Commit 6260533d authored by Uria Martinez, Rocio's avatar Uria Martinez, Rocio
Browse files

Changes in main.gms: 

- New commodities (BOL_GAS_R, BOL_DES_R), activities (FCC_BOL_R, MXG_BOL_T, MXD_BOL_T), and parameters (FCC_BIOOIL_COPROC, COPROC_CAPLIMIT) to depict a pathway for co-processing fast pyrolysis oil at petroleum refineries
- New activity to allow the use of woody energy crops as feedstock for the fast pyrolysis process
- Parameters and calculations to (1) separate out biorefinery energy input costs from total biorefinery O&M costs, (2) separate out carbon intensity of biorefinery energy inputs from total process carbon intensity, (3) adjust 45Z tax credit amounts received by biorefiners depending on whether they use conventional energy inputs or low-carbon energy inputs
- Adjustments to definition of the set of activities for which O&M costs are calculated and turning variable costs into a "free variable" (nomenclature of GAMS for variables that can have positive or negative variables)
- Alternative option (based on data from Livestock Anaerobic Digester Database) to set availability of manure for HTL biofuel production process
- New model switches:
	- SwPetSupElast to set different values for the elasticity of petroleum product supply curves at their reference point
	- SwECRiskPrem to set different values for a risk premium on the supply cost of herbaceous and woody energy crops
	- SwEnrgyInputs for settings regarding the assumed values for the cost and carbon intensity of biorefinery energy inputs

All changes in files in the data_inputs folder, data.gms, summ.gms are supporting the main.gms changes listed above
parent 1ed8afe7

BioTrans_p.gdx

+2.03 MiB (11.6 MiB)

File changed.

No diff preview for this file type.

View original file
View changed file

data.gms

+100 −38
Original line number Diff line number Diff line
@@ -142,6 +142,13 @@ $OFFDELIM 
;

* Source: US_biorefineries.Rmd



TABLE COPROC_CAPLIMIT(R, COPROCPARAM)

$ONDELIM

$INCLUDE coprocess_caplimits.csv

$OFFDELIM

;





display KINIT;



*======================================================================================
@@ -326,13 +333,13 @@ MNRHTL 0.365 {million dry tons} 
TABLE TKC(P,T)          "Lump-sum cost per unit of investment (2020 USD/unit input)"



               #T

DRYMILL        7.956   {USD/bushel}

DRYMILL        5.078   {USD/bushel}

SOYBDS       634.586   {USD/metric ton of soybean oil}

HEFA        1173.042   {USD/dry ton}

MSWFTR      1012.972   {USD/dry ton}

WODFTR      1012.972   {USD/dry ton}

HRBFTR      1012.972   {USD/dry ton}

CRNATJ         1.791   {USD/gallon}

CRNATJ         1.918   {USD/gallon}

OTHERATJ    1022.441   {USD/dry ton}

FRTPYR       658.908   {USD/dry ton}

SLDHTL      1027.696   {USD/dry ton}
@@ -345,55 +352,54 @@ TABLE TECHPROGRESS(P,T) "Exogenous path of technological progress that brings 
DRYMILL      1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1 

SOYBDS       1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1

HEFA         1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1

*MSWFTR       2.5  2.425 2.35  2.275 2.20  2.125 2.050 1.975 1.900 1.825 1.750 1.675 1.600 1.525 1.45  1.375 1.300 1.225 1.15  1.075  1     1     1     1     1     1     1     1     1     1     1

*WODFTR       2.5  2.425 2.35  2.275 2.20  2.125 2.050 1.975 1.900 1.825 1.750 1.675 1.600 1.525 1.45  1.375 1.300 1.225 1.15  1.075  1     1     1     1     1     1     1     1     1     1     1

*HRBFTR       2.5  2.425 2.35  2.275 2.20  2.125 2.050 1.975 1.900 1.825 1.750 1.675 1.600 1.525 1.45  1.375 1.300 1.225 1.15  1.075  1     1     1     1     1     1     1     1     1     1     1

*CRNATJ       2.5  2.425 2.35  2.275 2.20  2.125 2.050 1.975 1.900 1.825 1.750 1.675 1.600 1.525 1.45  1.375 1.300 1.225 1.15  1.075  1     1     1     1     1     1     1     1     1     1     1

*OTHERATJ     2.5  2.425 2.35  2.275 2.20  2.125 2.050 1.975 1.900 1.825 1.750 1.675 1.600 1.525 1.45  1.375 1.300 1.225 1.15  1.075  1     1     1     1     1     1     1     1     1     1     1

