Your search keyword '"rural electrification"' showing total 720 results

1. Rural electrification in Nigeria: A review of impacts and effects of frugal energy generation based on some of e-waste components

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Author

Olaniyan, Abdulrahman, Caux, Stéphane, and Maussion, Pascal

Published

2024

2. Optimization and feasibility analysis of hybrid standalone renewable energy systems for rural electrification in Chamoli, Uttarakhand.

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Author

Faisal, Ameer and Anwer, Naqui

Subjects

*GREENHOUSE gas mitigation, *RENEWABLE energy sources, *RURAL electrification, *HYBRID systems, *RENEWABLE natural resources

Abstract

Electricity access is often a persistent challenge in remote rural areas of developing countries because of high costs and logistical difficulties in extending the national grid. This work will investigate optimizing a hybrid standalone renewable energy system to provide a sustainable and adequate power supply to dispersed villages in the Chamoli district of Uttarakhand, India. Integrating locally available renewable resources includes solar, wind, biomass, and biogas. In this work, an HSRES model will be developed using HOMER Pro software and Harris Hawk Optimization to optimize the sizing and cost of the system. The proposed HSRES model significantly reduces NPC and COE in traditional fossil fuel-based systems, reducing greenhouse gas emissions and mitigating environmental degradation. The optimized values of NPC and COE are 1,024,323 $ and 0.219 $/kWh. The HHO technique provides better results than the Homer Pro technique, as the NPC of the hybrid system is 0.25% less than that obtained in the case of the HHO technique. The work highlights the economic viability, ecological benefits, and social impacts of the HSRES model as it improves living standards and creates job opportunities, which contribute to economic growth in remote areas. It shows how the complementarity of the different renewable energy sources makes the HSRES model replicable for rural electrification worldwide. [ABSTRACT FROM AUTHOR] more...

Published

2025

3. Electrification Planning for Off-Grid Communities in Sub-Saharan Africa: Advancing Energy Access.

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Author

Lwakatare, Bertha, Vyavahare, Priyanka, Mehta, Kedar, and Zörner, Wilfried

Subjects

*RURAL electrification, *CLEAN energy, *RENEWABLE energy sources, *SUSTAINABLE development, *ELECTRIFICATION, *RURAL poor

Abstract

Sub-Saharan Africa, especially its rural areas, faces significant challenges in achieving universal electrification despite its abundant renewable energy resources. The region has the highest population without access to electricity, largely due to economic, infrastructural, and geographical barriers. Energy poverty is a critical issue that hinders sustainable development and exacerbates inequalities. Namibia's sustainable energy policy aligns with the global Sustainable Development Goals (SDGs), particularly SDG 7, which aims to provide affordable and reliable modern energy access for all. The policy emphasizes mini-grids and decentralized power systems as key strategies for rural electrification. However, despite increased deployment of mini-grids, these solutions often struggle with long-term sustainability. This research explores cost-effective electrification strategies through scenario-based modeling to reduce energy poverty and expand energy access in Namibia's rural communities, focusing on the existing mini-grids in Tsumkwe and Gam. Using a comprehensive methodology that incorporates HOMER Pro for mini-grid capacity expansion and MS Excel for evaluating main-grid extensions, this study aims to identify the most feasible and economical electrification solutions. The analysis compares electricity supply, total net present cost, and the levelized cost of electricity across these systems. The findings will offer insights into addressing energy poverty in Namibia and provide recommendations for sustainable and scalable rural electrification across Sub-Saharan Africa. [ABSTRACT FROM AUTHOR] more...

Published

2024

4. Sustainability of Rural Electrification Projects in Developing Countries: A Systematic Literature Review.

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Author

Cuenca-Enrique, Carlos, del-Río-Carazo, Laura, Acquila-Natale, Emiliano, and Iglesias-Pradas, Santiago

Subjects

*RURAL electrification, *WASTE management, *SOCIAL sustainability, *RENEWABLE energy sources, DEVELOPING countries

Abstract

This study provides a review of the sustainability of rural electrification projects in developing countries to identify drivers of the long-term success of these initiatives. Unlike previous studies that often separate sustainability into social, economic, and environmental dimensions, this research adopts a comprehensive approach, acknowledging the interconnectedness of these aspects. Twenty-one sustainability drivers were identified. Based on these, a framework was proposed to organize them across project phases and key activities, supporting sustainable project planning and execution. This framework enables stakeholders to integrate sustainability considerations into the design and management of rural electrification projects, facilitating strategic action across diverse areas. The findings underscore well-known sustainability drivers such as renewable energy adoption while highlighting less-researched aspects, including project monitoring and waste management. Further studies should explore these under-researched areas and examine the potential of digitalization to enhance project sustainability, particularly as rural connectivity improves in developing countries. This approach can provide insights into optimizing rural electrification projects for long-term success and resilience. [ABSTRACT FROM AUTHOR] more...

Published

2024

5. Feasibility study of hybrid renewable energy systems for off-grid electrification in Kuwait's rural national park reserve.

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Author

Alzuabi, Noura H. and Sh Alanzi, Sultan

Subjects

*RENEWABLE energy sources, *RURAL electrification, *GREENHOUSE gases, *ENERGY consumption, *NATIONAL parks & reserves

Abstract

This study demonstrates the optimal design of a hybrid renewable energy system for the electrification of a potential rural national park reserve. The objective is to evaluate the feasibility of utilising renewable energy sources (RESs) to reduce GHG emissions. The core components studied are photovoltaic solar (PV) panels, wind turbines (WTs), diesel generators (DGs), and battery banks (BBs). The research involves estimating the reserve's load profile, assessing the potentials of RESs, and designing various system configurations. Each configuration is evaluated to derive the most efficient option. For a building with an energy demand of 832,640 kWh/yr, it is found that PV-WT-BB is the best configuration which comprises of 500-kW PV, 200-kW WT, and 1424-kW BBs and contributes an annual generation of 1,821,732 kWh/year. With a net present cost of $2,206,308 for the lifetime of the project, it saves 757,162 kg/year of total GHG emissions if the reserve operated using DGs. [ABSTRACT FROM AUTHOR] more...

Published

2024

6. Application of an Optimal Fractional-Order Controller for a Standalone (Wind/Photovoltaic) Microgrid Utilizing Hybrid Storage (Battery/Ultracapacitor) System.

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Author

Albalawi, Hani, Zaid, Sherif A., Alatwi, Aadel M., and Moustafa, Mohamed Ahmed

Subjects

*RENEWABLE energy sources, *SOLAR energy, *WIND power, *ENERGY storage, *RURAL electrification, *MICROGRIDS

Abstract

Nowadays, standalone microgrids that make use of renewable energy sources have gained great interest. They provide a viable solution for rural electrification and decrease the burden on the utility grid. However, because standalone microgrids are nonlinear and time-varying, controlling and managing their energy can be difficult. A fractional-order proportional integral (FOPI) controller was proposed in this study to enhance a standalone microgrid's energy management and performance. An ultra-capacitor (UC) and a battery, called a hybrid energy storage scheme, were employed as the microgrid's energy storage system. The microgrid was primarily powered by solar and wind power. To achieve optimal performance, the FOPI's parameters were ideally generated using the gorilla troop optimization (GTO) technique. The FOPI controller's performance was contrasted with a conventional PI controller in terms of variations in load power, wind speed, and solar insolation. The microgrid was modeled and simulated using MATLAB/Simulink software R2023a 23.1. The results indicate that, in comparison to the traditional PI controller, the proposed FOPI controller significantly improved the microgrid's transient performance. The load voltage and frequency were maintained constant against the least amount of disturbance despite variations in wind speed, photovoltaic intensity, and load power. In contrast, the storage battery precisely stores and releases energy to counteract variations in wind and photovoltaic power. The outcomes validate that in the presence of the UC, the microgrid performance is improved. However, the improvement is very close to that gained when using the proposed controller without UC. Hence, the proposed controller can reduce the cost, weight, and space of the system. Moreover, a Hardware-in-the-Loop (HIL) emulator was implemented using a C2000™ microcontroller LaunchPad™ TMS320F28379D kit (Texas Instruments, Dallas, TX, USA) to evaluate the proposed system and validate the simulation results. [ABSTRACT FROM AUTHOR] more...

Published

2024

7. Design and optimization of an off-grid integrated renewable energy system for remote rural electrification in India.

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Author

Saini, Vishal and Singal, S. K.

Subjects

*LIFE cycle costing, *RURAL electrification, *DISCOUNT prices, *RENEWABLE energy sources, *SOLAR radiation

Abstract

This study aims to design the best off-grid integrated renewable energy (IRE) system for the electrification of twelve villages located in the Munsyari Block of district Pithoragarh, Uttarakhand state (India). Three off-grid IRE systems consisting of a solar photovoltaic (SPV) system/micro-hydro power (MHP)/biogas generator (BGG) and various battery energy storage (BES) devices like Lead-Acid (LA), Lithium-Ion (Li-Ion), and Sodium-Sulfur (NAS) have been proposed and optimized on the MATLAB to meet 8760-hour load demand. According to the simulation results, the total life cycle cost (LCC) and cost of energy (COE) of the SPV/MHP/BGG/NAS (base case) are INR 68.77 million and 16.77 INR/kWh, respectively. It offers approximately 20% and 100% lower LCCs than LA and Li-Ion battery-based IRE systems, respectively. The proposed system includes 676 SPV panels (NSPV), 648 BES devices (NBES), micro-hydro power of 25 kW capacity, biogas generator of 40 kW capacity, and power converter of 114 kW. Furthermore, the performance of the IRE system was evaluated by taking into account the load-resource associated uncertainties, and it was discovered that the LCC, COE, NSPV, NBES, and excess energy are increased by approximately 66%, 75%, 17%, 318%, and 373%, respectively, when compared to the base case. Finally, the sensitivity analysis has been conducted with the variable input parameters, such as inflation rate, discount rate, solar radiation, and dung collection efficiency. It is found that the variation in inflation rate significantly reduces the system LCC by 21.81 million INR. Whereas, variation in discount rate significantly increases the system COE by 5.72 INR/kWh. [ABSTRACT FROM AUTHOR] more...

