X
Xi Lu
Researcher at Tsinghua University
Publications - 66
Citations - 3738
Xi Lu is an academic researcher from Tsinghua University. The author has contributed to research in topics: Wind power & Renewable energy. The author has an hindex of 25, co-authored 58 publications receiving 2227 citations. Previous affiliations of Xi Lu include Harvard University.
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Journal ArticleDOI
Global potential for wind-generated electricity
TL;DR: The analysis indicates that a network of land-based 2.5-megawatt turbines restricted to nonforested, ice-free, nonurban areas operating at as little as 20% of their rated capacity could supply >40 times current worldwide consumption of electricity, >5 times total global use of energy in all forms.
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Change in household fuels dominates the decrease in PM2.5 exposure and premature mortality in China in 2005-2015.
Bin Zhao,Haotian Zheng,Shuxiao Wang,Kirk R. Smith,Xi Lu,Kristin Aunan,Yu Gu,Yuan Wang,Dian Ding,Jia Xing,Xiao Fu,Xudong Yang,Kuo-Nan Liou,Jiming Hao +13 more
TL;DR: It is suggested that household-fuel use be more highly prioritized in national control policies, considering its effects on PM2.5 exposures, and that clean household heating fuels have become part of recent control policies in northern China.
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Progress of Air Pollution Control in China and Its Challenges and Opportunities in the Ecological Civilization Era
Xi Lu,Shaojun Zhang,Jia Xing,Yunjie Wang,Wenhui Chen,Dian Ding,Ye Wu,Shuxiao Wang,Lei Duan,Jiming Hao +9 more
TL;DR: Wang et al. as mentioned in this paper analyzed the three-decade progress of air pollution controls in China, highlighting a strategic transformation from emission control toward air quality management with an emphasis on their complex photochemical interactions.
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Reducing curtailment of wind electricity in China by employing electric boilers for heat and pumped hydro for energy storage
Ning Zhang,Xi Lu,Xi Lu,Michael B. McElroy,Chris P. Nielsen,Xinyu Chen,Yu Deng,Chongqing Kang +7 more
TL;DR: In this article, an improved unit-commitment based power system chronological simulation is applied to evaluate potential benefits from PHS and EBs in West Inner Mongolia (WIM), where CHP capacity is projected to increase to 33.8 GW by 2020.
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China’s CO2 peak before 2030 implied from characteristics and growth of cities
Haikun Wang,Xi Lu,Yu Deng,Yaoguang Sun,Chris P. Nielsen,Yifan Liu,Ge Zhu,Maoliang Bu,Jun Bi,Michael B. McElroy +9 more
TL;DR: In this paper, a Monte Carlo approach is used to simulate the peak of per capita emissions using a Kuznets function based on China's historical emissions, which predicts that emissions in China could peak between 2021 and 2025, well ahead of the Paris target of 2030.