Quaid-e-Azam太阳能园区的优化，引入轴向跟踪，以增加年能量收获

2019 3rd International Conference on Energy Conservation and Efficiency (ICECE) Pub Date : 2019-10-01 DOI:10.1109/ECE.2019.8921208

M. Latif, Tallal Ahmed, W. Khalid, Muhammad Ammar Yaqoob, Wajahat Sultan

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引用次数: 2

摘要

随着能源需求的指数级增长和对火力发电的高度依赖，巴基斯坦面临着严重的能源安全问题。收获可再生能源是实现绿色可持续能源的前进方向。巴基斯坦拥有得天独厚的战略位置，全年都能获得最佳的太阳照射。安装太阳能光伏组件来收集能量。随着太阳轨迹的变化，为了提高太阳能的收成，光伏系统配备了太阳能跟踪器，以提高能源产量。位于巴哈瓦尔布尔的Quaid-e-Azam太阳能公园是巴基斯坦政府确定可再生能源方向的里程碑式项目。发电园内的太阳能电池阵列以32°的固定角度设置。本研究考虑了单轴和双轴跟踪系统通过改变倾斜角度在产量中得到的结果。在PV系统和RETScreen软件上进行了模拟，以表明优化潜力及其对减少温室气体排放的转化。结果表明，采用单轴跟踪器和双轴跟踪器后，Quaid-e-Azam太阳能发电的年发电量分别提高了16.71%和22.40%。此外，采用单轴和双轴跟踪，优化后的温室气体排放量分别减少了17.8%和24.65%。

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optimization of Quaid-e-Azam Solar power park introducing axial tracking for the increase in Annual Energy Harvest

With the exponential increase in the Energy demand and high reliance on thermal generation, Pakistan is having severe energy security issues. Harvesting of renewable energy for the achievement of green sustainable energy is the way forward. Pakistan is blessed with a strategic location having highly optimum solar irradiation throughout the year. Solar PV modules are installed to harvest the energy. With the changing sun trajectory along the year, to improve the harvesting, PV systems are equipped with solar tracker that improves the energy yield. Quaid-e-Azam Solar Power Park in Bahawalpur is a landmark project by Government of Pakistan to set the orientation towards renewable energy. The solar arrays in the power park are set at a fixed angle of 32°. This study takes into consideration the results obtained in the yield by the alteration of tilt angles using the single-axis and dual-axis tracking systems. The simulations are carried out on the PV SYST and RETScreen software to indicate the optimization potential and its translation to reduction in GHG emissions. The results obtained indicates an improvement of 16.71% and 22.40% respectively in the annual yield of the Quaid-e-Azam solar power using single and dual axis tracker respectively. In addition to this, the optimization tends to the further reduce the GHG emissions by 17.8% and 24.65% employing single and dual axis tracking.

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来源期刊

2019 3rd International Conference on Energy Conservation and Efficiency (ICECE)

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