*FRTPYR       2.5  2.425 2.35  2.275 2.20  2.125 2.050 1.975 1.900 1.825 1.750 1.675 1.600 1.525 1.45  1.375 1.300 1.225 1.15  1.075  1     1     1     1     1     1     1     1     1     1     1

MSWFTR       3.5   3.4   3.3   3.2   3.1   3     2.9   2.8   2.7   2.6   2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1 

WODFTR       3.5   3.4   3.3   3.2   3.1   3     2.9   2.8   2.7   2.6   2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1   

HRBFTR       3.5   3.4   3.3   3.2   3.1   3     2.9   2.8   2.7   2.6   2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1 

CRNATJ       2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1 

OTHERATJ     2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1 

FRTPYR       2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1

SLDHTL       2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1

MNRHTL       2.5   2.4   2.3   2.2   2.1   2     1.9   1.8   1.7   1.6   1.5   1.4   1.3   1.2   1.1   1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1 

CRNATJ       1.175 1.163 1.150 1.138 1.125 1.113 1.100 1.088 1.075 1.063 1.050 1.038 1.025 1.013 1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1       

OTHERATJ     1.175 1.163 1.150 1.138 1.125 1.113 1.100 1.088 1.075 1.063 1.050 1.038 1.025 1.013 1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1     1       

MSWFTR       1.250 1.237 1.224 1.211 1.197 1.184 1.171 1.158 1.145 1.132 1.118 1.105 1.092 1.079 1.066 1.053 1.039 1.026 1.013 1     1     1     1     1     1     1     1     1     1     1     1

WODFTR       1.250 1.237 1.224 1.211 1.197 1.184 1.171 1.158 1.145 1.132 1.118 1.105 1.092 1.079 1.066 1.053 1.039 1.026 1.013 1     1     1     1     1     1     1     1     1     1     1     1

HRBFTR       1.250 1.237 1.224 1.211 1.197 1.184 1.171 1.158 1.145 1.132 1.118 1.105 1.092 1.079 1.066 1.053 1.039 1.026 1.013 1     1     1     1     1     1     1     1     1     1     1     1

FRTPYR       1.250 1.237 1.224 1.211 1.197 1.184 1.171 1.158 1.145 1.132 1.118 1.105 1.092 1.079 1.066 1.053 1.039 1.026 1.013 1     1     1     1     1     1     1     1     1     1     1     1

SLDHTL       1.250 1.237 1.224 1.211 1.197 1.184 1.171 1.158 1.145 1.132 1.118 1.105 1.092 1.079 1.066 1.053 1.039 1.026 1.013 1     1     1     1     1     1     1     1     1     1     1     1

MNRHTL       1.250 1.237 1.224 1.211 1.197 1.184 1.171 1.158 1.145 1.132 1.118 1.105 1.092 1.079 1.066 1.053 1.039 1.026 1.013 1     1     1     1     1     1     1     1     1     1     1     1

;



*Note: Biorefinery capital costs for mature processes (DRYMILL, SOYBDS, HEFA) are already at nth plant level from the first year.



TABLE OMC(A,R,T)           "O&M cost in activity A region R (USD/various units)"

TABLE OMC(A,R,T)           "O&M cost in activity A, region R, period T (USD/various units)"



            #R.(2020 * 2050)

*AHDLB (Source: TEA_LCA.Rmd; costs of preprocessing/handling feedstocks at a facility co-located with the biorefinery)

HDL_CRN_B          0.4080 {USD/bushel}

HDL_SOY_B         -2.9845 {USD/bushel of soybeans, negative because of co-product credits}

HDL_STV_B         40.8870 {USD/dry ton}

HDL_HEC_B         40.8870 {USD/dry ton}

HDL_WEC_B         55.6614 {USD/dry ton}

HDL_FRT_B         55.6614 {USD/dry ton}

HDL_STV_B         32.8572 {USD/dry ton}

HDL_HEC_B         32.8572 {USD/dry ton}

HDL_WEC_B         35.1973 {USD/dry ton}

HDL_FRT_B         35.1973 {USD/dry ton}

HDL_MSW_B         55.4382 {USD/dry ton}

HDL_FOG_B         55.4382 {USD/dry ton}

HDL_SLD_B         55.4382 {USD/dry ton}

HDL_MNR_B         55.4382 {USD/dry ton}

*ACHMB (Source: TEA_LCA.Rmd summarized in OMC_biorefineries.csv; costs of converting biomass into biofuel and other co-products at the biorefinery)

