Calculation of improvement action energy mix

This module calculates the energy mix of each id_action_type based on the subsectoral energy mix. To do so, the following equation is necessary:

\(\Delta E_{e, ss, a, y} = \lambda_{e, ss, a, y} \cdot \Delta E_{ss, a, y}\)

\(\lambda_{e, ss, a, y} = \frac{\chi_{e, ss, a} \cdot \lambda_{e, ss, y}}{\sum_e \chi_{e, ss, a} \cdot \lambda_{e, ss, y}} \)

\(\Delta E_{e, ss, a, y} =\) final energy savings of final energy carrier \(e\) for id_action_type \(a\) and subsector \(ss\)

\(\lambda_{e, ss, a, y} =\) action type energy mix (as a share of a given final energy carrier from total final energy consumption within each action type (and subsector))

\(\chi_{e, ss, a} =\) action type energy mix coefficient (calculated here)

\(\lambda_{e, ss, y} =\) subsectoral energy mix (as a share of a given final energy carrier from total final energy consumption within each subsector)