Published

2024

8. Sustainable rural electrification: small hydropower stations, electrification and rural welfare improvement in Tanzania.

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Author

Haulle, Evaristo and Ndimbo, Gabriel Kanuti

Subjects

CLEAN energy, RENEWABLE energy sources, RURAL electrification, POWER resources, CLIMATE change

Abstract

Purpose: Tanzania is rich in small hydropower (SHP) potentials. However, many of these potentials have yet to be fully used, and more than two-thirds of its rural population lacks access to electricity. The purpose of this paper is to explore the role of SHP stations in improving rural welfare in the southern highlands of Tanzania. It further explores the history, cost-effective analysis and threats to the sustainability of SHP as one of the renewable energy sources. Design/methodology/approach: The study uses a qualitative research design to explore respondents' views on the role of SHP stations in facilitating rural electrification and welfare improvement. Primary data were gathered using semi-structured interviews with the 27 key informants and beneficiaries of SHP stations from the Southern Highlands of Tanzania. In addition, the study used documentary research to complement the information from the field survey. Findings: The findings found that SHP stations enhance rural electrification and welfare by providing electricity in remote areas with sparse populations. They operate as standalone off-grids, often by church communities and individuals. However, the sustainability of SHP stations is hampered by challenges such as climate change impacts, high capital investment costs, heavy siltation of small reservoirs, skilled manpower shortages, limited local manufacturing capabilities and infrastructural issues. Originality/value: The study contributes to the ongoing debate on renewable energy supply and uses, focusing on how SHP stations could contribute to sustainable rural electrification and achieve the 2030 United Nations agenda for sustainable development, which, among other things, aims to safeguard access to sustainable and modern energy and alleviate energy poverty. [ABSTRACT FROM AUTHOR] more...

Published

2024

9. IntiGIS-Local: A Geospatial Approach to Assessing Rural Electrification Alternatives for Sustainable Socio-Economic Development in Isolated Communities—A Case Study of Guasasa, Cuba.

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Author

Domínguez, Javier, Bellini, Carlo, Arribas, Luis, Amador, Julio, Torres-Pérez, Mirelys, and Martín, Ana M.

Subjects

*RURAL electrification, *GEOGRAPHIC information systems, *HYBRID systems, *ENERGY industries, *RENEWABLE energy sources, SOLAR chimneys

Abstract

Rural electrification is a crucial step for the socio-economic development of isolated communities. Decentralized power generation, typically more favorable for renewable energies, requires an accurate analysis of the different electrification options, whose convenience depends on multiple factors. The application of Geographical Information Systems (GISs) to energy planning allows the assessment at a local level, considering the variability and demand distribution of spatial resources. This work introduces IntiGIS-local, a GIS-based model implemented in the ArcGIS environment, designed to calculate the levelized energy cost (LEC) for different electrification options. The model allows the comparison between three power generation alternatives: solar system, diesel generator set and solar–diesel hybrid system. Configurations are adjustable through input variables, with a special focus on the confrontation between individual systems and microgrids. The objective is to provide an adequate groundwork for developing a decision-making tool to assess diverse rural electrification options in future studies. The model IntiGIS-local is tested in the case study of the Guasasa community (Cuba). [ABSTRACT FROM AUTHOR] more...

Published

2024

10. Introduction—Exploring the Dynamics of Renewable Energy and Sustainable Development in Africa

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Author

Qudrat-Ullah, Hassan, Seck, Diery, Series Editor, Elu, Juliet U., Series Editor, Nyarko, Yaw, Series Editor, and Qudrat-Ullah, Hassan

Published

2024

11. A review on basic theory and technology of agricultural energy internet

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Author

Xiurong Zhang, Xueqian Fu, Yixun Xue, Xinyue Chang, and Xiang Bai

Subjects

agricultural energy internet, agrivoltaic system, carbon dioxide emission, carbon neutralization, rural electrification, Renewable energy sources, TJ807-830

Abstract

Abstract In the context of modern agricultural production mode and domestic energy consumption, profound changes have taken place in agricultural and rural energy consumption, resulting in the demand for new technology development in various sectors of source, network, and load in rural energy systems. Agricultural energy internet (AEI) has promoted the development of renewable energy and agricultural electrification in villages. The construction of the AEI is crucial for achieving the synergistic development of agriculture, energy, and environment. The basic theory and key technologies of AEI are investigated and the prospects for the direction of agricultural energy technology are conducted. The research investigation shows that the AEI framework proposed by China Agricultural University is of great significance for realizing agricultural electrification and reducing agricultural carbon emissions. The article describes in detail the key data and characteristics of agricultural electrification loads. Digital twin technology and virtual power plant technology will be crucial to the construction of advanced AEI. more...

Published

2024

12. Multi-criteria optimal sizing and analysis of PV/wind/fuel cell/battery/diesel generator for rural electrification: A case study in Chad

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Author

Mahamat Adoum Abdoulaye, Sebastian Waita, Cyrus Wabuge Wekesa, and Julius Mwakondo Mwabora

Subjects

avoided greenhouse gas (ghg), social assessment, hybrid energy system, optimal sizing, rural electrification, particle swarm optimization algorithm, zero-carbon electricity., Renewable energy sources, TJ807-830

Abstract

Access to sustainable, clean, affordable, and reliable electricity is crucial for social and economic development, yet Sub-Saharan Africa (SSA) struggles significantly in this context. In CHAD, only 11.3% of the population is able to access electricity, making it one of the least electrified countries in SSA with the lowest clean energy access. In rural areas, electricity access falls to just 1.3%. This research applies and executes a Multi-Objective Particle Swarm Optimization (MOPSO) algorithm using MATLAB R2023b to assess the techno-economic, environmental, and social impacts of a hybrid system based on optimal PV/Wind/Battery/Fuel Cell (FC)/Diesel generator (DG) sizing for rural electrification in CHAD. The proposed system's self-sufficiency index (SSSI) and the Annualized System Cost (ASC) were chosen as objective functions to guarantee the economic feasibility of the system, higher self-sufficiency, and lower dependence on external energy sources (DG). The simulation results show that the optimal size of the proposed system supplies the load demand by 100% of the renewable energy sources (RES) fraction, and the optimal capacities of the main components to supply the load demand are: Solar Power (493 KW), Wind Turbine (166 KW), Battery Energy Charge/Discharge (229180 kWh /221300 kWh), Hydrogen tank storage energy (83 874 kWh), Electrolyzer size (202 KW), Fuel cell size (144 KW). The evelized cost of electricity (LCOE) of 0.2982 $/kWh, which is 51.12% lower than the national unit production costs of electricity in rural areas of CHAD (0.61 $/kWh). This LCOE is also the lowest compared to previous works done using HOMER Pro for the country of CHAD. The results also give a levelized cost of hydrogen (LCOH) of 3.8563 US $/kg, lower than for all studies found in the literature for the country of Chad. The proposed system's yearly avoided greenhouse gas (GHG) emission is 374 640 kg. The proposed system will create five (5) new jobs (JCO) and improve the Human Development Index (HDI) of the study area by 17.66% (the obtained HDI is 0.4683, and the CHAD HDI is 0.398) with an SSSI of 51.14%. This study provides a better practical energy design tool in decision-making for designers, companies, investors, policymakers, and the Chadian government when implementing this type of system in particular rural locations. more...

Published

2024

13. Optimization and techno-economic analysis of hybrid renewable energy systems for the electrification of remote areas.

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Author

Faisal, Ameer and Anwer, Naqui

Subjects

GREY Wolf Optimizer algorithm, BATTERY storage plants, RENEWABLE energy sources, RURAL electrification, ELECTRIFICATION, CARBON emissions, BIOGAS

Abstract

The welfare of the villages is one of the primary objectives of the rural electrification programmes. Compared to electrifying urban regions, electrifying rural areas is more expensive. Energy requirements in rural areas can be met using hybrid energy technologies. This study proposes a cost-effective power solution to reduce the net present cost (NPC), cost of energy (COE), unmet loads and CO2 emissions. Grey Wolf Optimizer (GWO) and Homer Pro are used to optimize the size of the components of the system. The combination of solar, wind and biogas with a battery storage system is cost-effective with zero unmet loads. Of the three combinations considered, the values of COE and NPC for combination-1 were 0.156 ($/kWh) and $2.05 M respectively. The comparative analysis of optimization between the GWO technique and Homer Pro carried out shows that the value of COE and NPC are reduced by 5.45% and 3.30% respectively. [ABSTRACT FROM AUTHOR] more...

