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首页> 外文期刊>International journal of green energy >A comprehensive assessment of solar and wind energy potential at the University of Lethbridge campus, a medium-sized western Canadian university
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A comprehensive assessment of solar and wind energy potential at the University of Lethbridge campus, a medium-sized western Canadian university

机译:莱斯布里奇校区大学太阳能和风能潜力综合评估

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摘要

Solar photovoltaic (PV) and wind turbine technologies play a significant role in the world energy future. However, lack of awareness of the potential and relative value of renewables is a significant challenge in sustainable energy development. The potential of solar and wind energy sources in producing electricity to meet the electrical demands of the University of Lethbridge has been evaluated. Utilizing Light Detection And Ranging (LiDAR) data and aerial photography to assess the solar photovoltaic electricity potential and wind turbine power curve concept to estimate the wind turbine electricity potential, a feasibility assessment for campus solar PV and wind turbine installations has been conducted. A comparison of the resulting solar PV and wind turbine generation over 5 years with the university electrical demand revealed that wind turbine and solar PV systems together could generate more than 3.6 times of the annual electricity consumption of the university on average. There is 1,015,808 m2 of suitable area available for placing a 46 MW solar PV system on the campus which would produce about 2.8 times of the university annual electricity usage on average. In addition, the proposed wind system could cover about 84% of the university electricity demand annually on average. Employing this system, the annual electricity cost of the university could decrease more than 90%. By installing renewable systems, the university can achieve a sustainable energy future.
机译:太阳能光伏(PV)和风力涡轮机技术在世界能源未来发挥着重要作用。然而,缺乏对可再生能源的潜在和相对价值的认识是可持续能源发展中的重大挑战。已经评估了在生产电力以满足Lethbridge大学的电气需求时的太阳能和风能来源的潜力。利用光检测和测距(LIDAR)数据和航空摄影来评估太阳能光伏电势和风力涡轮机电源曲线概念,以估计风力涡轮机电位,已经进行了校园太阳能光伏和风力涡轮机装置的可行性评估。在大学电气需求下,5年来的所得太阳能光伏和风力涡轮机的比较显示,风力涡轮机和太阳能光伏系统在一起可能产生平均大学年电力消耗3.6倍以上的3.6倍。有1,015,808平方米的合适区域可在校园内放置46兆瓦太阳能光伏系统,平均会产生约2.8倍的大学年电力使用量。此外,拟议的风系统可以平均涵盖大约84%的大学电力需求。采用该系统,大学的年电费可以减少超过90%。通过安装可再生系统,大学可以实现可持续的能源未来。

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