Relevant bibliographies by topics / Mini hydro power plant

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Mini hydro power plant'

Author: Grafiati
Published: 5 June 2025
Last updated: 15 July 2025

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Journal articles on the topic "Mini hydro power plant"

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Gupta, Shyam Sundar. "A Mini-Hydro Turbine as a Solution to Power Challenges in a Society with plenty of Water." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 01 (2025): 1–9. https://doi.org/10.55041/ijsrem40692.

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The mini hydro turbine research is aimed at designing and constructing a hydro-electric power plant model that can generate electric power, which can be used at the domestic level to power electrical appliances. There are three main sections for the hydro turbine, such as the pelton wheel which rotate due to falling water from the water storage tank through the penstock, the alternator, been made of a permanent magnet rotor and conducting coil windings on the stator connected to the turbine through a runner, and the feedback system for the continuous flow of water. The result shows that the construction of mini hydro turbine plant is feasible and there were no major problems apparent at the design and implementation stages of the mini hydro turbine power plant. Keywords- Head, Pelton Turbine, Efficiency, Reliability, Alternator
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Adetunmbi, AO, and OI Dare Adeniran. "Design of a mini hydro-electric power plant." International Journal of Multidisciplinary Research and Growth Evaluation 5, no. 1 (2024): 18–21. http://dx.doi.org/10.54660/.ijmrge.2024.5.1.18-21.

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The core concept of hydropower centers on capturing the energy produced as water moves from a higher elevation to a lower one. This involves utilizing the resulting water pressure to generate electrical energy. This practical application of hydropower generation theory entails the design and installation of a mini hydropower plant. To assess its performance, a storage tank was strategically positioned at the maximum height to optimize water pressure, and a plastic pipe was employed for transportation. The construction of a turbine and generator, along with the subsequent assembly of their respective components, constitutes the formation of the hydropower plant. The hydro turbine converts water pressure into mechanical shaft power, propelling the electric generator. The outcome is an alternating electromotive force (e.m.f) of 210 Volts at a frequency of 50 Hz, suitable for powering various household electrical appliances.
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Rizal, Yose, Suryana Bayu Wijaya, Syahid Tri Kusuma Wijaya AL Muhyi, and Muhamad Taufik. "Rancang Bangun Turbine Micro Hydro." Jurnal Inovasi Mesin 5, no. 1 (2023): 14–20. http://dx.doi.org/10.15294/jim.v5i1.69967.

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Ilchyshyn, Y. "Environmental threats of build mini-plant cascade in the river Cheremosh." Visnyk of the Lviv University. Series Geography, no. 45 (May 20, 2014): 403–7. http://dx.doi.org/10.30970/vgg.2014.45.1201.

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The article coverage the development issues Carpathian cascade mini-hydro-plants for example basin Cheremosh. It was the influence of existing hydro power plants in natural (water) environment and proved inappropriate, unprofitable and environmental threat. Available mini water plants violate hydrologic regime (water content of the river) and stimulates the development of erosion-accumulative processes, endangered species and benthic organisms integral component of aquatic ecosystems. Operation of small hydropower plants also contributes to shallowing of rivers and creation of artificial barriers for migration and gene pool exchange between populations of aquatic animals. The construction of mini hydro cascade prevents alloys of the river (rafting). In addition there is a threat of ecological security of the region and the development tourism and recreation, social and economic potential of the basin, the Cheremosh. Key words: mini-hydro, river Cheremosh, water quality, environmental hazards, hydrology, hydroecology.
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Maulana, Muhamad Hakim, and Rinaldy Dalimi. "TECHNO ECONOMIC ANALYSIS OF BASIC PRICES OF SURFACE WATER FOR MINI-HYDRO POWER PLANTS." Proceedings of the 1st International Conference on Social Science (ICSS) 1, no. 1 (2022): 482–87. http://dx.doi.org/10.59188/icss.v1i1.63.

