases flaredParameter: Total pulp producedParameter: Intermediate products

34

Reactor 1

Reactor 2Boiler

FlaringSafety

flaring

Heat1

Installation boundariesWGexport

(to EU ETS installation)

Heat2(to district heating)

Electricity

Coutput,1(Product BM,CL)

Fuel1

CInput

Fuel2

Heat3

Product(CL, no BM)

Co

utp

ut,

2

Case study 2 – solution (4) Sub-installation 4: Fuel BM, CL Parameter Value

Activity level (HAL) Fuel2 + Fuel(Coutput,2) [TJ]

DirEm* (MP source streams) Fuel2 x EF2 [tCO2e]DirEm* (Internal source streams) + 3.664 x Coutput,2 [t CO2e]DirEm* (CO2 feedstock)EmH,importEmH,exportWGcorr,importWGcorr,exportEmel,exchEmel,prod

Parameter: Fuel input Fuel2 + Fuel(Coutput,2) [TJ]Parameter: Fuel input from WGParameter: Heat producedParameter: Heat from pulpParameter: Heat from nitric acidParameter: Waste gases producedParameter: Waste gases consumedParameter: Waste gases flaredParameter: Total pulp producedParameter: Intermediate products

PITANJA?

HVALA NA PAŽNJI!

U prezentaciji su korišteni materijali Umweltbundesamt Austria i SQ Consult s radionica u organizaciji EK, veljača-ožujak 2019. godine