Ten Year Network Development Plan 2015 Annex C 1 |

11

LU (LUXEMBOURG)

Final gas demand

The demand figures provided for Scenarios A and B are identical.

Power generation  – general methodology

The electricity sector in Luxembourg is characterized by the important role of the

electricity imports and the lack of coal-fired power generation. Due to the lack of

competing technology, the general methodology provides a single value for Luxem-

bourg’s gas demand for power generation, which is equal to the thermal gap, instead

of a demand range.

LV (LATVIA)

Final gas demand

The TSO submitted the inputs for the general methodology. No further comments

have been reported.

Power generation  – general methodology

The Latvian electricity sector is characterized by the lack of coal-fired power gener-

ation. Due to the lack of competing technology, the general methodology provides a

single value for Latvia’s gas demand for power generation, which is equal to the ther-

mal gap, instead of a demand range.

MK (FYROM)

Final gas demand

The values in the GREEN scenario are much higher than the predictions in the

GREY scenario and this is directly connected with the evolution in the power gener-

ation sector. The values of gas demand for commercial, residential and industrial

customers under normal climatic conditions without power generation are approxi-

mately 47% higher in the GREEN scenario.

Power generation  – general methodology

The assessment of FYROM power generation was not carried out following the

general methodology. The values for gas demand in the GREEN scenario for power

generation are 15 times higher compared to the GREY scenario. This is directly

related to the development of the power generation sector. In the report »Strategy for

the Energy Development in the Republic of Macedonia until 2030«, issued by

Ministry of Economy, the construction of two gas-cogeneration plants with a capac-

ity of 250MW electrical power each, are forecasted. This would lead to an increase

in gas demand up to 1,100million Nm

3

/ year, until 2020.