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Studies this analyze application Policy price base water surface to generator electricity minihydro (PLTM) Where the mini-hydro power plant is also alternative for Upgrade ratio electrification in area remote areas so that they can help PLN as a company electricity owned by country which have not quite enough answer Upgrade ratio electrification areas isolated which still have limitations in use energy. The mini-hydro power plant utilizes water discharge as a raw materials to flow to the penstock and then to turbine and turbine the rotate generator for awaken energy electricity and water which has pass process flowed back to the river so that the water does not run out in use at the time of PLTM electricity production. But the government give rule to para investors private nor in country for pay price base water surface. This policy makes investors power generators mini-hydro power began to decrease. This study is expected to provide solutions for investors and entrepreneurs domestic companies wishing to invest in power plants power minihydro
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Abera, Tadele, and Firew Dereje. "ASSESSMENT OF DABENA MINI HYDRO POWER PLANT AT DABENA RIVER." International Journal of Engineering Technologies and Management Research 7, no. 11 (2020): 30–38. http://dx.doi.org/10.29121/ijetmr.v7.i11.2020.810.

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The number of electricity users is increasing with the increase of fuel cost and environmental pollution. The mini hydro power has grown as an alternative energy source that can be easily constructed with the minimal environmental impact. This research access the mini hydro power plant implemented on Dabena River 50 years ago by German missionaries. But it is not functioning these days. The available Gross head of the river measured using a GPS receiver and was found to be 11.5m. It has a potential for producing 150 KW. With this output power, we can supply Bedelle Agricultural and Forestry College under Mettu University and nearby rural area. Having the head, flow rate and output power of the river into consideration, the turbine selected was cross flow turbine with specific speed of 243 rpm, runner diameter of 52 cm, runner length of 82 cm, blade radius 17 cm and blade number of 18. 24 poles synchronous motor was selected as the Generator with rotational speed of 250 rpm. International renewable energy agency cost analysis was used to analyze financial viability of the project. The annual energy production estimated was 289,908kwh and the anticipated revenue to be generated is 136,256 birr. The initial cost of the project estimated to be 2.475 million birr.
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Bitar, Zeina, Imad Khamis, Ziad Alsaka, and Samih Al Jabi. "Pre-feasibility Study for Construction of Mini Hydro Power Plant." Energy Procedia 74 (August 2015): 404–13. http://dx.doi.org/10.1016/j.egypro.2015.07.638.

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Mulyono, Mulyono, and Hanny J. Berchmans. "DESIGN AND SIMULATION OF WATER LEVEL MONITORING AND CONTROL SYSTEM IN MINI HYDRO POWER PLANT." Proceedings of The Conference on Management and Engineering in Industry 1, no. 1 (2019): 13–16. http://dx.doi.org/10.33555/cmei.v1i1.14.

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In common mini hydro power plants in Indonesia, the control of water levels in intake, sand-trap and head pond is carried out manually. This conventional manual control system may cause damages of waterway and all its components due to overflow or transient flow of water during load shedding or black out of electricity grid. The damages eventually may increase cost of maintenance and increase the risk of waterway collapse or excessive water hammer in penstock pipe. This type of collapses often happen in many mini hydro power plants in Indonesia. The risk of damages can be reduced by installing water level control and monitoring system in all key water way components such as in intake, sand-trap and head pond. Some other mini hydro power plants have installed water level control and monitoring system. But the price of such control system is still very expensive and high operation and maintenance cost. Thus, this thesis work designs and simulates simple and inexpensive the water level control and monitoring system for a mini hydro power plant. In this thesis work, the design and simulation of the water level control and monitoring system are carried out by a simulated three water tanks where the water levels in the tanks are monitored and controlled by using ultrasonic level sensors and motorized valves respectively. A simple and inexpensive Arduino based water level control and monitoring system is successfully designed to fulfil the requirement of quick or fast respond for water level control in the simulated model.
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Anjukrishna, A. S., and Joseph Jikhil. "A Mini-Hydro Power Plant to Support the Sustainability of the Urban Water-Energy Nexus." Journal of Environmental Engineering and its Scope 8, no. 1 (2025): 52–69. https://doi.org/10.5281/zenodo.15074547.

