on-line sulfur abatement supervisory system of coal-fueled plants in inner mongolia power grid, supported by inner mongolia electric power (group) co. ltd (2006-2007).
min yong (professor), hu wei (associate professor), chen lei (postdoctor)
the project realizes the real-time supervision of running status of sulfur abatement equipment in power plants, and accomplishes the settlement of sulfur abatement electricity price.
on-line electric and environmental protection supervisory system of high energy consumption load, supported by xuejiawan electric power bureau (2007-2008).
min yong (professor), hu wei (associate professor), chen lei (postdoctor)
this project developed an on-line electric and environmental protection supervisory system of high energy consumption load. the system used power system supervising technologies and wireless communication technologies.
research on the key technologies of distribution network energy saving and loss reduction based on distributed wind generation, supported by state key lab of power systems (2008-2010).
lu zongxiang (associate professor), qiao ying (postdoctor), wang caixia (doctor), chen huifen (doctor)
this project studies the technologies of distribution network energy saving and loss reduction using distributed wind generation.
l power forecasting of wind farms and its application in inner mongolia power grid, supported by inner mongolia electric power (group) co., ltd (2008-2010).
min yong (professor), lu zongxiang (associate professor), qiao ying (postdoctor), wang caixia (doctor)
using weather forecasting technologies and wind generation technologies, the project carries out a research on the power forecasting of wind farms.
research on the reactive power and voltage problems of large scale grid connected wind farms, supported by inner mongolia north longyuan wind power co. ltd (2008-2009)
lu zongxiang (associate professor), qiao ying (postdoctor), wang caixia (doctor), chen huifen (doctor)
large amount of wind generation may cause voltage problems such as voltage dips and ineligible power factors. the project carries out the research on reactive power compensation of wind farms to solve these problems.