Assessment of Global Wind Power Generation at Jhimpir Pakistan-A Case Study

Sir Syed University Research Journal of Engineering & Technology Pub Date : 2023-06-28 DOI:10.33317/ssurj.540

Abdul Hameed Soomro, M. Abbasi, Saira Umer, Eman Shaikh

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Abstract

Energy is the key mover for any country’s development. In today’s era, the demand for energy is rapidly increasing and the cost of power is also increasing due to the lack of fossil fuels (coal, gas, and oil). To overcome the increasing demand and worst crises of non-renewable energy resources, the present solution is to move towards renewable energy. Sindh is a province of Pakistan that has the immense capability and prospect of neat and green energy production. The major locations for renewable energy resources are found in the city of Jhimpir, for wind power, in the district of Thatta, Sindh. Wind power generation is clean, eco-friendly, and easily maintainable. Different power companies are intensively taking part in investments to enhance wind generation and overcome the shortage of power in Pakistan. One of the quick promoting renewable energy is wind energy which is founded on freely available natural resources, in Jhimpir Sindh. This study aims to initiate the wind power analysis, total generating capacity, present scenario, and for wind energy present at different sites in Thatta Jhimpir. The comparison between daily data with six-hour data is carried out through statistical analysis at 10m to calculate the wind speed and direction. The private company has carried out the survey to measure the wind speed and compared data from the analysis, reanalysis,and forecast datasets. The geographical location where the mast was installed is 25.1330 N and 67.9950 E. The mast consists of five anemometers for wind speed measurement such as 85m, 60m, 30m, and 10m, and two wind vanes of 83.5m, and 28.5m for measurement of wind direction. The three years of data were used to evaluate the wind data from the datasets for this study. The researchers evaluated the NCEP-NCAR data in the Gharo region using the WRF simulated model at the height of 10m and 30m. In this study, we have analyzed the five datasets NCEP-NCAR, 20C, CFSR, GFS, and NCEP-FNL to measure the wind data at the height of 10m.

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巴基斯坦Jhimpir地区全球风力发电评估——一个案例研究

能源是任何国家发展的关键动力。在当今时代，由于化石燃料(煤、天然气和石油)的缺乏，对能源的需求迅速增加，电力成本也在增加。为了克服不可再生能源日益增长的需求和最严重的危机，目前的解决办法是转向可再生能源。信德省是巴基斯坦的一个省，在清洁和绿色能源生产方面拥有巨大的能力和前景。可再生能源的主要地点位于信德省塔塔地区的Jhimpir市，用于风力发电。风力发电清洁、环保、易于维护。不同的电力公司正在集中参与投资，以加强风力发电，克服巴基斯坦的电力短缺。快速推广的可再生能源之一是风能，它建立在信德省Jhimpir的免费自然资源上。本研究旨在启动风电分析，总发电量，目前的情况，以及在塔塔Jhimpir不同地点的风能。将每日数据与6小时数据进行对比，在10m处进行统计分析，计算风速和风向。这家私营公司进行了这项调查，以测量风速，并比较分析、再分析和预测数据集的数据。桅杆安装的地理位置为北纬25.1330度，东经67.9950度。桅杆由测量85米、60米、30米、10米风速的5个风速计和测量83.5米、28.5米风向的2个风向标组成。这三年的数据被用来评估来自本研究数据集的风数据。研究人员利用WRF模拟模型在10米和30米高度对Gharo地区的NCEP-NCAR数据进行了评估。本研究利用NCEP-NCAR、20C、CFSR、GFS和NCEP-FNL 5个数据集进行了10m高度的风数据测量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sir Syed University Research Journal of Engineering & Technology

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