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<em>The increasing demand for energy and water in urban areas presents a critical challenge for sustainable development. The integration of renewable energy sources, particularly mini hydropower plants, offers a promising solution to enhance the urban water-energy nexus. It looks into the shift to an ecological and systemic approach to deal with the complexity of the urban environment and energy supply infrastructure. The study looks into the Municipality of Turin's and Piedmont Region's sustainable energy framework. It specifically examines the potential that urban rivers and streams offer for setting up mini-hydro power plants utilizing historically underutilized infrastructure.</em><em> Through an analysis of existing case studies and technological advancements, environmental and economic benefits of mini hydropower are examined. The seminar also addresses the technical, regulatory, and social challenges associated with implementing mini hydropower plants in urban environments and proposes strategies to overcome these barriers. By fostering an integrated approach to water and energy management, mini hydropower plants can play a pivotal role in advancing urban sustainability and contributing to global efforts to combat climate change.</em> <em>&nbsp;</em>
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Celikdemir, Soner, Burak Yildirim, and Mahmut Temel Ozdemir. "COST ANALYSIS OF MINI HYDRO POWER PLANT USING BACTERIAL SWARM OPTIMIZATION." International Journal of Energy and Smart Grid 2, no. 2 (2017): 64–81. http://dx.doi.org/10.23884/ijesg.2017.2.2.05.

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Dissertations / Theses on the topic "Mini hydro power plant"

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Whittaker, Keith Duncan. "Micro and mini hydro-power in Papua New Guinea." Thesis, University of Edinburgh, 1988. http://hdl.handle.net/1842/14664.

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Altzar, Oskar. "Crack initiation in hydro power plant rotor rim sheets : A failure case study for Juktan hydro power plant." Thesis, KTH, Materialvetenskap, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-152588.

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In 2013, cracks were found in the radius of the dovetail slots of the rotor rim sheets in generator 1 of Juktan hydro power plant in Västerbotten, Sweden. The cracks were estimated to be too deep to be able to repair and Alstom conducted an investigation on the cause of fracture. The investigation came to the conclusion that the radius was too small and that the new rotor rim sheets should have a six times greater fillet radius. However, it has not been investigated whether the material structure or the manufacturing process may have an impact on the crack initiation and following propagation that is the focus of this report.Parts of the dovetail slots were cut out and characterized with XRF, SEM and LOM. Further mechanical characterizations were done according to Vickers.From the SEM and LOM micrographs a high amount of large (10μm) and cubic particles were found in the microstructure. The micrographs also showed a deformation of the microstructure and the hardness test showed a deformation hardening near the edge where the sheet had been punched. The edge surface of the sheet also had notches.The large and hard particles in the microstructure impair the mechanical properties of the steel. Furthermore, the hardening effect combined with the notches will make a good crack initiation point. Therefore, there is a higher possibility that a crack will initiate in the radius of the dovetail slots where large stresses occur.
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Teferi, Tessema Girum. "Feasibility Study on Mini-hydroelectric Power Plant for Rural Electrification." Thesis, KTH, Energiteknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-216985.

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Doig, Alison. "Energy resources and the role of mini and micro hydro power in northern India." Thesis, University of Edinburgh, 1994. http://hdl.handle.net/1842/13675.