DRM_CRN_B          2.328  {USD/bushel}

TES_SOY_B          0.038  {USD/bushel}

HEF_FOG_B        322.144  {USD/dry ton}

HEF_SOY_B        322.144  {USD/dry ton -- assuming same O&M costs to HEFA process using soybean oil or FOGs}

*ACHMB (Source: TEA_LCA.Rmd ; costs of converting biomass into biofuel and other co-products at the biorefinery)

*Note: for biorefinery conversion activities ACHMB, this table contains OMC costs excluding the cost of externally purchased energy inputs (natural gas, MWH, hydrogen) which are modeled separately

DRM_CRN_B          0.327  {USD/bushel -- includes co-product revenue from DDGs and corn oil}

TES_SOY_B         67.897  {USD/ton soybean oil}

SPJ_FOG_B        253.398  {USD/dry ton}

SPD_FOG_B        253.398  {USD/dry ton}

SPJ_SOY_B        253.398  {USD/dry ton -- assuming same O&M costs to HEFA process using soybean oil or FOGs}

SPD_SOY_B        253.398  {USD/dry ton -- assuming same O&M costs to HEFA process using soybean oil or FOGs}

FTR_STV_B         58.745  {USD/dry ton}

FTR_HEC_B         58.745  {USD/dry ton}

FTR_WEC_B         58.745  {USD/dry ton}

FTR_FRT_B         58.745  {USD/dry ton}

FTR_MSW_B         58.745  {USD/dry ton}

ATJ_CRN_B          0.492  {USD/gallon}

ATJ_STV_B        241.804  {USD/dry ton}

ATJ_HEC_B        241.804  {USD/dry ton}

ATJ_FRT_B        241.804  {USD/dry ton}

HTL_SLD_B        145.634  {USD/dry ton}

HTL_MNR_B        144.381  {USD/dry ton}

ATJ_CRN_B          0.661  {USD/gallon}

ATJ_STV_B        235.527  {USD/dry ton}

ATJ_HEC_B        235.527  {USD/dry ton}

ATJ_FRT_B        235.527  {USD/dry ton}

HTL_SLD_B        121.708  {USD/dry ton}

HTL_MNR_B        106.327  {USD/dry ton}

PYR_FRT_B        205.146  {USD/dry ton}

PYR_WEC_B        205.146  {USD/dry ton -- assuming same O&M costs as for fast pyrolysis process using forest residues}

FCC_BOL_R        -0.2621  {USD/gallon -- combines cost of modifications needed in FCC to accept bio-oil and co-product credit for LPG and bottoms oil fractions of yield}

*ARETP (Source: TEA_LCA.Rmd; costs of retailing fuels)

RET_E10_P          0.083  {USD/gallon}

RET_B12_P          0.083  {USD/gallon}
@@ -404,6 +410,7 @@ RET_P15_P 0.083 {USD/gallon} 
RET_RFL_P          0.083  {USD/gallon}

;





SCALAR

*Source: Li et al. (2022) "Techno-economic Analysis of Sustainable Biofuels for Marine Transportation"

SLD_FDSTCK_CRED          "Feedstock credit for wastewater sludge collected for a biorefinery (USD/dry ton)" /160/
@@ -414,6 +421,30 @@ MNR_FDSTCK_CRED "Feedstock credit for wastewater sludge collected for a 
OMC("HDL_SLD_B", R, T) = OMC("HDL_SLD_B", R, T) - SLD_FDSTCK_CRED;

OMC("HDL_MNR_B", R, T) = OMC("HDL_MNR_B", R, T) - MNR_FDSTCK_CRED;





TABLE BIOREF_ENERGY_INPUT_Q_WITHUNITS(A, ENERGY_INPUT, units, ENERGYINPUTQ_PARAMS)  "Energy input volumes in biorefinery conversion processes (quantity per feedstock unit input)"

$ONDELIM

$INCLUDE bioref_energy_input_q.csv

$OFFDELIM

;

*Source: EnergyInputs.Rmd. Energy inputs included here are electricity, natural gas, and hydrogen



TABLE BIOREF_ENERGY_INPUT_P_WITHUNITSCASES(R, ENERGY_INPUT, AEOcase, units, T)  "Energy input prices (2020 dollars/various units)"

$ONDELIM

$INCLUDE bioref_energy_input_p_withcases.csv

$OFFDELIM

;

*Source: EnergyInputs.Rmd. Energy inputs included here are grid electricity, conventional natural gas, and conventional (grey) hydrogen



TABLE BIOREF_LOCARBON_ENERGY_P(ENERGY_INPUT, units, R, T) "Low-carbon energy input prices (2020 dollars/various units)"

