diff --git a/GAMS/IntExtOpt.gms b/GAMS/IntExtOpt.gms
index c915b7dee1440e64c07afdc8a7d574f22948995e..6e72b6524b224c351c2ed25cfb6fb525d0acc2b8 100644
--- a/GAMS/IntExtOpt.gms
+++ b/GAMS/IntExtOpt.gms
@@ -77,23 +77,10 @@ $load previousLandCoverArea, carbonFluxRate, woodYield, carbonPrice, woodPrice
$load minimumLandCoverArea
$gdxin
-* convert units from $/t to billion$/Mt
+*convert units from $/t to billion$/Mt
carbonPrice = carbonPrice * 0.001;
woodPrice = woodPrice * 0.001;
-* convert units from 1000$/ha to million$/Mha
-* agriExpansionCost(location) = agriExpansionCost(location) * 1000;
-* pastureIncCost = pastureIncCost * 1000;
-* cropIncCost = cropIncCost * 1000;
-* cropDecCost = cropDecCost * 1000;
-* pastureDecCost = pastureDecCost * 1000;
-
-* covert units from 1000$/t to million$/Mt
-* exportPrices(import_crop) = exportPrices(import_crop) * 1000;
-* importPrices(import_crop) = importPrices(import_crop) * 1000;
-
-
-
SCALAR delta use to smooth power function see 7.5 www.gams.com dd docs solversconopt.pdf / 0.00000000001 /;
demand(cereal_crop) = demand('cereals') * minDemandPerCereal(cereal_crop);
@@ -162,7 +149,7 @@ $gdxin
landCoverArea, landCoverChange, woodHarvest;
EQUATIONS
- UNIT_COST_EQ(crop, location) cost per area - million$ per Mha
+ UNIT_COST_EQ(crop, location) cost per area - $1000 per ha or $billion per Mha
YIELD_EQ(crop, location) yield given chosen intensity - tonnes per hectare
CROP_DEMAND_CONSTRAINT(crop) satisfy demand for individual crops
TOTAL_CEREAL_DEMAND_CONSTRAINT satisfy demand for combined cereals
@@ -192,8 +179,8 @@ $gdxin
PASTURE_LAND_COVER_CALC(location) pasture area (land cover) equals pasture area (land use)
MINIMUM_LAND_COVER_CONSTRAINT(location) constraint on land cover conversion
LAND_COVER_CHANGE_CALC(land_cover, location)
- LAND_COVER_CHANGE_CONSTRAINT(land_cover, location)
- LAND_COVER_SELF_CHANGE_CONSTRAINT(land_cover, location)
+ LAND_COVER_CHANGE_CONSTRAINT(land_cover, location) can't convert more land than was previously available
+ LAND_COVER_SELF_CHANGE_CONSTRAINT(land_cover, location) calculate no change area (e.g. cropland to cropland)
WOOD_HARVEST_CALC(location) calc wood harvested
CARBON_FLUX_CALC(location) calc carbon flux
COST_EQ total cost objective function;
@@ -254,14 +241,19 @@ $gdxin
PASTURE_LAND_COVER_CALC(location) .. landCoverArea('pasture', location) =E= cropArea('pasture', location);
- MINIMUM_LAND_COVER_CONSTRAINT(location, land_cover) .. landCoverArea(land_cover, location)) =G= minimumLandCover(land_cover_after, location);
+ MINIMUM_LAND_COVER_CONSTRAINT(location, land_cover) .. landCoverArea(land_cover, location) =G= minimumLandCover(land_cover, location);
LAND_COVER_CHANGE_CALC(land_cover, location) .. landCoverArea(land_cover, location) =E= previousLandCoverArea(land_cover, location) +
sum(land_cover_before, landCoverChange(land_cover_before, land_cover, location)) - sum(land_cover_after, landCoverChange(land_cover, land_cover_after, location));
+* LAND_COVER_CHANGE_CALC(land_cover, location) .. landCoverArea(land_cover, location) =E= sum(land_cover_before, landCoverChange(land_cover_before, land_cover, location)) -
+* sum(land_cover_after, landCoverChange(land_cover, land_cover_after, location));
+
+
+
LAND_COVER_CHANGE_CONSTRAINT(land_cover, location) .. sum(land_cover_after, landCoverChange(land_cover, land_cover_after, location)) =L= previousLandCoverArea(land_cover, location);
- LAND_COVER_SELF_CHANGE_CONSTRAINT(land_cover, location) .. landCoverChange(land_cover, land_cover, location) =E= 0;
+ LAND_COVER_SELF_CHANGE_CONSTRAINT(land_cover, location) .. landCoverChange(land_cover, land_cover, location) =E= previousLandCoverArea(land_cover, location) - sum(land_cover_after$[not sameAs(land_cover, land_cover_after)], landCoverChange(land_cover, land_cover_after, location));
WOOD_HARVEST_CALC(location) .. woodHarvest(location) =E= sum((land_cover_before, land_cover_after), landCoverChange(land_cover_before, land_cover_after, location) * woodYield(land_cover_before, land_cover_after, location));
@@ -341,4 +333,3 @@ $gdxin
Scalar ms 'model status', ss 'solve status';
ms=LAND_USE.modelstat;
ss=LAND_USE.solvestat;
-