The Electricity Creation by the Means of Hydro Power Plant
DOI:
https://doi.org/10.55524/Keywords:
Hydropower, Reservoir, River, Turbines, ThermalAbstract
Energy can be produced in a variety of ways, and electricity is one of them. Hydropower plants produce electricity from water, thermal power plants produce electricity from heat, wind energy power plants produce electricity from wind, and geothermal energy plants produce electricity from surface heat. The merits, limits, and uses of the hydro power plant energy producing process were discussed in this article. Hydro power plants are one of the most well-known, efficient, and beneficial energy producing processes. Water is a cost-effective and efficient renewable energy source for power generation. Water-based energy generation has been around for decades and has shown to be a more efficient and effective way to generate power. Dammed reservoirs, run-of-river, pumped storage, in-stream technology, and new technology gravitational vortex are five types of technologies that may be employed to boost power capacity in hydro power plants. The capacity category is further broken down into big power, small power, mini power, and micro and pico hydropower. Advanced technology could not be placed since villages were not as developed as they are now; nevertheless, as villages and countries grow, they are increasingly turning to hydro power plants as a source of electricity, which is growing more popular due to its low cost and efficacy. This document gives an overview of hydroelectric power plants for generating energy, as well as information on hydropower systems and the best turbines to employ.
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Sah MK, Gupta DK, Rani P. Energy Efficient Routing Protocol for Wireless Sensor Networks with Multiple Sinks. In: Proceedings - 2015 2nd IEEE International Conference on Advances in Computing and Communication Engineering, ICACCE 2015. 2015.
Gil-González W, Montoya OD, Garces A. Modeling and control of a small hydro-power plant for a DC microgrid. Electr Power Syst Res. 2020;
Jabbar AH, Alshawi IS. Spider monkey optimization routing protocol for wireless sensor networks. Int J Electr Comput Eng. 2021;
Brennand TP. Wind energy in China: policy options for development. Energy Sustain Dev. 2001;
Lu JY, Hu KF, Yang XC, Hu CJ, Wang TS. A cluster-tree based energy-efficient routing protocol for wireless sensor networks with a mobile sink. J Supercomput. 2021;
Gollin M. Attainment of water regulations and building permit for the new Rhine hydroelectric power plant at Rheinfelden. WasserWirtschaft. 2008;
Kiss T, Andrási G. Characteristics of meander development under human impact - A case study on two bends of the Dráva River. TÁJÖKOLÓGIAI LAPOK. 2015;
Yuniarti N, Hariyanto D, Yatmono S, Abdillah M. Design and Development of IoT Based Water Flow Monitoring for Pico Hydro Power Plant. Int J Interact Mob Technol. 2021;
Vučetić I, Kirin S, Sedmak A, GolA, Golubović T, Lazić M. Risk management of a hydro power plant – fracture mechanics approach. Teh Vjesn. 2019;10. Singh VK, Singal SK. Operation of hydro power plants-a review. Renewable and Sustainable Energy Reviews. 2017.
Kiss T, Andrási G. Kanyarulatfejlodés sajátosságai és antropogén hatások vizsgálata két drávai kanyarulat példáján. J Landsc Ecol. 2015;
Usman N, Alfandi O, Usman S, Khattak AM, Awais M, Hayat B, et al. An energy efficient routing approach for IoT enabled underwater wsns in smart cities. Sensors (Switzerland). 2020;
Castella E, Beguin O, Besacier A, Dolédec S, Forcellini M, Mayor H, et al. What have we learnt? - A multi-year monitoring of invertebrates and fish in the Rhône River under restoration. Integr Sci Sustain Dev Rivers. 2012;
Moura AD. El niño and climate prediction applications in South America. Rev Geofis. 1998;
Habib MA, Moh S. Robust evolutionary-game-based routing for wireless multimedia sensor networks. Sensors (Switzerland). 2019;
Radulescu V. A pilot station using renewable resources to rehabilitate the inefficient small-hydro power plants. In: IOP Conference Series: Materials Science and Engineering. 2019.
Tapia A, Millán P, Gómez-Estern F. Integer programming to optimize Micro-Hydro Power Plants for generic river profiles. Renew Energy. 2018;
Khan MD, Ullah Z, Ahmad A, Hayat B, Almogren A, Kim KH, et al. Energy harvested and cooperative enabled
efficient routing protocol (EHCRP) for IoT-WBAN. Sensors (Switzerland). 2020;
Ali T, Irfan M, Shaf A, Alwadie AS, Sajid A, Awais M, et al. A secure communication in iot enabled underwater and wireless sensor network for smart cities. Sensors (Switzerland). 2020;
Asad M, Nianmin Y, Aslam M. Spiral Mobility Based on Optimized Clustering for Optimal Data Extraction in WSNs. Technologies. 2018;
Marcelino CG, Leite GMC, Delgado CADM, de Oliveira LB, Wanner EF, Jiménez-Fernández S, et al. An efficient multi-objective evolutionary approach for solving the operation of multi-reservoir system scheduling in hydro
power plants. Expert Syst Appl. 2021;
Naeem A, Javed AR, Rizwan M, Abbas S, Lin JCW, Gadekallu TR. DARE-SEP: A Hybrid Approach of Distance Aware Residual Energy-Efficient SEP for WSN. IEEE Trans Green Commun Netw. 2021;
Rivers I. The Hidden Cost of Thailand’s New Power Development Plan. International Rivers. 2015.
Faheem M, Butt RA, Raza B, Ashraf MW, Ngadi MA, Gungor VC. Energy efficient and reliable data gathering using internet of software-defined mobile sinks for WSNs based smart grid applications. Comput Stand Interfaces. 2019;
Bódis E, Nosek J, Oertel N. Spatio-temporal pattern of mussels (Corbiculidae, Dreissenidae, Sphaeriidae) in the water-system of the Hungarian Danube. River Syst. 2008
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