Published

2024

14. A critical evaluation of DC microgrid implementation in Indonesia: opportunities and challenges.

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Author

Halim, Levin, Anugrah, Pinto, Kurniawan, Aditya, and Karim, Khairuddin

Subjects

CLEAN energy, RENEWABLE energy sources, MICROGRIDS, RURAL electrification, TECHNOLOGICAL complexity

Abstract

This study thoroughly investigates the potential of direct current (DC) microgrids to enhance electricity access in rural and remote areas of Indonesia that continue to face significant obstacles despite ongoing national electrification efforts. Utilizing a mixed-methods approach, this research comprehensively evaluates socio-economic and technical factors that influence the adoption of DC microgrids. The results indicate that DC microgrids offer significant potential for enhancing energy access, reliability, and sustainability, particularly when combined with renewable energy sources. This aligns with Indonesia's move towards renewable energy. Nevertheless, the analysis identifies significant obstacles, such as the substantial initial investment, the requirement for complete regulatory frameworks, and the technological complexities that need to be conquered. In conclusion, DC microgrids present a promising solution for rural electrification. However, the implementation requires a strategy that emphasizes strategic investments, policy innovation, and capacity-building initiatives. This research significantly contributes to the study of sustainable energy by evaluating the criticality of integrating policies and technology for implementing DC microgrids as a key factor in achieving sustainable energy access in Indonesia. [ABSTRACT FROM AUTHOR] more...

Published

2024

15. Technical and economic analysis of a pump as a turbine for rural electrification

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Author

Abdulbasit Nasir, Ayodeji Olalekan Salau, Edessa Dribssa, and Misrak Girma

Subjects

economic analysis, blade modification, micro-hydro power, pump as turbine, rural electrification, Renewable energy sources, TJ807-830

Abstract

Electricity is one of the essential requirements for the economic development of a country. In Ethiopia, more than half of the total population does not have access to electric power. Micro-hydropower (MHP) is one of the most feasible renewable energy options for providing reliable electricity to rural areas. However, in low-income countries such as Ethiopia, the high price of a purpose-made turbine to generate electricity from MHP resources is difficult. This paper presents the feasibility study of a pump as a turbine (PAT) for MHP applications with and without impeller blade modification. The analysis was conducted in terms of initial investment cost, the net present value, payback periods, and the cost of energy. Decreasing blade thickness, blade tip rounding, adjusting blade inlet angle, and blade grooving, then comparing the result with PAT without modification and cross-flow turbine are the modification techniques considered in this research. Based on the projected system lifetime, the equivalent cost of power for the PAT and cross-flow turbines are 0.065 and 0.100 $/kWh respectively. The cross-flow turbine's payback period is 6.04 years, which is significantly longer than the PATs payback period of 3.42 years. From the entire study, it can be concluded that the MHP coupled with PAT provides a lower payback period and cheaper power production. Whereas, impeller blade modification has no significant advantage from the economic point of view. Generally, the impeller modification cost needs to be less than or equal to 25% of the initial cost of the PAT to use the less cost advantage of the PAT. more...

Published

2023

16. The ocean as a source of renewable energy in sub-Saharan Africa: sources, potential, sustainability and challenges

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Author

Alberto Filimão Sitoe, António Mubango Hoguane, and Soufiane Haddout

Subjects

clean energy, tidal current power, salt gradient power, rural electrification, coastal development, Renewable energy sources, TJ807-830

Abstract

The present paper examines, based on literature review and data from Africa Energy Outlook 2019, the feasibility of adoption of renewable energy from the ocean for socioeconomic development in sub-Saharan Africa, given the enormous potential the region has for ocean-based sources of energy. The study concludes that mini tidal power plants and salt gradient power are the ocean energy sources most suitable for coastal development. It recommends a gradual reduction in subsidies of fossil fuel-based energy sources in favour of support to renewable energy, building human resources and technical capacity, the establishment of smart partnerships and mobilisation of resources for an effective promotion of ocean renewable energy. It recommends further, that community engagement is needed to assure ownership and acceptance. more...

Published

2023

17. Renewable energy sources‐based hybrid microgrid system for off‐grid electricity solution for rural communities

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Author

Majid Ali, Mohsin Riaz, Mohsin Ali Koondhar, Muhammad Sarfraz Akram, Josep M. Guerrero, Juan C. Vasquez, and Baseem Khan

Subjects

hybrid microgrid system, microgrid, off‐grid, photovoltaic, renewable energy sources, rural electrification, Technology, Science

Abstract

Abstract Rural electrification is a crucial component of meeting sustainable development goals. In Pakistan, load shedding and power outages are frequent. According to the current data, Pakistan is experiencing a shortfall of power between 6000 and 6500 MW. Microgrid technology has the potential to provide a solution to this problem in an efficient and low‐cost manner. This paper proposes the development of a hybrid microgrid system (HMGS) for rural communities. For that purpose, a technological analysis of the HMGS system for rural electrification is performed. Solar photovoltaic (PV) and wind resource‐based renewable energy systems are considered in this work for the electrification of rural areas of Pakistan. A hybrid PV/wind system is designed using MATLAB software. Simulation results show that a 230‐V sinusoidal output voltage has been produced by the proposed model. The advantage of this model is that it minimizes the impact of transients and provides a sinusoidal output waveform. more...

Published

2023

18. Public Engagement in Micro-hydro Technology in Central Java: A Call to Decentralize the Energy System.

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Author

Pradheksa, Pratama Yudha, Arimbi, Putri Cahya, and Tamitiadini, Dian

Subjects

*PUBLIC understanding of science, *ALTERNATIVE fuels, *BUSINESSPEOPLE, *RENEWABLE energy sources, *RURAL electrification, *GOVERNMENT agencies

Abstract

This article explores how the public might actively participate in renewable energy projects by studying the role of local and credentialed experts in the development of micro-hydro technology for self-supply (off-grid electrification) or commercialization (on-grid electrification) in Central Java, Indonesia. All of the data were gathered qualitatively, including semi-structured interviews with local experts and energy experts, as well as interviews with local entrepreneurs, private companies, government agencies, end users, and civil society groups. Other methods included document analysis, observations, and site visits. The research found that credentialed and local experts have distinct sets of expertise and roles that complement one another. This challenges the "deficit" model of public understanding of science, which often claims that energy projects fail due to a lack of policy-relevant knowledge. The expertise of locals, their financial situation, and their geographic location are all considered to be linked with the design of micro-hydro technology, which is most typically run-of-river. While micro-hydro design is often related to "decentralization," standardized expertise has emerged as a critical impediment to alternative energy commercialization. This article concludes that public participation, supported by decentralized policies, is required to drive future growth and maintain the long-term viability of micro-hydro technology. [ABSTRACT FROM AUTHOR] more...

Published

2024

19. Rural electrification and optimization of biogas–solar–wind hybrid system for decentralized energy generation in India: a case study of Ringhim village, Sikkim.

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Author

Shah, Sonal Vilas and Jha, Bishnu Mohan

Subjects

*HYBRID systems, *RURAL electrification, *RENEWABLE energy sources, *INTERNAL rate of return, *ENERGY economics, *RURAL geography, *RURAL women, *HUMAN settlements

Abstract

Dependence on fossil fuel has significantly resulted in global climate change and harms the ecosystem. The process of integration of electricity production with renewable energy sources can significantly improve the economics and energy balance, especially in rural areas. The optimization of decentralized energy generation in India is done by HOMER Pro software. It performs energy balance calculations and determines the least net present cost for each system configuration. In the present study, design of hybrid renewable energy system (HRES), i.e. solar PV, wind and biomass for a rural village in North Sikkim, has been done as a case study. The village is mainly dependent on agriculture and livestock economy. Daily load consumption by 160 houses in village calculated for two distinct seasons was 262.4 kWh with a peak energy demand of 63.45 kW. The optimized simulation results gave the best possible configuration combinations made up of 1.9 kW PV array, 20 kW biogas generator, 63 strings batteries, 1.96 kW inverter and a 2.3 kW rectifier. Results for the combination showed electricity generation was mainly from biogas generator which was cost-effective and sustainable alternative to grid extension. Moreover, the most economical HRES was strongly dependent on the available energy sources at the location. In addition to this, the system has internal rate of return of 7.42% and payback period of 4.53 years. The software helps in determining feasibility of the configuration and estimates the cost of installing and operating the system over the project lifetime. This techno-economic approach is viable and will meet the power demand of 160 households of the village and is therefore recommended for future electrification projects. [ABSTRACT FROM AUTHOR] more...

Published

2024

20. Comparative Studies on Load Frequency Control with Different Governors connected to Mini Hydro Power Plant via PSCAD Software.

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Author

Masmali, Majed, Elimy, Mamdouh I., Fterich, Mohamed, Touti, Ezzeddine, and Abbas, Ghulam

Subjects

HYDROELECTRIC power plants, COMBINED cycle power plants, GOVERNORS, POWER plants, RURAL electrification, SYSTEM failures, DEVELOPING countries

Abstract

Mini Hydropower Plants (MHPPs) are increasingly popular for rural electrification in developing nations due to their ecologically friendly operation. However, constant load fluctuation in these facilities poses a speed control issue. The mechanical, hydraulic governor, commonly used to face this challenge, cannot provide the best speed control due to its mechanical component system. Thus, an electrohydraulic PIDbased governor is proposed to control the frequency and speed of MHPPs in a distribution network. This governor's suitability for regulating the system's frequency in response to significant load variations within the distribution network is going to be determined in this study. The small hydropower plant and distribution system are modeled using the PSCAD software. A comparison between the mechanical hydraulic governor and the electro-PID governor was conducted by analyzing load fluctuations between 5% and 20%. The electro-PID governor responded faster and more actively to load connections and disconnections than the mechanical hydraulic governor, as the latter reduces large overshoots and undershoots, which can be dangerous and damaging to equipment. The electro-PID governor also helps to maintain a stable frequency within acceptable limits, ensuring smooth operation and minimizing the risk of system failures or disruptions. [ABSTRACT FROM AUTHOR] more...