                         #R.(2020*2050)

MWH.2020USD_per_kWh      0.055   

NG.2020USD_per_MMBtu    11.166    

H2.2020USD_per_kg        2

;



*Source: EnergyInputs.Rmd. Energy inputs included here are renewable electricity, renewable natural gas, and low-carbon (green) hydrogen



SCALAR

BIOREFANNFACTOR          "Annualization factor" /15.5/

;
@@ -446,7 +477,14 @@ $OFFDELIM 


EXOGD_CSUPF_CROPS(C,TLASTDECADE) = EXOGD_CSUPF_CROPS(C, "2040");



TABLE EXOGD_CSUPF_MNR(CSUPF,R,T)  "Exogenous (i.e., outside of HTL conversion process) demand levels for manure, at the state level (million dry short tons)"

$ONDELIM

$INCLUDE RNG_externaldemand.csv

$OFFDELIM

;

*Source: Manure_RNG_estimates.Rmd



EXOGD_CSUPF_MNR(CSUPF,R,T)$(YEAR(T) > 2026) = EXOGD_CSUPF_MNR(CSUPF,R,"2026");



TABLE AEO2021_EXOGD_CSUPF_OTHER(AEOCase,C,T)  "Exogenous (i.e., outside of the transportation sector) demand levels for forest residue, MSW, and FOGs national level (million dry tons)"

$ONDELIM
@@ -467,6 +505,7 @@ $OFFDELIM 
*Note: BT23 assessment of forest resource availability is much lower than for BT16. I'm assuming it already accounts for what is used in non-biofuel applications

AEO2023_EXOGD_CSUPF_OTHER(AEOCase, "FRT_SUP_F",T) = 0;





PARAMETER

EXOGD_CSUPF(AEOCase,C,T)   "Exogenous (i.e., outside of the transportation sector) demand levels for biomass feedstocks, national level (million dry tons)"

;
@@ -538,7 +577,7 @@ CRN_SUP_F -1 
CRN_COL_F            1         -1

CRN_TRA_B                       1          -1

CRN_HDL_B                                   1          -1

CRE_DRM_B                                               3.062      -1

CRE_DRM_B                                               2.86       -1

FAJ_CRN_B                                                           0.643 

SAJ_CRN_B                                                           0.480

GAJ_CRN_B                                                           0.113
@@ -594,18 +633,18 @@ GFT_HEC_B 
DFT_HEC_B                                                                                  14.843





+                COL_WEC_F   TRA_WEC_F   HDL_WEC_B   SYG_WEC_B   FTR_WEC_B

+                COL_WEC_F   TRA_WEC_F   HDL_WEC_B   SYG_WEC_B   FTR_WEC_B   PYR_WEC_B



WEC_SUP_F           -1

WEC_COL_F            1         -1

WEC_TRA_B                       1          -1

WEC_HDL_B                                   1           -1

WEC_HDL_B                                   1           -1                       -1 

WEC_SYN_B                                                1          -1

FFT_WEC_B                                                           43.024

SFT_WEC_B                                                           17.613

GFT_WEC_B                                                           10.568

DFT_WEC_B                                                           14.843



BOL_PYR_B                                                                     143.086



+                COL_FRT_F   TRA_FRT_F   HDL_FRT_B   TCH_FRT_B   ATJ_FRT_B   SYG_FRT_B   FTR_FRT_B   PYR_FRT_B
@@ -885,15 +924,19 @@ PJT_TRA_P 1 - 
JFL_DEM_P                                                1                      1





+                TRA_BOL_B   MIX_BOL_T   BLN_P15_T   TRA_P15_T    RET_P15_P

+                TRA_BOL_B   MIX_BOL_T   BLN_P15_T   TRA_P15_T    RET_P15_P   FCC_BOL_R    MXG_BOL_T    MXD_BOL_T



BOL_PYR_B          -1

BOL_TRA_T           1         -1.9611

BOL_TRA_T           1         -1.9611                                           -1

BOL_MIX_T                       1        -0.13367

RFL_MIX_T                                -0.75746

P15_BLN_T                                   1          -1

P15_TRA_P                                               1           -1

RFO_DEM_P                                                            1

BOL_GAS_R                                                                      0.4176          -1

BOL_DES_R                                                                      0.2060                       -1

GAS_MIX_T                                                                                       1

DES_MIX_T                                                                                                    1



+                MIX_RFL_T   TRA_RFL_T   RET_RFL_P
@@ -925,6 +968,19 @@ CO2EQ_COEFFS_Case("FTR_MSW_B", "SFT_MSW_B", "GREET_avtmodule_or_literature", "CO 
CO2EQ_COEFFS_Case("FTR_MSW_B", "GFT_MSW_B", "GREET_avtmodule_or_literature", "CO2e_coeff") = CO2EQ_COEFFS_Case("FTR_MSW_B", "GFT_MSW_B", "ICAO_EPA", "CO2e_coeff");

