You are here


Second winter for 75,000 m² SDH heating system in Inner Mongolia

Submitted by Baerbel Epp on April 11, 2018
Photo: Sohu.comSince October 2016, a 75,000 m² parabolic trough collector field for district heat seems to have been operating in Inner Mongolia, an autonomous region in China. Ruicheng Zheng from the China Academy of Building Research and Hongzhi Cheng said that they had heard about the system, but that all the information on it was only available online. On 28 December 2017, a news article appeared on, one of China’s largest online media companies, stating that the system supplied a shopping centre and a development project known as ZhongCheng International City in the village of HongQing De, near Baotou. The journalist who interviewed the owners of the residential buildings and the shopping centre found customers satisfied with the solar space heating that the system provides. 

Non-Tracking Wide-Angle Concentrators for Industrial Process Heat (2014)

Submitted by Francesco Gattiglio on October 31, 2014

This presentation was presented at the 2014 UC Solar Research Symposium held in San Francisco at the University of California on 17 October 2014. The author of this Solar Heat for Industrial Processes Project is Professor Roland Winston, Director of the Advanced Solar Technologies Institute at the University of California Merced.

Mongolia: Cost-Effective Solar Process Heat Collector for Harsh Climates

Submitted by Baerbel Epp on September 12, 2014
MongoliaWith an annual mean temperature of zero °C, Ulaanbaatar is considered the coldest capital in the world. This is not its only superlative, however, as the Mongolian city is also said to be the one with the worst air pollution worldwide. Around half of the country’s population of three million lives in the capital, where they get their electricity from outdated coal power plants and their heat from coal stoves. Because Mongolia is also known as the “Land of the Blue Sky” due to its more than 250 sunny days per year, setting up solar thermal systems seems to be an ideal measure to combat the high air pollution levels. Ordinary solar water heaters, however, would hardly be able withstand the extremely cold winter weather with daily temperatures of between minus 10 and 40°C. 
Photo: Mongolian National University (MNU)

Search results

  • Country : Mongolia