Published

2024

21. Performance Evaluation of an Existing Renewable Energy System at Gilutongan Island, Cebu, Philippines.

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Author

Supapo, Khrisydel Rhea M., Lozano, Lorafe, and Querikiol, Edward M.

Subjects

RENEWABLE energy sources, ELECTRICAL load, RURAL electrification, ENERGY consumption, SOLAR technology, PHOTOVOLTAIC power systems, MICROGRIDS

Abstract

Solar photovoltaics are considered the practical solution to energy access and climate change issues, especially in tropical countries that receive relatively more sunlight throughout the year. However, questions arise on the reliability of these systems in providing sufficient supply to meet the users' electricity needs. This paper looks at the reliability of a solar project installed on two rooftops on an off-grid island in Cebu, Philippines, that provides increased electricity access to 11 households. PVSyst and HOMER Pro software analyzed solar PV systems performance and techno-economics. The simulations yielded the annual mean values of reference yield, array yield, final yield, array capture loss, system loss, performance ratio, and capacity factor are 5.66 kWh/m2/day, 3.51 kWh/kWp/day, 3.23 kWh/kWp/day, 2.15, 0.278, 57.10%, and 18.96%, respectively. The peak PV resource of 3.30 kWp/day can supply the 1.66 kWp/day of the consumer's electrical demand. It was concluded that the current installation could supply the electrical load demand of the residents; however, consideration for the potential increase in demand must be in place. While renewable energy sources are relevant in achieving 100% electrification in rural communities, their ability to address the energy demands of the users must be carefully considered in planning and design. [ABSTRACT FROM AUTHOR] more...

Published

2024

22. Photovoltaic mini-grid incorporation: The panacea for electricity crisis in sub-Saharan Africa.

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Author

Cyril, Agbo Onyilokwu, Ujah, Chika O., Ekwueme, Benjamin Nnamdi, and Asadu, Christian O.

Subjects

RURAL electrification, ENERGY shortages, RENEWABLE energy sources, PHOTOVOLTAIC power systems

Abstract

The electrification rate in sub-Saharan Africa, standing at 45% in 2018, is significantly lower when compared with global benchmarks. The 600 million individuals lacking access to electricity constitute over two-thirds of the worldwide aggregate of the population lacking electricity. Limitations of power grids have placed a disproportionate burden of the lack of energy access on rural populations. The cheapest approach to achieving universal electricity access in numerous regions seems to be rooted in renewable energy. The diminishing cost of small-scale solar photovoltaic technology for solar home systems and mini-grids is expected to play a pivotal role in facilitating the provision of affordable electric power to millions. This study aims to elucidate the technoeconomic benefits of augmenting photovoltaic mini-grids with the overarching goal of advocating for the adoption of photovoltaic mini-grid solutions in rural electrification in Sub-Saharan Africa. Prior research endeavors on rural electrification and photovoltaic mini-grids were meticulously curated and examined, with some attention also given to assessing the feasibility of grid integration. The findings showed that grid extension is the most cost-effective means of electricity delivery within a limited proximity, contingent upon topographical considerations. However, beyond this limited zone, mini-grids have proven to be more apt for providing affordable electricity to clustered customer populations. But mini-grids are not without challenges. High initial cost of installation, intermittency of energy source, energy storage problems, grid integration challenges, are some of the identified problems of photovoltaic mini-grids. The way forward must begin with the mitigation of these challenges. Some of the highlighted solutions include implementation of advanced energy storage systems, the formulation of renewable energy policies geared towards enhancing affordability in rural settings, integration with smart grid technologies, and adherence to grid codes to ensure compliance. [ABSTRACT FROM AUTHOR] more...

Published

2024

23. Community imaginaries, participation and acceptance of renewable energy projects – substituting the quicksand of development with rocky fundamentals.

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Author

Tsoeu-Ntokoane, Seroala, Mosabala, Thuso Donald, Kali, Moeketsi, and Lemaire, Xavier

Subjects

COMMUNITY involvement, RENEWABLE energy sources, DECISION making, SUSTAINABILITY

Abstract

Community participation could contribute to sustaining energy projects, however some projects underestimate the value of meaningful project host communities' involvement in decision-making. Rural community energy development projects in Lesotho often assume a top-down development-driven approach void of communities' perspectives and desires. This study investigates opportunities Lesotho's renewable energy projects, either led by communities or the government, provide. The authors draw from qualitative research to examine two cases, Semonkong and Motete's participatory approaches. This study determined the magnitude of community participation in the two projects, from their initiation to the level of community participation in decision-making and implementation. The findings posit that community participation in both projects differs from minimal to no participation. They further revealed a blurry picture of community acceptance of the project where participation was relatively lower, thus bringing project sustainability into question. The Lesotho Electric Company deprived the Semonkong community the opportunity to participate in the decisions of the Semonkong mini-grid. In contrast, the Motete project consortium allowed a modicum of community participation hence higher social acceptance prospects. The study revealed that tensions, conflicts, and protests are implications associated with lack of community participation in the project of Semonkong. The sustainability of projects is dependent on the extent of the host communities' involvement, acceptance, and trust. This study recommends community engagement for hammering and forging project acceptability and sustainability. [ABSTRACT FROM AUTHOR] more...

Published

2024

24. Photovoltaic mini-grid incorporation: The panacea for electricity crisis in sub-Saharan Africa

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Author

Agbo Onyilokwu Cyril, Chika O. Ujah, Benjamin Nnamdi Ekwueme, and Christian O. Asadu

Subjects

Renewable energy, Rural electrification, Energy availability, Green energy, Energy conservation, TJ163.26-163.5, Renewable energy sources, TJ807-830

Abstract

The electrification rate in sub-Saharan Africa, standing at 45% in 2018, is significantly lower when compared with global benchmarks. The 600 million individuals lacking access to electricity constitute over two-thirds of the worldwide aggregate of the population lacking electricity. Limitations of power grids have placed a disproportionate burden of the lack of energy access on rural populations. The cheapest approach to achieving universal electricity access in numerous regions seems to be rooted in renewable energy. The diminishing cost of small-scale solar photovoltaic technology for solar home systems and mini-grids is expected to play a pivotal role in facilitating the provision of affordable electric power to millions. This study aims to elucidate the techno-economic benefits of augmenting photovoltaic mini-grids with the overarching goal of advocating for the adoption of photovoltaic mini-grid solutions in rural electrification in Sub-Saharan Africa. Prior research endeavors on rural electrification and photovoltaic mini-grids were meticulously curated and examined, with some attention also given to assessing the feasibility of grid integration. The findings showed that grid extension is the most cost-effective means of electricity delivery within a limited proximity, contingent upon topographical considerations. However, beyond this limited zone, mini-grids have proven to be more apt for providing affordable electricity to clustered customer populations. But mini-grids are not without challenges. High initial cost of installation, intermittency of energy source, energy storage problems, grid integration challenges, are some of the identified problems of photovoltaic mini-grids. The way forward must begin with the mitigation of these challenges. Some of the highlighted solutions include implementation of advanced energy storage systems, the formulation of renewable energy policies geared towards enhancing affordability in rural settings, integration with smart grid technologies, and adherence to grid codes to ensure compliance. more...

Published

2024

25. Optimal design of renewable energy based hybrid system considering weather forecasting using machine learning techniques.

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Author

Sharma, Bandana, Rizwan, M., and Anand, P.

Subjects

*HYBRID systems, *RENEWABLE energy sources, *OPTIMIZATION algorithms, *MACHINE learning, *KRIGING, *WEATHER forecasting

Abstract

Renewable energy resources are becoming more appealing as energy demand and fossil fuel costs increase. The hybridization of these resources has the potential to reduce unpredictability and intermittency while increasing efficiency. The accuracy of size optimization of hybrid renewable energy systems (HRES) can be improved by using accurate weather data that can be obtained through forecasting. Thus, to increase the precision of the size optimization, hourly forecasting of global horizontal irradiation, temperature, and wind speed for one year has been performed using Gaussian process regression (GPR), Support Vector Regression, Extreme Gradient Boosting, and Decision Tree techniques. The results of all four forecasting models (FM) are then compared and revealed that the results obtained from GPR are better than those of other FM; therefore, the forecasted data for solar, wind, and temperature obtained from GPR are used for sizing the HRES. The net present cost is utilized to analyze the viability of the HRES while considering system reliability. Furthermore, recently developed optimization algorithms, namely the Colony Predation Algorithm (CPA), Tunicate Swarm Algorithm (TSA), and Aquila Optimization (AO) algorithms have been applied to the sizing of a grid-connected HRES to meet the energy needs of a remote site in the Indian province of Haryana. A comparison of CPA, AO, and TSA has been carried out and revealed that TSA offers more promising outcomes. In addition, the simulation results demonstrate a 0.42% reduction in per unit cost of energy when forecasted data has been used for size optimization. [ABSTRACT FROM AUTHOR] more...