CO2EQ_COEFFS_Case("FTR_MSW_B", "DFT_MSW_B", "GREET_avtmodule_or_literature", "CO2e_coeff") = CO2EQ_COEFFS_Case("FTR_MSW_B", "DFT_MSW_B", "ICAO_EPA", "CO2e_coeff");



*As initial placeholder, use the same values for fast pyrolysis of forest residue and woody energy crops

CO2EQ_COEFFS_Case("PYR_WEC_B", "BOL_PYR_B", "GREET_avtmodule_or_literature", "CO2e_coeff") = CO2EQ_COEFFS_Case("PYR_FRT_B", "BOL_PYR_B", "GREET_avtmodule_or_literature", "CO2e_coeff");

CO2EQ_COEFFS_Case("PYR_WEC_B", "BOL_PYR_B", "ICAO_EPA", "CO2e_coeff") = CO2EQ_COEFFS_Case("PYR_FRT_B", "BOL_PYR_B", "ICAO_EPA", "CO2e_coeff");





TABLE CI_delta_LC_energy(A,C,ENERGY_INPUT,LCAPARAM) "Reductions in carbon intensity of biorefinery conversion processes when substituting low-carbon energy inputs for conventional energy inputs"

$ONDELIM

$INCLUDE CI_delta_LC_energy.csv

$OFFDELIM

;

*Source: EnergyInputs.Rmd





*======================================================================================

*Elasticity parameters

*======================================================================================
@@ -1005,6 +1061,9 @@ MXD_FWE_T 1.7 1.7 1.7 0 
MXD_FFR_T     1.7      1.7      1.7       0

MXD_FMW_T     1.7      1.7      1.7       0



MXG_BOL_T     1.5      0        1.5       0  {Initial assumption}

MXD_BOL_T     1.7      0        1.7       0  {Initial assumption}



MIX_BOL_T     0        0        0         0

MXH_HSL_T     0        0        0         0

MXH_HMN_T     0        0        0         0
@@ -1102,6 +1161,9 @@ MXD_FHE_T 0 1 0 
MXD_FWE_T      0          1          0

MXD_FFR_T      0          1          0

MXD_FMW_T      0          1          0



MXG_BOL_T      1          0          0

MXD_BOL_T      0          1          0

;



TABLE LCFS_energycontent(AMIXT,R,ECCONVFACT) "Energy content by pathway (MJ per gal)"

data_inputs/CI_delta_LC_energy.csv

0 → 100644
+193 −0
Original line number Diff line number Diff line 
"A","C","energy_input","delta"

