CFD Analysis of the Most Favorable Gap Between the Main Runner and Booster Runner of Gravitational Water Vortex Turbine
- سال انتشار: 1401
- محل انتشار: مجله انرژی تجدیدپذیر و محیط زیست، دوره: 9، شماره: 2
- کد COI اختصاصی: JR_JREE-9-2_008
- زبان مقاله: انگلیسی
- تعداد مشاهده: 341
نویسندگان
Department of Mechanical Engineering, Purwanchal Campus, Institute of Engineering, Tribhuvan University, Dharan-۰۸, Nepal
Department of Mechanical Engineering, Purwanchal Campus, Institute of Engineering, Tribhuvan University, Dharan-۰۸, Nepal
Department of Mechanical Engineering, Purwanchal Campus, Institute of Engineering, Tribhuvan University, Dharan-۰۸, Nepal
Department of Mechanical Engineering, Purwanchal Campus, Institute of Engineering, Tribhuvan University, Dharan-۰۸, Nepal
Department of Mechanical Engineering, Purwanchal Campus, Institute of Engineering, Tribhuvan University, Dharan-۰۸, Nepal
Department of Mechanical Engineering, Shahrekord Branch, Islamic Azad University, Shahrekord, Iran
Department of Mechanical Engineering, Purwanchal Campus, Institute of Engineering, Tribhuvan University, Dharan-۰۸, Nepal
چکیده
The Gravitational Water Vortex Power Plant (GWVPP) is a power generation system designed for ultralow head and low flow water streams. Energy supply to rural areas using off-grid models is simple in design and structure and sustainable to promote electricity access through renewable energy sources in the villages of Nepal. The objective of this study is to determine the most favorable gap between the booster and main runners of a Gravitational Water Vortex Turbine (GWVT) to ensure maximum power output of the GWVPP. CFD analysis was used to evaluate the ۳۰ mm gap between the main and booster runners, which was the most favorable gap for enhancing the plant’s power. In this study, the optimum power and economic analysis of the entire plant was conducted in the case of mass flow rates of ۴ kg/s, ۶ kg/s, and ۸ kg/s. The system was modeled in SolidWorks V۲۰۱۶ and its Computational Fluid Dynamic (CFD) analysis was performed utilizing ANSYS R۲ ۲۰۲۰ with varying multiple gaps between the main and booster runners to determine the most favorable gap of the plant’s runner. This research concluded that optimum power could be achieved if the distance of the main runner’s bottom position be fixed at ۱۶.۷۲ %, i.e., the distance between the top position of the conical basin and the top position of the booster runner. At a mass flow rate of ۸ kg/s, the plant generated maximum electric energy (۳,۹۹۸,۷۱۹.۶ kWh) comparatively and economically contributed ۲۶۸,۸۷۰.۱۰ USD on an annual basis.کلیدواژه ها
Low head MHP, Computational Fluid Dynamic (CFD), Vortex Turbine, Booster Runner, Main Runnerاطلاعات بیشتر در مورد COI
COI مخفف عبارت CIVILICA Object Identifier به معنی شناسه سیویلیکا برای اسناد است. COI کدی است که مطابق محل انتشار، به مقالات کنفرانسها و ژورنالهای داخل کشور به هنگام نمایه سازی بر روی پایگاه استنادی سیویلیکا اختصاص می یابد.
کد COI به مفهوم کد ملی اسناد نمایه شده در سیویلیکا است و کدی یکتا و ثابت است و به همین دلیل همواره قابلیت استناد و پیگیری دارد.