en.Wedoany.com Reported - At 16:00 on July 6, the 4*50 MW wind power project in Dak Lak, Vietnam, invested, constructed, and operated by China Huadian Engineering Co., Ltd., successfully achieved full capacity commercial operation, marking the completion and commissioning of the largest overseas wind power project invested and constructed by China Huadian Corporation Ltd. to date, injecting new momentum into the high-quality joint construction of the "Belt and Road" and promoting the green energy transition in the Southeast Asian region.
The Dak Lak wind power project in Vietnam is located in the communes of Cuong Bon and Gap Bon, Dak Lak Province, approximately 40 kilometers from the regional central city of Buon Ma Thuot. The site boasts excellent wind energy resource endowments and mature conditions for consumption assurance. The project installs a total of 73 wind turbines, with a total installed capacity of 200 MW. Upon full capacity operation, it is expected to deliver an average of approximately 612 million kWh of clean electricity annually, meeting the daily electricity needs of about 240,000 local households, saving 190,000 tons of standard coal and reducing carbon dioxide emissions by 500,000 tons each year.
Additionally, the project actively fulfills the overseas social responsibilities of a central state-owned enterprise, creating over 500 local jobs and effectively driving local employment and industrial income. It has constructed and renovated 68 kilometers of rural mountain roads, significantly improving transportation conditions for local villages and towns and facilitating regional material transport channels. Regular public welfare assistance activities have been carried out, with targeted donations of daily necessities and educational supplies to surrounding villages, towns, and primary and secondary schools, building bridges of friendship between China and foreign countries through tangible livelihood measures, and writing a mutually beneficial overseas development report with a sense of responsibility.