"ATJ_CRN_B","DAJ_CRN_B","H2",-3.2706736

"ATJ_CRN_B","DAJ_CRN_B","MWH",-9.1789872

"ATJ_CRN_B","DAJ_CRN_B","NG",-69.106168

"ATJ_CRN_B","FAJ_CRN_B","H2",-3.2706736

"ATJ_CRN_B","FAJ_CRN_B","MWH",-9.1789872

"ATJ_CRN_B","FAJ_CRN_B","NG",-69.106168

"ATJ_CRN_B","GAJ_CRN_B","H2",-3.2706736

"ATJ_CRN_B","GAJ_CRN_B","MWH",-9.1789872

"ATJ_CRN_B","GAJ_CRN_B","NG",-69.106168

"ATJ_CRN_B","SAJ_CRN_B","H2",-3.2706736

"ATJ_CRN_B","SAJ_CRN_B","MWH",-9.1789872

"ATJ_CRN_B","SAJ_CRN_B","NG",-69.106168

"ATJ_FRT_B","DAJ_FRT_B","H2",-3.2706736

"ATJ_FRT_B","DAJ_FRT_B","MWH",0

"ATJ_FRT_B","DAJ_FRT_B","NG",0

"ATJ_FRT_B","FAJ_FRT_B","H2",-3.2706736

"ATJ_FRT_B","FAJ_FRT_B","MWH",0

"ATJ_FRT_B","FAJ_FRT_B","NG",0

"ATJ_FRT_B","GAJ_FRT_B","H2",-3.2706736

"ATJ_FRT_B","GAJ_FRT_B","MWH",0

"ATJ_FRT_B","GAJ_FRT_B","NG",0

"ATJ_FRT_B","SAJ_FRT_B","H2",-3.2706736

"ATJ_FRT_B","SAJ_FRT_B","MWH",0

"ATJ_FRT_B","SAJ_FRT_B","NG",0

"ATJ_HEC_B","DAJ_HEC_B","H2",-3.2706736

"ATJ_HEC_B","DAJ_HEC_B","MWH",0

"ATJ_HEC_B","DAJ_HEC_B","NG",0

"ATJ_HEC_B","FAJ_HEC_B","H2",-3.2706736

"ATJ_HEC_B","FAJ_HEC_B","MWH",0

"ATJ_HEC_B","FAJ_HEC_B","NG",0

"ATJ_HEC_B","GAJ_HEC_B","H2",-3.2706736

"ATJ_HEC_B","GAJ_HEC_B","MWH",0

"ATJ_HEC_B","GAJ_HEC_B","NG",0

"ATJ_HEC_B","SAJ_HEC_B","H2",-3.2706736

"ATJ_HEC_B","SAJ_HEC_B","MWH",0

"ATJ_HEC_B","SAJ_HEC_B","NG",0

"ATJ_STV_B","DAJ_STV_B","H2",-3.2706736

"ATJ_STV_B","DAJ_STV_B","MWH",0

"ATJ_STV_B","DAJ_STV_B","NG",0

"ATJ_STV_B","FAJ_STV_B","H2",-3.2706736

"ATJ_STV_B","FAJ_STV_B","MWH",0

"ATJ_STV_B","FAJ_STV_B","NG",0

"ATJ_STV_B","GAJ_STV_B","H2",-3.2706736

"ATJ_STV_B","GAJ_STV_B","MWH",0

"ATJ_STV_B","GAJ_STV_B","NG",0

"ATJ_STV_B","SAJ_STV_B","H2",-3.2706736

"ATJ_STV_B","SAJ_STV_B","MWH",0

"ATJ_STV_B","SAJ_STV_B","NG",0

"DRM_CRN_B","CRE_DRM_B","H2",0

"DRM_CRN_B","CRE_DRM_B","MWH",-3.6732829696

"DRM_CRN_B","CRE_DRM_B","NG",-73.7417574056035

"FTR_FRT_B","DFT_FRT_B","H2",0

"FTR_FRT_B","DFT_FRT_B","MWH",0

"FTR_FRT_B","DFT_FRT_B","NG",0

"FTR_FRT_B","FFT_FRT_B","H2",0

"FTR_FRT_B","FFT_FRT_B","MWH",0

"FTR_FRT_B","FFT_FRT_B","NG",0

"FTR_FRT_B","GFT_FRT_B","H2",0

"FTR_FRT_B","GFT_FRT_B","MWH",0

"FTR_FRT_B","GFT_FRT_B","NG",0

"FTR_FRT_B","SFT_FRT_B","H2",0

"FTR_FRT_B","SFT_FRT_B","MWH",0

"FTR_FRT_B","SFT_FRT_B","NG",0

"FTR_HEC_B","DFT_HEC_B","H2",0

"FTR_HEC_B","DFT_HEC_B","MWH",0

"FTR_HEC_B","DFT_HEC_B","NG",0

"FTR_HEC_B","FFT_HEC_B","H2",0

"FTR_HEC_B","FFT_HEC_B","MWH",0

"FTR_HEC_B","FFT_HEC_B","NG",0

"FTR_HEC_B","GFT_HEC_B","H2",0

"FTR_HEC_B","GFT_HEC_B","MWH",0

"FTR_HEC_B","GFT_HEC_B","NG",0

"FTR_HEC_B","SFT_HEC_B","H2",0

"FTR_HEC_B","SFT_HEC_B","MWH",0

"FTR_HEC_B","SFT_HEC_B","NG",0

