Department of Electrical and Electronic Engineering, Bangladesh Army International University of Science and Technology (BAIUST), Cumilla, BD.
School of Information Science, Nara Institute of Science and Technology (NAIST), Ikoma, Nara, Japan.
PLoS One. 2021 Oct 11;16(10):e0257645. doi: 10.1371/journal.pone.0257645. eCollection 2021.
Renewable energy has become the most prominent source of energy to reduce carbon emissions around the globe. Undoubtedly, hydro energy is very much clean energy among other sources. In Bangladesh, hydro energy is available only in a specific southern area contributing several hundred megawatts to the national grid. This paper devotes to assessing the capacity and practicability of a hydropower plant to boost the power output by implementing the combined cycle hydropower system. The proposed method has been developed by 1) studying the existing plant based on surveyed data, 2) selecting the site for installing the hydrokinetic turbine, 3) designing with consideration of numerous constraints of inter dependability, and 4) creating a prototype model to ensure the practicability. Preliminary results show that a significant amount of additional electric energy can be generated from the plant with higher efficiency.
可再生能源已成为减少全球碳排放的最主要能源。无疑,在其他能源中,水能是非常清洁的能源。在孟加拉国,水能仅在特定的南部地区可用,为国家电网提供数百兆瓦的电力。本文致力于评估通过实施联合循环水力发电系统来提高水电站容量和实用性的能力。该方法是通过以下步骤开发的:1)根据调查数据研究现有工厂,2)选择安装水轮机的地点,3)设计时考虑到相互依存的众多限制,以及 4)创建原型模型以确保实用性。初步结果表明,该工厂可以以更高的效率产生大量额外的电能。