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This thesis contends that development of mini and micro hydro power (MHP) resources can be both effective and beneficial for the development of Northern India. Fuelwood is the main energy source used in rural areas of the Indian Himalayan region. However, the increasing demand for forestry resources has resulted in the decline of the forest cover and caused environmental degradation of the region. In addition, as the rural system is brought into the wider market economy there is need to diversity economic activities in the region, which will further increase demand for energy. A substitute energy source is required to meet the increasing rural requirements. Commercial energy supplies to the remote hill areas have been inadequate and unreliable, therefore there has been growing interest in utilising decentralised renewable energy sources, of which MHP is one of the most mature and flexible. Much of the data for this study was collected during a year long study trip to India, based at the University of Roorkee in the north of Uttar Pradesh. In this thesis the development of MHP is considered in the wider context of Himalayan rural development planning and the overall energy sector in India. The experience of implementing MHP as a decentralised power source in India is also compared to the achievements in other Asian countries. An assessment has been made of the present infrastructure for MHP development and field research is reported and analysed from MHP projects in the hill region of Uttar Pradesh. The main aims of the study were to investigate the need for and the viability of MHP in the North of India.
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Tengberg, Oskar. "Implementation of Hydro Power Plant Optimization for Operation and Production Planning." Thesis, Luleå tekniska universitet, Institutionen för teknikvetenskap och matematik, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-74274.

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Output power of hydro power plant was modelled and an optimization algorithm was implemented in a tool for optimizing hydro power plants. The tool maximizes power output of a hydro power plant by distributing water over a set of active units in the power plant which will be used in planning of electricity production. This tool was built in a MATLAB environment, using the optimization toolbox, and a GUI was developed for Vattenfall. The optimization tool was based on the same architecture as the current tool used for this kind of optimization which is to be replaced by the work presented in this thesis. Therefore, the goal was to achieve the same optimal results as the current optimization tool. Power output of three of Vattenfall’s hydro power plants were computed and two of these plants were optimized. These power output results were compared to results from the optimization tool currently used. This showed differences within the inaccuracy of measurements of ≤ 0.3%. These three power plants proved that the new tool is sufficient to replace the current tool but further testing is recommended to be conducted on more of Vattenfall’s hydro power plants to prove its consistency.
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CHAGAS, EDUARDO BARROS DAS. "PROJECT FINANCE IN THE BRAZILIAN ELECTRIC POWER INDUSTRY: THE BARRA GRANDE HYDRO POWER PLANT CASE." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2006. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=8340@1.

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PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO<br>A presente pesquisa se destina a estudar, de forma descritiva e explicativa, o Project Finance como modo de estruturação financeira de projetos de investimento, especialmente às vantagens e desvantagens desta estrutura em comparação às estruturas de financiamentos corporativos tradicionais e na questão do tratamento dispensado por esta estrutura aos diversos riscos relativos ao investimento. Para tal, através da coleta e análise de dados e informações de domínio público, foi utilizada a metodologia de estudo de caso simples aplicada ao caso da Usina Hidrelétrica de Barra Grande, empreendida pela Barra Grande Energética S/A - BAESA, no contexto macro econômico do novo modelo institucional para o setor elétrico.<br>This research work intends to examine, in a descriptive and explaining manner, the Project Finance as a way to financially structure investment projects, especially when it comes to the advantages and disadvantages of this financial structure as compared to traditional corporate financing, and in the assessment of investment related risks. To do so, publicly available data was collected and analyzed through the Simple Case Research method applied to the Barra Grande Hydro Power Plant Case, within the new Brazilian electric power institutional framework.
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Ercan, Noyan. "A Decision Support Tool For Feasibility Assessment Of Hydro Electrical Power Plant Projects." Master's thesis, METU, 2011. http://etd.lib.metu.edu.tr/upload/12613982/index.pdf.

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The objective of this thesis is to develop a decision support tool to assess the feasibility of a hydro electrical power plant (HEPP) investment option by estimating its profitability under various scenarios. The decision support tool may help the decision makers to understand critical parameters that affect the internal rate of return (IRR) of a HEPP investment, create realistic scenarios by assigning different values to these parameters and monitor profitability under various scenarios. The information and the assumptions to construct the proposed decision support tool have been collected by conducting interviews with experts and its reliability has been tested by a real case study.
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Akhtar, Malik Usman. "Variable speed drive as an alternative solution for a micro-hydro power plant." Thesis, KTH, Elektrisk energiomvandling, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-107490.