"FTR_MSW_B","DFT_MSW_B","H2",0

"FTR_MSW_B","DFT_MSW_B","MWH",0

"FTR_MSW_B","DFT_MSW_B","NG",0

"FTR_MSW_B","FFT_MSW_B","H2",0

"FTR_MSW_B","FFT_MSW_B","MWH",0

"FTR_MSW_B","FFT_MSW_B","NG",0

"FTR_MSW_B","GFT_MSW_B","H2",0

"FTR_MSW_B","GFT_MSW_B","MWH",0

"FTR_MSW_B","GFT_MSW_B","NG",0

"FTR_MSW_B","SFT_MSW_B","H2",0

"FTR_MSW_B","SFT_MSW_B","MWH",0

"FTR_MSW_B","SFT_MSW_B","NG",0

"FTR_STV_B","DFT_STV_B","H2",0

"FTR_STV_B","DFT_STV_B","MWH",0

"FTR_STV_B","DFT_STV_B","NG",0

"FTR_STV_B","FFT_STV_B","H2",0

"FTR_STV_B","FFT_STV_B","MWH",0

"FTR_STV_B","FFT_STV_B","NG",0

"FTR_STV_B","GFT_STV_B","H2",0

"FTR_STV_B","GFT_STV_B","MWH",0

"FTR_STV_B","GFT_STV_B","NG",0

"FTR_STV_B","SFT_STV_B","H2",0

"FTR_STV_B","SFT_STV_B","MWH",0

"FTR_STV_B","SFT_STV_B","NG",0

"FTR_WEC_B","DFT_WEC_B","H2",0

"FTR_WEC_B","DFT_WEC_B","MWH",0

"FTR_WEC_B","DFT_WEC_B","NG",0

"FTR_WEC_B","FFT_WEC_B","H2",0

"FTR_WEC_B","FFT_WEC_B","MWH",0

"FTR_WEC_B","FFT_WEC_B","NG",0

"FTR_WEC_B","GFT_WEC_B","H2",0

"FTR_WEC_B","GFT_WEC_B","MWH",0

"FTR_WEC_B","GFT_WEC_B","NG",0

"FTR_WEC_B","SFT_WEC_B","H2",0

"FTR_WEC_B","SFT_WEC_B","MWH",0

"FTR_WEC_B","SFT_WEC_B","NG",0

"HTL_MNR_B","DHT_MNR_B","H2",0

"HTL_MNR_B","DHT_MNR_B","MWH",-5.96131225608446

"HTL_MNR_B","DHT_MNR_B","NG",-86.8377129467118

"HTL_MNR_B","FHT_MNR_B","H2",0

"HTL_MNR_B","FHT_MNR_B","MWH",-5.96131225608446

"HTL_MNR_B","FHT_MNR_B","NG",-86.8377129467118

"HTL_MNR_B","GHT_MNR_B","H2",0

"HTL_MNR_B","GHT_MNR_B","MWH",-5.96131225608446

"HTL_MNR_B","GHT_MNR_B","NG",-86.8377129467118

"HTL_MNR_B","HHT_MNR_B","H2",0

"HTL_MNR_B","HHT_MNR_B","MWH",-5.96131225608446

"HTL_MNR_B","HHT_MNR_B","NG",-86.8377129467118

"HTL_SLD_B","DHT_SLD_B","H2",0

"HTL_SLD_B","DHT_SLD_B","MWH",-4.09840217605807

"HTL_SLD_B","DHT_SLD_B","NG",-57.8918086311412

"HTL_SLD_B","FHT_SLD_B","H2",0

"HTL_SLD_B","FHT_SLD_B","MWH",-4.09840217605807

"HTL_SLD_B","FHT_SLD_B","NG",-57.8918086311412

"HTL_SLD_B","GHT_SLD_B","H2",0

"HTL_SLD_B","GHT_SLD_B","MWH",-4.09840217605807

"HTL_SLD_B","GHT_SLD_B","NG",-57.8918086311412

"HTL_SLD_B","HHT_SLD_B","H2",0

"HTL_SLD_B","HHT_SLD_B","MWH",-4.09840217605807

"HTL_SLD_B","HHT_SLD_B","NG",-57.8918086311412

"PYR_FRT_B","BOL_PYR_B","H2",0

"PYR_FRT_B","BOL_PYR_B","MWH",0

"PYR_FRT_B","BOL_PYR_B","NG",0

"PYR_WEC_B","BOL_PYR_B","H2",0

"PYR_WEC_B","BOL_PYR_B","MWH",0

"PYR_WEC_B","BOL_PYR_B","NG",0

"SPD_FOG_B","DHF_FOG_B","H2",-8.164023328

"SPD_FOG_B","DHF_FOG_B","MWH",-1.342031232

"SPD_FOG_B","DHF_FOG_B","NG",-4.87815848394305

"SPD_FOG_B","FHF_FOG_B","H2",-8.164023328

"SPD_FOG_B","FHF_FOG_B","MWH",-1.342031232

"SPD_FOG_B","FHF_FOG_B","NG",-4.87815848394305

"SPD_FOG_B","GHF_FOG_B","H2",-8.164023328