Published

2023

26. The ocean as a source of renewable energy in sub-Saharan Africa: sources, potential, sustainability and challenges.

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Author

Filimão Sitoe, Alberto, Hoguane, António Mubango, and Haddout, Soufiane

Subjects

RENEWABLE energy sources, OCEAN energy resources, TIDAL power, COASTAL development

Abstract

The present paper examines, based on literature review and data from Africa Energy Outlook 2019, the feasibility of adoption of renewable energy from the ocean for socioeconomic development in sub-Saharan Africa, given the enormous potential the region has for ocean-based sources of energy. The study concludes that mini tidal power plants and salt gradient power are the ocean energy sources most suitable for coastal development. It recommends a gradual reduction in subsidies of fossil fuel-based energy sources in favour of support to renewable energy, building human resources and technical capacity, the establishment of smart partnerships and mobilisation of resources for an effective promotion of ocean renewable energy. It recommends further, that community engagement is needed to assure ownership and acceptance. [ABSTRACT FROM AUTHOR] more...

Published

2023

27. Optimal Planning and Deployment of Hybrid Renewable Energy to Rural Healthcare Facilities in Nigeria.

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Author

Olatomiwa, Lanre, Longe, Omowunmi Mary, Abd'Azeez, Toyeeb Adekunle, Ambafi, James Garba, Jack, Kufre Esenowo, and Sadiq, Ahmad Abubakar

Subjects

*RENEWABLE energy sources, *RURAL health services, *HEALTH facilities, *ENERGY industries, *POWER resources, *GRIDS (Cartography), *RURAL health, *SOLAR energy

Abstract

This paper takes a cursory look at the problem of inadequate power supply in the rural healthcare centres of a developing country, specifically Nigeria, and proffers strategies to address this issue through the design of hybrid renewable energy systems combined with the existing unreliable grid in order to meet the healthcare load demand, thus ensuring higher reliability of available energy sources. The simulations, analysis and results presented in this paper are based on meteorological data and the load profiles of six selected locations in Nigeria, using which hybrid grid-connected systems integrating diesel, solar and wind energy sources are designed with configurations to give optimum output. The optimised design configurations in the considered case study, Ejioku, Okuru-Ama, Damare-Polo, Agbalaenyi, Kadassaka and Doso, produce very low energy costs of of 0.0791 $/kWh, 0.115 $/kWh, 0.0874 $/kWh, 0.0754 $/kWh, 0.0667 $/kWh and 0.0588 $/kWh, respectively, leveraging solar and wind energy sources which make higher percentage contributions at all sites. The load-following-dispatch strategy is adopted at all sites, ensuring that at every point in time, there is sufficient power to meet the needs of the healthcare centres. Further works on this topic could consider other strategies to optimise general energy usage on the demand side. [ABSTRACT FROM AUTHOR] more...

Published

2023

28. Metodología de diseño de una microrred eléctrica híbrida de energías renovables para una comunidad rural aislada. Caso de aplicación en Zambia.

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Author

Martínez, Lucas-Rodolfo, Axelsson, Josefine, Ribó-Pérez, David, and Gómez-Navarro, Tomás

Subjects

RURAL electrification, DEVELOPING countries, RENEWABLE energy sources, MICROGRIDS, ACQUISITION of data

Abstract

Copyright of DYNA - Ingeniería e Industria is the property of Publicaciones Dyna SL and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.) more...

Published

2023

29. Modeling, Simulation, and Experimental Analysis of a Photovoltaic and Biogas Hybrid Renewable Energy System for Electrification of Rural Community.

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Author

Habib, Salman, Jia, Youwei, Tamoor, Muhammad, Zaka, Muhammad Ans, Shi, Mengge, and Dong, Qianyu

Subjects

RURAL electrification, RENEWABLE energy sources, BIOGAS, CARBON dioxide mitigation, PHOTOVOLTAIC power systems

Abstract

This research is a numerical study, with simulation and experimental investigation of a novel photovoltaic and biogas hybrid renewable energy system. PVSYST simulation software is used to evaluate the energy generation of photovoltaic (PV) systems installed at optimum tilt angle and interrow spacing, as well as measure the performance ratio and system losses. The results obtained from simulations show that annual energy production from designed PV system is 16 654.80 kWh year−1 and its annual specific energy production is 1556.5 kWh kWp year−1. The average annual performance ratio is about 84.3%, normalized array production is 3.23 kWh kWp day−1, normalized system losses are 0.07 kWh kWp day−1, and normalized system production is 3.16 kWh kWp day−1. With SuperPro Designer software, a model is developed for simulating anaerobic digestion for treating animal manure to produce biogas. The simulation yields 88.13% of CH4 and 6.49% of CO2. The performance of the installed experimental setup is examined for 30 d. The maximum load demand of all houses is 46.902 kWh, whereas maximum energy produced by a hybrid PV/biogas system is 61.06 kWh. The payback period for a hybrid photovoltaic/biogas system is estimated to be 4.47 years and levelized cost of energy is 0.0186 USD kWh−1. The hybrid PV/biogas system results in net CO2 mitigation of 20.45 tCO2(e). [ABSTRACT FROM AUTHOR] more...

Published

2023

30. Renewable energy sources‐based hybrid microgrid system for off‐grid electricity solution for rural communities.

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Author

Ali, Majid, Riaz, Mohsin, Koondhar, Mohsin Ali, Akram, Muhammad Sarfraz, Guerrero, Josep M., Vasquez, Juan C., and Khan, Baseem

Subjects

RENEWABLE energy sources, RURAL electrification, ELECTRICITY, SUSTAINABLE development, SOLAR technology, RURAL women, ENVIRONMENTAL impact analysis

Abstract

Rural electrification is a crucial component of meeting sustainable development goals. In Pakistan, load shedding and power outages are frequent. According to the current data, Pakistan is experiencing a shortfall of power between 6000 and 6500 MW. Microgrid technology has the potential to provide a solution to this problem in an efficient and low‐cost manner. This paper proposes the development of a hybrid microgrid system (HMGS) for rural communities. For that purpose, a technological analysis of the HMGS system for rural electrification is performed. Solar photovoltaic (PV) and wind resource‐based renewable energy systems are considered in this work for the electrification of rural areas of Pakistan. A hybrid PV/wind system is designed using MATLAB software. Simulation results show that a 230‐V sinusoidal output voltage has been produced by the proposed model. The advantage of this model is that it minimizes the impact of transients and provides a sinusoidal output waveform. [ABSTRACT FROM AUTHOR] more...

Published

2023

31. Low-head Pico-hydro Plant using the Pump as Turbine (PaT) and Permanent Magnet Synchronous Generator (PMSG) for Isolated Loads: Experimental Studies.

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Author

Kumar, S., Sireesha, B., Singh, Jai Govind, and Salam, P. Abdul

Subjects

*PERMANENT magnet generators, *PUMP turbines, *TURBINE pumps, *POWER plants, *RENEWABLE energy sources, *HYDROELECTRIC power plants, *STORAGE tanks

Abstract

Pico hydropower is a versatile power source providing electricity access for the world's poorest living in isolated locations. Though on a global scale, a significant market for such pico hydro systems exists in many countries, they are not widely used because they are not easily available, and the available head is low. One solution to address these issues comprehensively is using a pump as a turbine. However, in the case of a pump as turbine, studies on the performance of pico hydro systems are generally available only for heads above 10 m. To assess the technical feasibility of pico hydro plant at very low heads (less than 6 m), experimental studies were conducted using a pump as turbine (PaT) with a modified impeller vane coupled with a permanent magnet synchronous generator (PMSG). A power conditioner provided a stable output voltage of 220 V and a frequency of 50 Hz. The Pico hydro plant was evaluated with a test setup of a storage tank with a facility to have heads less than 6m and flow rates ranging from 6 to 9 liters per second. The results of the experiments at different heads - with and without power conditioner - are presented in tables and graphs, giving the output and efficiency of the different components of the system. Overall, it was demonstrated that this PaT could work at heads ranging from 2 to 4.5 m and at 4.5 m head with a flow rate of 7.5 l/s, the Pico hydro plant could generate a maximum power of 1.48 kW with an efficiency of 42%. The experimental setup was also used to power typical residential loads to demonstrate the effective applicability of this renewable energy resource. Overall, the results indicate the potential of Pico hydro systems that can help electrify communities to achieve SDG 7.1 using low-head hydropower resources. [ABSTRACT FROM AUTHOR] more...

Published

2023

32. Economic Analysis of PV-Generator Hybrid Off-Grid Systems in Underdeveloped Indonesian Regions.

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Author

Juwana, Wibawa Endra, Rachmanto, Rendy Adhi, Alfaiz, Noval Fattah, Prasetyo, Singgih Dwi, and Arifin, Zainal

Subjects

RENEWABLE energy sources, HYBRID systems, ELECTRICAL energy, ENERGY industries, ENERGY consumption, SOLAR technology

Abstract

The escalating demand for electrical energy in both rural and urban sectors necessitates a reliable and sustainable source, as the availability of traditional fossil fuels diminishes and their contribution to global warming becomes increasingly untenable. This study thus explores an environmentally-friendly solution via the Hybrid Renewable Energy System (HRES), a convergence of multiple renewable energy sources for electricity production. The focus is on an off-grid photovoltaic-wind turbine hybrid system that harnesses solar and wind energy to meet the electrical needs of the scarcely accessible Maluku Province. A feasibility analysis is conducted using the Homer software to evaluate the system's potential. The results reveal that Tual City, with the lowest Net Present Cost (NPC) amounting to Rp. 268,439,300.00 and a Cost of Energy (COE) of Rp. 3,220.56, presents the most promising potential for development. The total electricity generated by this hybrid system is projected to reach 9,457 kWh/year, highlighting its potential as a sustainable solution to the pressing energy needs in remote regions. [ABSTRACT FROM AUTHOR] more...