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This diploma work is mainly focused on developing the control strategy for avariable speed drive as an alternative solution to a micro-hydro power plant. The detailed mathematical model for a micro-hydro system including a Kaplan turbine, mechanical shaft and electrical machines is presented and validated through simulations. A control strategy for an autonomous operation of a doubly-fed induction machine-based drive is developed for a wide range of speed. The drive can operate at a unity power factor.The possible applications of the analyzed system are also presented. As a positive side of the system, it is found that the direct interaction between the power electronic converters and the utility grid can be avoided by exploiting the proposed topology, which might lead to a better quality of the produced power in terms of harmonics. This could also lead to removal or reduction of the size of the harmonic filters that are being used in conventional doubly-fed induction generator installations. As regards to the drawbacks of the system, a comparison of converter and generator ratings between the analyzed solution and the conventional solution was performed. While the converters rating remain the same, there is one more electrical machine and the doubly-fed generator rating is slightly increased. Losses are also slightly larger due to the presence of the second machine.
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Suliman, Ahmad. "A test case for implementing feedback control in a micro hydro power plant." Kansas State University, 2010. http://hdl.handle.net/2097/6847.

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Master of Science<br>Department of Electrical and Computer Engineering<br>Dwight D. Day<br>Micro-hydro turbines generate power for small villages and industries in Afghanistan. They usually produce less than 100 kW of power. Currently the flow into the turbine is controlled manually and the voltage is controlled automatically with an electronic load controller. Excess power not used by the village is dumped into a community water heater. For larger sites that have a reservoir and/or large variable load throughout the day and night, the turbine needs to be fitted with an automatic flow control system to conserve water in the reservoir or deal with the variable loads. Large turbines usually use hydraulic governors that automatically adjust the flow of water into the turbine. For micro-hydro sized plants this method would be too expensive and be difficult to build and maintain locally. For this reason, a 3 phase AC induction motor will be used to move the internal flow control valve of the turbine. Because a sudden change in load is possible (30 – 40%) for micro-hydro plants, the electronic load controller will also be needed to respond to quick changes in load so that the village voltage does not exceed 220V. This report documents the process of building a test system comprising of a dynamic resistive load, microcontroller controlled resistive load, a three phase AC generator and a DC Motor. Where the dynamic resistive load represents the load of the village, the computer controlled resistive load would represent the community water heater, the three phase AC generator represents the Generator on site and the DC Motor together with its DC input voltage would emulate the turbine and its water flow respectively. The DC input voltage would be also controlled with a PWM signal through a delay loop to represent the water gate delay effects on the turbine as close as possible. With this, it would be possible to completely build and test a control system that emulates the dynamics of a water turbine generator.
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Щеглов, Сергій Вікторович, Сергей Викторович Щеглов, Serhii Viktorovych Shchehlov та Э. Коротков. "Безплотинные гидроэлектростанции". Thesis, Издательство СумГУ, 2011. http://essuir.sumdu.edu.ua/handle/123456789/14007.

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Books on the topic "Mini hydro power plant"

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Majumder, Mrinmoy. Minimization of Climatic Vulnerabilities on Mini-hydro Power Plants. Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-287-314-9.

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Alberta. Energy Resources Conservation Board. Hydro Power Plant Dickson Dam. Energy Resources Conservation Board, 1990.

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Majumder, Mrinmoy, and Soumya Ghosh. Decision Making Algorithms for Hydro-Power Plant Location. Springer Singapore, 2013. http://dx.doi.org/10.1007/978-981-4451-63-5.

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Majumder, Mrinmoy. Decision Making Algorithms for Hydro-Power Plant Location. Springer Singapore, 2013.

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Goldsmith, K. Small hydro international market and Canadian suppliers and services. Hydraulic Energy, 1989.

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Mini-hydro-power Plant of Asco: Energy: Energy [series]. European Communities / Union (EUR-OP/OOPEC/OPOCE), 1995.

