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The Policy & Measure suggested to develop in a country such as the central Asia Countries a path for renewable energy and energy efficiency should follow a set of guide principle such as:

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.

The Clean Development Mechanism (CDM) stimulates investments on renewable energy projects in developing countries. The carbon asset in the form of certified emission reductions (CERs) generated by CDM projects improves project viability and attracts capital to finance the development of these projects. The entry into force of the Kyoto Protocol creates real demand for CERs from Annex 1 countries and the current policies of many Annex 1 countries, particularly European countries, to supplement emissions reductions from domestic actions with CERs from projects in developing countries result in the creation of carbon funds dedicated to CER procurement. These funds, in turn, leverage equity and debt financing that are necessary to develop the project.

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.

Hydropower is by far the largest source of renewable electricity available today; it produces about 17 % of global electricity. This is more than 20 times the amount produced by other renewable technologies. The future development of hydropower will require its acceptance by governments and the public, and this in turn will mean that social and environmental effects will need to be carefully managed.

Hydropower is very site specific; each project is different from most others and is situated in a particular landscape, climate, ecosystem and human settlement area. This means that few general statements can be made about hydropower, either good or bad, and each project has to be judged on its own merits.

With good planning, good operation, and good mitigation measures, hydropower can remain the principal source of renewable electricity for many decades to come. It can make a valuable contribution to our societies and to the environment.