"SPD_FOG_B","GHF_FOG_B","MWH",-1.342031232

"SPD_FOG_B","GHF_FOG_B","NG",-4.87815848394305

"SPD_FOG_B","SHF_FOG_B","H2",-8.164023328

"SPD_FOG_B","SHF_FOG_B","MWH",-1.342031232

"SPD_FOG_B","SHF_FOG_B","NG",-4.87815848394305

"SPD_SOY_B","DHF_SOY_B","H2",-8.164023328

"SPD_SOY_B","DHF_SOY_B","MWH",-1.342031232

"SPD_SOY_B","DHF_SOY_B","NG",-4.87815848394305

"SPD_SOY_B","FHF_SOY_B","H2",-8.164023328

"SPD_SOY_B","FHF_SOY_B","MWH",-1.342031232

"SPD_SOY_B","FHF_SOY_B","NG",-4.87815848394305

"SPD_SOY_B","GHF_SOY_B","H2",-8.164023328

"SPD_SOY_B","GHF_SOY_B","MWH",-1.342031232

"SPD_SOY_B","GHF_SOY_B","NG",-4.87815848394305

"SPD_SOY_B","SHF_SOY_B","H2",-8.164023328

"SPD_SOY_B","SHF_SOY_B","MWH",-1.342031232

"SPD_SOY_B","SHF_SOY_B","NG",-4.87815848394305

"SPJ_FOG_B","DHF_FOG_B","H2",-8.9804256608

"SPJ_FOG_B","DHF_FOG_B","MWH",-1.342031232

"SPJ_FOG_B","DHF_FOG_B","NG",-5.14395922608385

"SPJ_FOG_B","FHF_FOG_B","H2",-8.9804256608

"SPJ_FOG_B","FHF_FOG_B","MWH",-1.342031232

"SPJ_FOG_B","FHF_FOG_B","NG",-5.14395922608385

"SPJ_FOG_B","GHF_FOG_B","H2",-8.9804256608

"SPJ_FOG_B","GHF_FOG_B","MWH",-1.342031232

"SPJ_FOG_B","GHF_FOG_B","NG",-5.14395922608385

"SPJ_FOG_B","SHF_FOG_B","H2",-8.9804256608

"SPJ_FOG_B","SHF_FOG_B","MWH",-1.342031232

"SPJ_FOG_B","SHF_FOG_B","NG",-5.14395922608385

"SPJ_SOY_B","DHF_SOY_B","H2",-8.9804256608

"SPJ_SOY_B","DHF_SOY_B","MWH",-1.342031232

"SPJ_SOY_B","DHF_SOY_B","NG",-5.14395922608385

"SPJ_SOY_B","FHF_SOY_B","H2",-8.9804256608

"SPJ_SOY_B","FHF_SOY_B","MWH",-1.342031232

"SPJ_SOY_B","FHF_SOY_B","NG",-5.14395922608385

"SPJ_SOY_B","GHF_SOY_B","H2",-8.9804256608

"SPJ_SOY_B","GHF_SOY_B","MWH",-1.342031232

"SPJ_SOY_B","GHF_SOY_B","NG",-5.14395922608385

"SPJ_SOY_B","SHF_SOY_B","H2",-8.9804256608

"SPJ_SOY_B","SHF_SOY_B","MWH",-1.342031232

"SPJ_SOY_B","SHF_SOY_B","NG",-5.14395922608385

"TES_SOY_B","BDS_TES_B","H2",0

"TES_SOY_B","BDS_TES_B","MWH",-0.20573592

"TES_SOY_B","BDS_TES_B","NG",-15.6011479493672

data_inputs/CO2EQ_COEFFS.csv

+1 −1
Original line number Diff line number Diff line
@@ -69,7 +69,7 @@ 
"MIX_DES_T","DES_MIX_T","ICAO_EPA",97.0060461620071

"MIX_PJT_T","PJT_MIX_T","ICAO_EPA",93.899984

"MIX_RFL_T","RFL_MIX_T","ICAO_EPA",102.340432

"DRM_CRN_B","CRE_DRM_B","GREET_avtmodule_or_literature",56.06

"DRM_CRN_B","CRE_DRM_B","GREET_avtmodule_or_literature",55.2849344

"TES_SOY_B","BDS_TES_B","GREET_avtmodule_or_literature",28.08

"ATJ_CRN_B","FAJ_CRN_B","GREET_avtmodule_or_literature",70.17177456

"ATJ_CRN_B","SAJ_CRN_B","GREET_avtmodule_or_literature",70.17177456

data_inputs/IO_coeffs.csv

+71 −45

File changed.

Preview size limit exceeded, changes collapsed.