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Sharma, Hemant. DESIGN MODEL of RUN-Off RIVER MINI- HYDRO POWER PLANT USING MATLAB/Simulink. Independently Published, 2018.

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Majumder, Mrinmoy. Minimization of Climatic Vulnerabilities on Mini-Hydro Power Plants: Fuzzy AHP, Fuzzy ANP Techniques and Neuro-Genetic Model Approach. Springer London, Limited, 2016.

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Minimization of Climatic Vulnerabilities on Mini-hydro Power Plants: Fuzzy AHP, Fuzzy ANP Techniques and Neuro-Genetic Model Approach. Mrinmoy Majumder, 2016.

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Hydro plant electrical systems. HCI Publications, 1999.

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Book chapters on the topic "Mini hydro power plant"

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Tomović, Radoslav, Aleksandar Tomović, Marko Mumović, and Vuk Vujošević. "Development of Construction of Mini Hydro Power Plant Model Based on Pelton Turbine." In Lecture Notes in Networks and Systems. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-90893-9_48.

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Trejo, Victor, Gabriela Diaz, and Luis Rojas-Solorzano. "Technical and Economic Prefeasibility Study of Mini-Hydro Power Plants in Venezuela Case Study: El Valle River." In Exergy for A Better Environment and Improved Sustainability 2. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-62575-1_50.

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Chaudhari, Anupkumar, and Gaurang C. Chaudhari. "Review on Micro Hydro Power Plant." In Lecture Notes in Mechanical Engineering. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3379-0_34.

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Barry, Michael, Moritz Schillinger, Hannes Weigt, and René Schumann. "Configuration of Hydro Power Plant Mathematical Models." In Energy Informatics. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-25876-8_17.

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Srb, Pavel, and Michal Petrů. "Design Optimization of Micro-hydro Power Plant." In Current Methods of Construction Design. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-33146-7_19.

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Rodríguez, Luis, and Teodoro Sánchez. "Prelims - Designing and Building Mini and Micro Hydro Power Schemes." In Designing and Building Mini and Micro Hydro Power Schemes. Practical Action Publishing, 2011. http://dx.doi.org/10.3362/9781780440552.000.

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Rodríguez, Luis, and Teodoro Sánchez. "Introduction: Designing and Building Mini and Micro Hydro Power Schemes." In Designing and Building Mini and Micro Hydro Power Schemes. Practical Action Publishing, 2011. http://dx.doi.org/10.3362/9781780440552.001.

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Rodríguez, Luis, and Teodoro Sánchez. "Intake." In Designing and Building Mini and Micro Hydro Power Schemes. Practical Action Publishing, 2011. http://dx.doi.org/10.3362/9781780440552.002.

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Rodríguez, Luis, and Teodoro Sánchez. "Headrace channel." In Designing and Building Mini and Micro Hydro Power Schemes. Practical Action Publishing, 2011. http://dx.doi.org/10.3362/9781780440552.003.

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Rodríguez, Luis, and Teodoro Sánchez. "Coarse settling basin." In Designing and Building Mini and Micro Hydro Power Schemes. Practical Action Publishing, 2011. http://dx.doi.org/10.3362/9781780440552.004.

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Conference papers on the topic "Mini hydro power plant"

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Wibawa, Rizky, Zen-Ichiro Kawasaki, Rizqa Afthoni, Azhari, and Saraswati. "Assessment of Potential Studies Mini Hydro Power Plant in the Energy Transition Era." In 2024 International Conference on Technology and Policy in Energy and Electric Power (ICTPEP). IEEE, 2024. http://dx.doi.org/10.1109/ict-pep63827.2024.10733449.

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Pangampe, Sahid, Ikhlas Kitta, Arham Amri, and Keisha Mahira Ikhra. "Planning for Additional Power Generation Capacity in the South Sulawesi Area Based on the OseMOSYS Model." In International Conference on Research in Engineering and Science Technology (IC-REST) 2023. Trans Tech Publications Ltd, 2025. https://doi.org/10.4028/p-t0qjao.