Published

2023

33. Over a century of small hydropower projects in Indonesia: a historical review.

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Author

Rospriandana, Naufal, Burke, Paul J., Suryani, Amalia, Mubarok, M. Husni, and Pangestu, Miranda A.

Subjects

RURAL electrification, INDEPENDENT power producers, RENEWABLE energy sources, WATER power, SECONDARY analysis, ELECTRICITY pricing, CLEAN energy

Abstract

Background: Hydropower is a mature energy technology and one that could play a more important role in providing clean and reliable energy. In small-scale contexts, hydropower is useful for providing electricity access, balancing intermittent resources, and as a potential source of energy storage. This paper provides a comprehensive exploration of the development of the small hydropower (SHP) sector in Indonesia, the world's fourth most populous country. Methods: Two research methods were employed: secondary data analysis through a desk review of relevant literature and primary data collection through site visits and expert and stakeholder interviews. Two case studies of micro-hydro applications in community-based rural electrification were analyzed. The paper explores how SHP projects were initiated, lessons learned, and policy recommendations of relevance to further development of distributed small-scale renewable energy in Indonesia. Results: The sector commenced during the Dutch Era and now centers on both community-based rural electrification projects and commercial schemes under the independent power producer (IPP) approach. Since the late 1980s, initiatives to implement SHP for rural electrification have flourished through various programs. Key regulatory, economic, and technical barriers include inconsistent and unclear supporting regulations, especially regarding electricity prices; artificially low retail electricity prices; capital and borrowing constraints; advantages provided to fossil fuels; limited technical experience and capabilities of project developers and project sponsors; risks from floods, earthquakes, and landslides; constraints on supporting infrastructure; and limited grid links. The most successful and sustainable SHP projects are ones that provide local economic benefits and for which local communities are empowered with ownership and have responsibility for maintenance. Conclusions: SHP will remain small from a macro perspective but could still play a key role in further improving energy access and equity in remote areas. Key initiatives to facilitate this development could include local-level capacity building and project participation and the adequate pricing of negative externalities from fossil fuel projects. Indonesia's long experience with SHP carries lessons for other developing countries. [ABSTRACT FROM AUTHOR] more...

Published

2023

34. Development of Integrated Renewable Energy System Based on Optimal Operational Strategy and Sizing for an Un-Electrified Remote Area.

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Author

Pathak, Dixitkumar P. and Khatod, Dheeraj Kumar

Subjects

*RENEWABLE energy sources, *RURAL development, *RURAL electrification, *WIND power, *ENERGY industries, *MICROGRIDS

Abstract

Providing electricity access to remote rural areas plays a crucial role in the socio-economic development of the rural community. The use of renewable energy sources (RES) for electrification of remote rural areas has been increased in the past two decades. The integrated renewable energy system (IRES), which embeds two or more RES, is paid great attention to satisfy the energy needs of the rural areas. In the present study, the IRES model is developed using solar, micro-hydro, biomass, biogas, and wind energy sources to meet the electricity demand of the seven un-electrified clusters of hamlets of Limkheda taluka in Dahod district of Gujarat state in India. The proposed IRES model is optimized for the lowest total net present cost (TNPC) and cost of energy (COE) of the system using artificial bee colony (ABC), grey wolf optimization (GWO), and teaching learning-based optimization (TLBO) algorithms. The optimal operational strategy has been developed to minimize the operating cost of the IRES and the optimum sizing of the system. An optimal power scheduling method with a linear programming problem (LPP) approach has been carried out in the MATLAB environment. The proposed power scheduling method effectively reduces the TNPC and COE of the IRES. Finally, the results recorded in the paper confirm that the proposed configuration together with the TLBO method offers the lowest TNPC of INR 9.5951 million and TAC of INR 1.1274 million at the estimated COE of INR 5.68 per kWh, which is comparable with respect to standardized ABC and GWO. [ABSTRACT FROM AUTHOR] more...

Published

2023

35. Spatial clustering and techno-economic analysis of electrification 3T villages using renewable energy microgrid system.

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Author

Putro, Andre Laksono and Purwanto, Widodo Wahyu

Subjects

*RURAL electrification, *RENEWABLE energy sources, *MICROGRIDS, *ELECTRIFICATION, *CLUSTER analysis (Statistics), *ELECTRIC power consumption, *POPULATION viability analysis

Abstract

Electrification of 1723 underdeveloped, frontier, and outermost villages (3T villages) using renewable energy-based microgrid is vital role in improving electricity access and socio-economic activities in the regions. This development strategy in line with the government of Indonesia's program to reduce Green House Gas (GHG) emissions by 29% in 2030 and to achieve Sustainable Development Goals (SDG's) point 7. The challenges of 3T villages electrification are the location of villages that are spread out, varied renewable energy potential and low economic value. To answer those challenges, this study aims to cluster the villages based on renewable energy resource and electricity demand and to assess techno-economic viability of microgrid. The clustering the villages using Clara method and design the microgrid system by optimization model of Homer Pro, and also financial analysis is carried out using several incentive scenarios. The result shows that there are 4 cluster centers: Sari Tani (Gorontalo), Kubang Kondang (Banten), Tuno Jaya (Maluku), and Sungai Pisau (Kalimantan Barat) with microgrid configurations PV capacity 173 – 607 kWp, WTG capacity 12 kW, and BESS capacity 254 – 946 kWh. For 4 cluster villages, the base-case tariff of EPC business model is 3066 - 4115 Rp/kWh, Public Private Patnership (PPP) business model is 3362 – 4525 Rp/kWh, and Resco business model is 4051 – 5478 Rp/kWh. The most effective incentive scenario is the combination of tax allowances, carbon emissions reduction, and interest subsidy minimum 3% or grant 25% capex which can reduce base-case tariffs by 51–59 %. Hence it becomes below 85% regional cost of generation. [ABSTRACT FROM AUTHOR] more...

Published

2023

36. Geospatial assessment of small hydropower potentials in Ogun watershed for rural electrification

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Author

Olaide Sheerifdeen Akande, Yekeen Adeeyo Sanusi, Lekan Mohammed Sanni, and Idris-Nda Abdullahi

Subjects

electricity, small hydropower potential, gis, rural electrification, Renewable energy sources, TJ807-830

Abstract

Purpose: Energy access is one of the challenges confronting Nigeria and many Sub-Saharan African countries. The energy poverty experienced in the country is even more pervasive in the rural communities where only about 36% of the population had access to electricity. With the current improvement in technological advancement in GIS and remote sensing, identifying small hydropower sites have become relatively easier, faster, and cost effective. Small hydropower is a clean renewable and reliable energy alternative that meets the economic and environmental energy policy objectives. This study therefore seeks to explore the viability of the SHP potentials for rural electrification.Design/ methodology/ approach: The quantitative research approach was employed. The study analysed the small hydropower potentials in Ogun watershed using geospatial techniques (Hydrology, Neighbourhood analysis, Watershed analysis) and descriptive statistics to describe the population and energy dynamics of the study area. Findings: The study identified a total of 137 potential hydropower sites with a minimum energy potential of 502 kw and maximum of 5.80 mw. Ogun watershed has 202200kW of potential energy is expected to support the electricity need of 59,471 rural households across ten local government areas in Ogun watershed.Research implications/ limitations: The study concludes that with the abundant water resources available in the country, small hydropower plants are viable option for reducing the energy deficit of the country and can also help in the attainment of sustainable development goals 7 (universal energy access for all).Practical implications/ limitations: The study further posited that the development of small hydropower in Ogun Watershed will reduce the level of energy poverty experienced in the rural communities and stimulates the growth and development of the communities across social, environmental, and economic dimension.Originality: This study was able to estimate the viability of the energy potential identified along Ogun Watershed for rural electrification of communities within 2km radius of the potential site. Keywords: Electricity, Small hydropower potential, GIS, and Rural Electrification Received: 07 June 2022 Accepted: 13 July 2022 Published: 10 August 2022 more...

Published

2022

37. Planning third generation minigrids: Multi-objective optimization and brownfield investment approaches in modelling village-scale on-grid and off-grid energy systems

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Author

Nicolò Stevanato, Gianluca Pellecchia, Ivan Sangiorgio, Diana Shendrikova, Castro Antonio Soares, Riccardo Mereu, and Emanuela Colombo

Subjects

Microgrid, Access to energy, Rural electrification, Multi-objective optimization, Brown-field investment, Renewable energy sources, TJ807-830

Abstract

Access to reliable and sustainable electricity is still precluded for a large share of global population living in rural areas of developing countries, especially in sub-Saharan Africa. Hybrid microgrids are considered a suitable solution for providing affordable and reliable access to electricity to isolated communities. Properly planning and sizing such systems is although an aspect that can greatly influence the sustainability of the intervention, and the arrival to the market of the third generation minigrids poses new challenges to the process. Three main challenges are identified as pivotal for the proper sizing of new generation microgrids: arrival of the main grid, inappropriateness of Net Present Cost as only objective function in the strategy selection process, and necessity to operate on already existing minigrids. Such aspects are addressed in this work by proposing a methodological advancement to an existing open-source microgrid sizing model: a grid outage model alongside the definition of new constraints and variables for the optimization problem with grid-connected microgrids, a multi-objective optimization option, and a brown-field optimization option. The new version of the model is tested on real life case studies in rural Rwanda (greenfield) and Mozambique (brownfield), proving the profitability of grid-connected and grid-extension solutions for sufficiently low connection distances. Sensitivity analyses are performed to assess variations in system size, cost and CO2 emissions with respect to microgrid and grid connection parameters. more...

