CCU (39_CCU)
Description
The 39_CCU module calculates emissions from synthetic gas and liquids.
Interfaces
Input
| Description | Unit | A | B | |
|---|---|---|---|---|
| fm_dataemiglob (all_enty, all_enty, all_te, all_enty) |
read-in of emissions factors co2,cco2 | x | ||
| vm_co2capture (ttot, all_regi, all_enty, all_enty, all_te, rlf) |
all captured CO2. | \(GtC/a\) | x | |
| vm_prodSe (tall, all_regi, all_enty, all_enty, all_te) |
se production. | \(TWa\) | x |
Output
| Description | Unit | |
|---|---|---|
| vm_co2CCUshort (ttot, all_regi, all_enty, all_enty, all_te, rlf) |
CO2 captured in CCU te that have a persistence for co2 storage shorter than 5 years. Unit GtC/a |
Realizations
(A) off
Limitations There are no known limitations.
(B) on
Managing the C/H ratio in CCU-Technologies amount of C temporary used in CCU-products in relation to the amount of hydrogen necessary [GtC/y]
\[\begin{multline*} \sum_{teCCU2rlf(te,rlf)}\left( vm\_co2CCUshort(t,regi,"cco2","ccuco2short",te,rlf) \right) = \sum_{se2se\_ccu39(enty,enty2,te)}\left( p39\_ratioCtoH(t,regi,enty,enty2,te,"CtoH") \cdot vm\_prodSe(t,regi,enty,enty2,te) \right) \end{multline*}\]
Limitations There are no known limitations.
Definitions
Objects
| Description | Unit | A | B | |
|---|---|---|---|---|
| p39_ratioCtoH (tall, all_regi, all_enty, all_enty, all_te, all_enty) |
ratio between C and H in CCU-technologies, make sure if you refer to H or H2 in source | x | ||
| q39_emiCCU (ttot, all_regi) |
Managing the C/H ratio in CCU-Technologies | x |
Sets
| description | |
|---|---|
| all_enty | all types of quantities |
| all_regi | all regions |
| all_te | all energy technologies, including from modules |
| emi2teCCU(all_enty, all_enty, all_te, all_enty) | map emissions to CCU-technologies |
| enty(all_enty) | all types of quantities |
| enty_ccu39(all_enty) | all types of quantities |
| in(all_in) | All inputs and outputs of the CES function |
| modules | all the available modules |
| regi(all_regi) | all regions used in the solution process |
| rlf | cost levels of fossil fuels |
| se2se(all_enty, all_enty, all_te) | map secondary energy to secondary energy using a technology |
| se2se_ccu39(all_enty, all_enty, all_te) | map secondary energy to secondary energy using a CCU-technology |
| t(ttot) | modeling time, usually starting in 2005, but later for fixed delay runs |
| tall | time index |
| te(all_te) | energy technologies |
| te_ccu39(all_te) | CCU technologies |
| te2rlf(all_te, rlf) | all technologies to grades |
| teCCU2rlf(all_te, rlf) | mapping for CCU technologies to grades |
| teCCU2rlf2(all_te, rlf) | mapping for CCU technologies to grades, only used to always list ccu-technologies in te2rlf |
| teRe2rlfDetail(all_te, rlf) | mapping for se techologies to grades |
| teSe2rlf(all_te, rlf) | mapping for techologies to grades. Currently, the information was shifted to teRe2rlfDetail. Thus, teSe2rlf now only has ‘1’ for the rlf values |
| teSe2rlf_ccu39(all_te, rlf) | mapping for techologies to grades. Currently, the information was shifted to teRe2rlfDetail. Thus, teSe2rlf now only has ‘1’ for the rlf values |
| ttot(tall) | time index with spin up |
Authors
Laura Popin, Jessica Strefler