* Check values to correspond the need in the model 'mpsge_all.gms'
* Follow Rive and Mideksa (2009)

Parameter
eR(y,r)  elasticity of primary energy production at the top level: natural resources and all other inputs
eM(y,r)  elasticity of non-electricity production at the level of intermediate inputs and value added and (natural resources for non-primary energy sectors)
eVA(y,r) elasticity of non-electricity production at the level of primary inputs: labor and capital and (natural resources for non-primary energy sectors)
eKLE(y,r) elasticity of non-electricity and non-primary energy production at the level of primary inputs and energy inputs
eENE(y,r) elasticity in other sectors at the level of electricity and non-electricity inputs
eNEL(y,r) elasticity in other sectors at the level of all non-electricity inputs: gas coal oil and refineries

eJTOP(j,r) top level elasticity in households (or government or investors) consumption
eJENE(j,r) elasticity in households consumption wrt energy use: coal-gas-oil-refineries-electricity
eJNEN(j,r) elasticity in households consumption wrt non-energy use

eARM(y,r)  elasticity of composite goods wrt domestic production and total imports (not HO-toggle)
eIMP(y)   elasticity of composite goods wrt domestic production and imports - all assumed to be homogenous (HO-toggle)

eRG(y,r)  elasticity of electricity production at the top level: non-intermittent power and intermittent power
;

*        Initial values for all production sectors
eM(i,r) = 0;
eKLE(i,r) = 0.5;
eVA(i,r) = 0.3;
eENE(i,r) = 0.5;
eNEL(i,r) = 1;

*       specific for primary fossil fuels sectors
eR(i,r)$ipep(i) = 0.3;
eM(i,r)$ipep(i) = 0;
eVA(i,r)$ipep(i) = 0.3;

*electricity
eVA(i,r)$ielc(i) = 0.3;
eRG(i,r)$ielc(i) = 0.7;

*        Household
eJTOP(j,r) = 0.25;
eJENE(j,r) = 0.4;
eJNEN(j,r) = 0.4;

*        Trade
eIMP(i) = 6;
eARM(i,r) = 3;
eIMP(i)$ielc(i) = 0.3;
eARM(i,r)$ielc(i) = 0.5;
eARM(i,r)$iref(i) = 6;
eIMP(i)$(igas(i) or icol(i)) = 4;