Published

2023

38. Towards equitable and inclusive energy systems for remote off-grid communities: A socio-technical assessment of solar power for village Helario in Tharparkar, Pakistan

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Author

Rihab Khalid, Stefano Landini, Gordhan Das Valasai, Faryal Khalid, and Philip Sandwell

Subjects

Energy systems, Energy modelling, Rural electrification, Solar photovoltaic, Socio-technical analysis, Gender equity, Renewable energy sources, TJ807-830

Abstract

Universal access to clean electricity (SDG7) in remote areas of the rural South remains a key challenge for economic growth, and has particular implications for equitable, inclusive and sustainable development. In Pakistan, techno-economic constraints in grid expansion for last-mile users, combined with the country's high solar energy potential make off-grid solar energy generation a viable solution, provided its technological, social and economic implications are well-understood in terms of actual energy demands and designed for equitable distribution. This paper presents a socio-technical feasibility assessment for designing equitable and inclusive off-grid solar systems using the case-study of Helario village in Tharparkar, Pakistan, with a key focus on gender-specific benefits. A mixed-methods approach is used to conduct a baseline field assessment of existing energy sources, community needs, women's access and energy use, affordability, future energy aspirations and social acceptability of renewable energy technologies. Results indicate gendered differences in mobility, education, everyday practices and income that have socio-economic implications, whereby women can benefit more from electrification, particularly when electricity is interlinked with access to clean water. Results are used to model, simulate and optimise a solar-battery mini-grid system for tiered and equitable energy access using CLOVER. Analysis shows that a system designed with a 10-year lifetime provides the lowest levelised cost of electricity and minimum emissions intensity, emphasising the need for long-term energy system planning. This paper serves as a demonstration for policymakers, project developers and rural communities for designing more equitable and inclusive energy systems with clear gendered implications for sustainable future access. more...

Published

2023

39. Standalone Solar Photovoltaic Electricity Supply to Rural Household in Tanzania.

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Author

Mwakitalima, Isaka J., Rizwan, Mohammad, and Kumar, Narendra

Subjects

*RENEWABLE energy sources, *SUSTAINABILITY, *RURAL electrification, *POWER resources, *ELECTRICITY, *PARTICLE swarm optimization

Abstract

Limited access to electricity is a prevalent challenge in rural areas of most developing countries. This is majorly a result of economic, logistic and topographic challenges that limit the extension of grid network to such areas. The use of renewable energy sources (RES) to supply electricity to individual home is considered to be the best rural electrification approach since these resources are readily available and their sustainability can be ensured. Technical and non-technical analyses are carried out in hybrid optimization of multiple energy resources (HOMER) pro software to determine optimal configuration of renewable energy sources. The Particle swarm optimization (PSO) method has been implemented in MATLAB for the minimization of net present cost (NPC) under the given scenarios. In HOMER, total NPCs for solar photovoltaic system (SPV) and diesel generator (DG) of the same capacities are $ 3,013 and $ 28,116, respectively. In the PSO technique, costs are reduced to $ 2,089 and $ 19,488, respectively. This study will be a milestone for rural electrification. [ABSTRACT FROM AUTHOR] more...

Published

2023

40. Evaluation of a hybrid power system based on renewable and energy storage for reliable rural electrification.

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Author

Mustafa Kamal, Md and Ashraf, Imtiaz

Subjects

*MICROGRIDS, *HYBRID power systems, *RURAL electrification, *RENEWABLE energy sources, *ENERGY storage, *ENERGY industries, *POWER resources

Abstract

Microgrids system consisting of single or multiple energy resources and storage is used to provide electricity to remote rural areas. Subsequently, they can be worked in both grid-connected and islanded modes. Microgrids can provide stable energy solutions to areas where grid extension is either costly or not feasible. The system's long-term economic stability and sustainability must be considered throughout the microgrid's design. Renewable energy sources have a variety of objectives and possible restrictions. The current plan suggests a rural microgrid with integrated solar, diesel, and battery systems. The proposed microgrid for the rural area of Uttarakhand (India) is given a techno-economic and feasibility analysis. For the hilly region of India, a standalone microgrid is created to handle the home peak load of 13kW. Moth flam optimization (MFO) is utilized to optimize the proposed energy framework, and the results are compared with those of a genetic algorithm (GA) and particle swarm optimization (PSO). The optimal hybrid system's net current and energy costs are calculated to be $58372.00, with the cost of energy per unit being $0.14/kWh. Sensitivity analysis and robustness viability have been performed for the configuration. The finding suggested that the energy framework using MFO is 18% and 16% less expensive than GA and PSO, respectively. This research adds new direction to critical sustainable development among developed countries. [ABSTRACT FROM AUTHOR] more...

Published

2023

41. Novel Harmonic Distortion Prediction Methods for Meshed Transmission Grids with Large Amount of Underground Cables †.

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Author

Akhmatov, Vladislav, Søndergaard Bukh, Bjarne, Liberty Skovgaard, Chris, and Gellert, Bjarne Christian

Subjects

*INDEPENDENT system operators, *RURAL electrification, *RENEWABLE energy sources, *CABLES, *ENERGY consumption, *FORECASTING

Abstract

The tremendous and fast green transition in Denmark has initiated the large-scale grid-integration of renewable energy sources, electrification of energy consumption, and establishment of PtX and Energy Islands, setting goals for transmission grid development—such as the establishment of new connections—and for grid reconstruction—such as the extensive substitution of overhead lines (OHLs) with underground cables (UGCs). The share of UGCs in the Danish transmission grid is increasing. Presence of UGC has resulted in that resonances of the harmonic impedance characteristics of the transmission grid are brought within the harmonic order range coinciding with the harmonic emission sources and causing systemwide increase of the harmonic voltage distortion in the 400 kV transmission grid. The transformation of the 400 kV transmission grid has given rise to the need to predict harmonic voltage distortion using simulation models to secure an adequate power quality and support investment decisions and harmonic mitigation for the grid stage, which has not yet been established and which differs from the present grid. This paper presents the experiences of Energinet, the Transmission System Operator (TSO) in Denmark, with harmonic distortion in the Danish transmission grid due to the establishment of 400 kV UGCs, and the development of measurement-validated methods for harmonic distortion simulation and prediction. The paper also presents ongoing developments within, and research addressing, the prediction of harmonic distortion in meshed grids; for example, it explores where and how an analytical approach can replace observational studies with many numerical simulations. The methods shall make it possible to predict whether, where in the transmission grid, and for which harmonic orders connections that have not yet been commissioned may cause the violation of the planning levels, and which mitigations are necessary for bringing the harmonic distortion below the planning levels with respect to a given margin. [ABSTRACT FROM AUTHOR] more...

Published

2023

42. Optimal design and development of renewable based multi‐energy system for village sustainability: A case study simulation.

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Author

Pushpabala, V. and Rajan, C. Christober Asir

Subjects

SUSTAINABILITY, RENEWABLE natural resources, COMMUNITIES, RENEWABLE energy sources, ENERGY industries, RURAL electrification

Abstract

The primary objective of this article is the design and development of the optimal hybrid renewable energy (HRE) system for rural communities through village‐owned resources. The optimal performance and economic analysis is carried out with a suitable multi‐energy generation configuration model simulation. Based on the simulation outcomes the feasibility report of the proposed HRE system is to be considered for the investor's decision‐making process. The complete analysis has been planned with three important phases such as pre assessment stage, simulation and optimization stage, and evaluation stages. This real conducted case study has expressed many interesting facts about the integration of renewable resources toward meeting the rural energy requirements with economical and smooth manners. The proposed configuration is capable to generate net annual energy of 89,822 kWh/year with CoE (cost of energy) of Rs. 8.102. In addition, the proposed HRE system is reducing the CO2 impact on the environment by nearly 3.5% with an excess energy capacity of 6688 kWh/year. [ABSTRACT FROM AUTHOR] more...

Published

2023

43. Techno-economic models of hybrid systems with renewable energy for rural applications.

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Author

Castro-Toro, Isabela, Restrepo-Valencia, Sara, Cardona, María J., and Hernando Cadavid-Marín, Gabriel

Subjects

*CLEAN energy, *RENEWABLE energy sources, *RURAL electrification, *VARIABLE costs, *POLLUTION, *HYBRID systems

Abstract

The decrease in oil production, the rise in environmental pollution, and the impending need to power areas in Colombia that do not currently have access to electricity have given the nation the task of finding new, decentralized, sustainable energy generation methods. Due to its favorable geographic location, renewable energy sources are a very appealing and affordable option in Colombia. This document presents a systematic literature review (SLR) developed to assess the recent techno-economic models and financial strategies in rural electrification using renewable energy systems. As a result, 19 documents were obtained, where the most informed funding sources included governmental, private and mixed shares. According to the information, the financial models were limited to estimate economic variables as levelized cost of electricity and net present cost. Finally, an emphasis on the need of governmental support to promote this kind of projects were reported. [ABSTRACT FROM AUTHOR] more...

Published

2023

44. Case study on demand side management‐based cost optimized battery integrated hybrid renewable energy system for remote rural electrification.