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The forecast for electrical energy demands in the South Sulawesi area in 2060 is 198,353 GWh, so the electricity generation capacity required under the Business As Usual scenario is 38.68 GW in that year. If this demand is connected to the scenario of limiting the construction and operation of coal-fired power plants, then the capacity required is 41.02 GW. This article provides an overview of the value of electrical energy demand and generating capacity in South Sulawesi where the method used to plan additional electricity generating capacity is based on the OSeMOSYS model. The generating capacity of the analysis results comes from various types of power plants, namely: conventional types (combine cycle power plant, gas turbine power plant, gas engine power plant, coal-fired power plant, and diesel power plant), and Renewable Energy types (hydropower plant, mini hydro power plant, biomass power plant, waste-to-energy power plant, geothermal power plant, wind turbine power plant, and photovoltaic power plant). The primary energy used by these power plants comes from the South Sulawesi area and from outside South Sulawesi. Specifically, renewable energy is the potential of the South Sulawesi region.
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Utomo, Ken Satrio, Sarjiya, M. Isnaeni Bs, and Wijaya Yudha Atmaja. "Determination of PV Location to Reduce Losses with Mini Hydro Power Plant Connected to Grid." In 2024 16th International Conference on Information Technology and Electrical Engineering (ICITEE). IEEE, 2024. https://doi.org/10.1109/icitee62483.2024.10808974.

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Hossain, Tahsin, Mohammed Ibthehaz Shaharier Fayed, Chowdhury Misrar Mahmood Amin, et al. "Mapping of Potential Sites for Mini-Hydro Power Plants in Rangamati Using GIS." In 2025 International Conference on Electrical, Computer and Communication Engineering (ECCE). IEEE, 2025. https://doi.org/10.1109/ecce64574.2025.11013488.

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Uhlenbrock, Simon, Ulf Häger, and Hendrik Dörr. "Identification of Technical Limits of Mini Run-of-River Hydro Power Plants During Frequency Containment Reserve Provision." In 2024 IEEE PES Innovative Smart Grid Technologies Europe (ISGT EUROPE). IEEE, 2024. https://doi.org/10.1109/isgteurope62998.2024.10863122.

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Chauhan, Pratibha, and Poonam Syal. "Performance Enhancement of Micro Hydro Power Plant with Improved Load Controller." In 2024 IEEE 65th International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON). IEEE, 2024. https://doi.org/10.1109/rtucon62997.2024.10830805.

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Nugraha, Muhammad Noviansyah, RD Kusumanto, and Indrayani. "Preliminary Analysis of Mini Portable Hydro Power Plant Using Archimedes Screw Turbine." In 2021 International Conference on Computer Science and Engineering (IC2SE). IEEE, 2021. http://dx.doi.org/10.1109/ic2se52832.2021.9791966.

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Zeb, Saran, Mazhar Ali, Asad Mujeeb, and Hameed Ullah. "Cost efficient Mini hydro plant with low water head whirlpool design methodology for rural areas : (Micro Hydro Whirlpool power plant)." In 2019 2nd International Conference on Computing, Mathematics and Engineering Technologies (iCoMET). IEEE, 2019. http://dx.doi.org/10.1109/icomet.2019.8673481.

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Zahnd, Alex, and Mark Staumbaugh. "Modular Pico-Hydro Power Plant Mini-Grid for Remote Himalayan Villages in Nepal." In ISES Solar World Congress 2019/IEA SHC International Conference on Solar Heating and Cooling for Buildings and Industry 2019. International Solar Energy Society, 2019. http://dx.doi.org/10.18086/swc.2019.08.10.

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Wibisono, Arifin, Leonardus Heru Pratomo, and Akhiles Krisna Damarjati Santoso. "Feasibility Study Analysis on Run-Off-Natural River Mini-Hydro Power Plant Business Development." In 2021 International Conference on Technology and Policy in Energy and Electric Power (ICT-PEP). IEEE, 2021. http://dx.doi.org/10.1109/ict-pep53949.2021.9601035.

