Risk: Low Hydroelectric Power Plant Operational

Sandaowan Hydroelectric Power Plant, China | 112 MW Renewable Energy Facility

China
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Overview

Sandaowan is a 112 MW hydroelectric power plant in China, operational and contributing to the region's renewable energy capacity.

Sandaowan is a hydroelectric power plant located in China, with a capacity of 112 MW. The facility is operational and plays a role in the country's renewable energy generation. Hydroelectric power is a key component of China's energy mix, leveraging its vast water resources. The plant operates under China's regulatory framework for hydropower, which includes environmental impact assessments and water resource management requirements. As a hydroelectric facility, it uses renewable water flow to generate electricity, with typical technology involving turbines and generators. The 112 MW capacity places it in the medium-scale range for hydropower plants in China. Environmentally, hydroelectric plants like Sandaowan produce low direct emissions compared to fossil fuel plants, but they can affect local aquatic ecosystems and water flow. The plant's location in China's inland region supports grid stability and provides clean energy to the area. Its operational status ensures continued contribution to the country's renewable energy targets.

Environmental context

Hydroelectric power generation has a low carbon footprint but can alter river ecosystems and water availability. Sandaowan's operation involves managing water flow and fish passage, typical for such facilities. The plant's location in China's interior may support local energy needs while minimizing air pollution impacts compared to thermal plants.

Frequently asked questions

Sandaowan is located in China, with coordinates approximately 38.30° N, 99.59° E.

Sandaowan has a capacity of 112 megawatts (MW), making it a medium-scale hydroelectric facility.

Sandaowan is a hydroelectric power plant, generating electricity from flowing water.

Hydroelectric plants in China must comply with national environmental impact assessment laws and water resource management regulations, including the Water Law and the Environmental Protection Law.

Hydroelectric power has low greenhouse gas emissions but can affect aquatic ecosystems, water flow, and sediment transport. Proper management and mitigation measures are required to minimize ecological impacts.
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