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Reports on the topic "Mini hydro power plant"

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Tsybankov, A. A., V. S. Slavinsky, A. A. Dudko, and A. A. Voynikov. THE RESCUE EXCAVATIONS IN THE INUNDATION AREA OF THE LOWER BUREYA HYDRO POWER PLANT IN 2015–2016 (THE AMUR REGION). "Росток", 2018. http://dx.doi.org/10.18411/tsy-2018-34.

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KUPFERSBERGER, Hans, Till HARUM, Andreas DALLA-VIA, and Christian RESZLER. Transient groundwater modelling to predict the impact of a hydro power plant on groundwater quantity and quality in the Gratkorn basin, Austria. Cogeo@oeaw-giscience, 2011. http://dx.doi.org/10.5242/iamg.2011.0191.

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Dudko, A. A., and A. A. Tsybankov. THE MATERIALS FROM ARCHAEOLOGICAL RESEARCH OF THE EARLY IRON AGE – MIDDLE AGES SITES IN THE INUNDATION AREA OF THE LOWER BUREYA HYDRO POWER PLANT OF 2015–2016. "Росток", 2018. http://dx.doi.org/10.18411/dud-2018-13.

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Bailey, Jed. Inter-Fuel Competition in Electricity Generation. Inter-American Development Bank, 2012. http://dx.doi.org/10.18235/0009094.

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Abstract:
This study compares the levelized cost of electricity generated with fossil fuels (including coal, natural gas, fuel oil, and diesel) and renewable or carbon-free energy sources (including hydro, wind, solar, nuclear and geothermal). A meta-study of power generation technology capital costs determined the range of capital costs across the various technologies as well as the range of cost estimates for each individual technology from the various data sources that were examined. Applying these capital costs to a range of operating assumption (such as fuel price and plant utilization rate) resulted in a range of levelized cost of electricity for each technology. In addition, the study examined how the cost of electricity was affected by applying a cost for CO2 emissions and a cost to build new transmission infrastructure to link the power plant in question to the national grid. Finally, the study examined the potential investment cost and benefits in reducing CO2 emissions and levelized costs of electricity by repowering existing thermal power plants or switching high-carbon fuels to lower carbon alternatives. This analysis included two case studies: repowering an older natural-gas fired combustion turbine unit in Peru and repowering and fuel switching an oil-fired steam turbine unit to natural gas in Nicaragua.
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Little, Charles, and David Biedenharn. Technical assessment of the Old, Mississippi, Atchafalaya, and Red (OMAR) Rivers : channel geometry analysis. Engineer Research and Development Center (U.S.), 2022. http://dx.doi.org/10.21079/11681/45147.

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The Old River Control Complex (ORCC) consists of the Low Sill, Auxiliary, and Overbank structures as features of the Old River Control Structure (ORCS) and the privately owned hydro-electric power plant. Operations of the ORCC manage the hydrologic connectivity between the Mississippi River and the Atchafalaya River/Red River systems. The morphology of the Old, the Mississippi, the Atchafalaya, and the Red Rivers (OMAR) has been influenced by the flow distribution at the ORCC, as well as the accompanying bed sediments. A geomorphic assessment of the OMAR is underway to understand the morphological changes associated with operation of the ORCC. Supporting the geomorphic assessment, a channel geometry analysis herein documents observed adjustments of the affected river channels. Historical hydrographic survey data were used in the Geographic Information System to create river channel geometric models, which inform the analysis. Geometric parameters for cross sections and volume polygons were computed for each survey and evaluated for morphological trends which may be ascribed to the influence of the ORCC. Additionally, the geometric parameters for the Atchafalaya River were used to extend the geometry analyses from the 1951 Mississippi River Commission report on the Atchafalaya River, which was the primary catalyst for the initial development of the ORCS.
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