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Author

Rajegowda Kalpana, Dhavala, Hassan NageshaRao, Suresh, Siddaiah, Rajanna, and Mala, Ramesh

Subjects

*SUPPLY & demand, *RURAL electrification, *ENERGY demand management, *LOAD management (Electric power), *RENEWABLE energy sources, *POWER resources

Abstract

Power demand of isolated villages where on‐grid power supply is not economical can be met by standalone renewable energy system. Hybrid renewable energy system (HRES) considered in the current study involves photo‐voltaic, wind turbine, diesel generator, and battery. In the present study, the demand side energy management methods are used for energy management. The load shifting and strategic conservation methods are used. The energy management schemes are applied in the stage of load estimation. It is observed in the analysis that, the net present cost (NPC) of $55 263 is reduced to $34 009 with the application of demand side energy management strategies. The two control strategies, load‐following and predictive‐dispatch strategy are incorporated. The three types of batteries like lead‐acid, lithium‐ion, and zinc‐bromide are integrated, one at a time, for analysis. The analysis results in the optimal HRES configuration solution with the combination of both load shifting and strategic conservation techniques of demand side energy management. The NPC is reduced by 37% in comparison with the HRES without the application of energy management methods. The zinc‐bromide battery integrated HRES configuration through predictive dispatch control strategy with the application of demand side energy management schemes results in optimal solution for electrification of cluster of villages located in Uralagallu panchayat, Sagar Taluk, Shivamogga District, Karnataka, India. To the similar kind of geographical condition areas, the same HRES configuration with similar approach can be extended for electrification. [ABSTRACT FROM AUTHOR] more...

Published

2023

45. ASSESSMENT OF RENEWABLE ENERGY POTENTIAL IN A REGION BASED ON CLIMATIC CONDITIONS.

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Author

Naqash, Muhammad Tayyab

Subjects

RENEWABLE energy sources, CLIMATE change, SUSTAINABLE development, WIND power, SOLAR energy, ENERGY policy

Published

2023

46. Rural electrification using maintenance free hybrid generation.

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Author

Doifode, Vaibhaw R., Fulzele, Punit, Shete, Pranay S., Gondhalekar, Gaurav C., and Wanjari, Avishkar V.

Subjects

*ENERGY consumption, *ENERGY economics, *SOLAR wind, *ELECTRIC power, *RENEWABLE energy sources, *RURAL electrification

Abstract

Electrical power plays a vital role in our lives. We need electricity for industry, agriculture, transport, communication, etc. The fundamental relationship between energy and economics is more people with more income, means a rise in production and hence more consumption of energy. Electric power demand is increasing day by day in all sectors along with the population. Population and income growth are the most powerful driving forces behind electrical power demand globally. To deal with the situation power engineers continuously focus on the increase in the utilization of new and renewable energy. Till date, only wind generator and the solar PV are the two energy sources which give promising results and the mobility to utilize the energy generated through them. Due to technical limitations, the size of the wind generator or solar PV is more than that of the generating electric power. After so many years of research, researchers said that the power utilization generated through solar PV and wind turbine can be easily possible for less load rating. [ABSTRACT FROM AUTHOR] more...

Published

2022

47. Review of the Lao People's Democratic Republic energy policies for sustainable development.

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Author

Keomeesay, Phidsavard, Liu, Na, Nie, Yichen, Li, Shuaizhe, Zhang, Wei, Liu, Ying, Souliyathai, Dona, Li, Xingyong, Chen, Yubao, Zhao, Xuebing, Ma, Longlong, and Liu, Shijie

Subjects

*CLEAN energy, *ENERGY development, *ENVIRONMENTAL protection, *RENEWABLE energy sources, *RURAL electrification

Abstract

[Display omitted] • Lao PDR focuses on sustainable development and renewable energy policy. • Hydropower is central to Lao PDR's strategy for regional electricity export. • Lao PDR supports rural electrification for sustainable energy access. • Lao PDR aims to cut fossil fuel reliance with clean energy initiatives. • Energy policies in Lao PDR prioritize environmental protection and growth. The Lao People's Democratic Republic (Lao P.D.R) gets more than 70 % of its energy from conventional sources, which emphasizes the urgent need to switch to renewable energy. This study looks at the supply and demand scenario for energy in the Lao P.D.R. The need to reduce carbon emissions and enhance energy security in a country where over 60 % of the population lacks consistent access to electricity motivates this study. It is predicted that Laos can significantly enhance its energy sustainability by 2030 by implementing a diverse energy mix that includes at least 30 % renewable sources. A mixed-methods approach was used to evaluate the viability of different renewable technologies, including hydropower, solar electricity, and biomass, through the analysis of current energy policy, stakeholder interviews, and modeling scenarios. Findings indicate that switching to renewable energy could cut carbon emissions by up to 40 % and increase electrification rates by 80 % by 2030, provided that significant obstacles such as funding and technical capability are overcome. A coordinated effort among government, corporate sectors, and local communities is essential to addressing existing impediments, ultimately paving the way for a sustainable and resilient energy future in Laos. [ABSTRACT FROM AUTHOR] more...

Published

2025

48. A new intelligent approach for size optimization of a renewable energy based grid connected hybrid energy system.

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Author

Sharma, Bandana, Rizwan, Mohammad, and Anand, Priyanka

Subjects

*RENEWABLE energy sources, *PARTICLE swarm optimization, *POWER resources, *PLUG-in hybrid electric vehicles, *SUSTAINABLE development, *HYBRID power systems, *MICROGRIDS

Abstract

Adopting hybrid power systems to provide access to clean, reliable, and inexpensive energy is necessary for countries like India to accomplish their goals of sustainable development. This work proposes an optimization approach for sizing a grid‐connected hybrid renewable energy system (HRES) that includes photovoltaic, biomass, biogas, and a battery. In this research, a recently developed Aquila optimization algorithm is utilized to evaluate the optimal size of HRES for a cluster of villages near Sarai Jairam, Agra district, Uttar Pradesh, India using the MATLAB software package. The goal of this optimization approach is to reduce the net present cost for HRES while satisfying the operational constraints, including the reliability of the power supply and maximum utilization of the photovoltaic, biomass, and biogas complementary properties. Initially, three HRES configurations in the off‐grid mode were optimized using the suggested Aquila optimization technique. To confirm the findings, the optimization results for the same models of off‐grid HRES were obtained using the harmony search (HS) and particle swarm optimization (PSO) algorithms. The same algorithms were also used to optimize the grid‐connected SPV/biomass/biogas with the battery model of HRES. Finally, the outcomes from the off‐grid models presented above were compared to the grid‐linked model. The grid‐connected configuration which is obtained by the Aquila optimization approach provides an optimal solution with the least net present cos t (NPC) and minimum cost of energy (COE) when compared with HS and PSO. The optimal grid‐connected HRES includes 235 kW of PV, a 10 kW biogas generator, a 64 kW biomass generator, and a 50.40 kWh battery bank. The overall net present cost and the COE are found to be $547 670 and $0.0768/kWh, respectively. [ABSTRACT FROM AUTHOR] more...

Published

2023

49. Feasibility and optimal sizing analysis of hybrid renewable energy systems: A case study of Al-Karak, Jordan.

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Author

Al Afif, Rafat, Ayed, Yasmine, and Maaitah, Omer Nawaf

Subjects

*RENEWABLE energy sources, *CARBON dioxide mitigation, *ENVIRONMENTAL quality, *RURAL electrification, *POWER resources, *WIND power, *GREENHOUSE gases, *WALL panels

Abstract

The aim of this research is to examine the techno-economic viability of both off-grid and on-grid hybrid renewable energy systems for Jordan's Al-Karak governorate. Hybrid Optimization of Multiple Energy Resources (HOMER) Pro software was used in this article to evaluate the carry feasibility to maximize the renewable energy (RE) integration in hybrid energy systems based on different configurations, grid-connected and stand-alone systems of the wind turbine, biogas plant, photovoltaic (PV) panels, flywheel, and batteries while minimizing the net present cost, the Levelized cost of energy and CO2 emissions mitigation. The results showed that the PV/Wind system, connected to the grid with batteries for storage is the optimal configuration for sustainable Al-Karak governorate electrification whilst achieving environmental benefits and guaranteeing reliable and continuous energy access with the lowest net present cost and the Levelized cost, 298,359 USD$ and 0.024 USD$/kWh respectively, and high RE share, 71.8% of electricity is generated from wind and 28.2% is purchased from the grid and emits 220 tons of CO2 per year, 53% less than a grid alone system. Such a system would provide advantages in terms of energy independence and improved environmental quality. • A hybrid renewable energy system for Jordan's Al Karak governorate was optimized. • Six different scenarios of renewable energy systems were examined. • The impact of the optimal configuration on GHG emission was analyzed. • PV/Wind/batteries system, connected to grid was the optimal configuration. [ABSTRACT FROM AUTHOR] more...

Published

2023

50. The hybrid power generation and balancing energy supply--demand for rural village in Ethiopia.

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Author

Gezahegn, Getachew Tesfaye, Hatiye, Samuel Dagalo, Ayana, Melkamu Teshome, Ayalew, Abebe Temesgen, and Minda, Thomas Torora

Subjects

*POWER resources, *HYBRID power, *RENEWABLE energy sources, *HYBRID systems, *ELECTRIC power consumption, *HYBRID zones, *RURAL electrification, *HYBRID power systems

Abstract

Ethiopia has a wide range of environmentally-friendly, renewable energy resources that can assist the country to overcome its rural electricity problems. The Hybrid Optimization Model for Multiple Energy Resources (HOMER) software package was used to evaluate the viability of solar, hydro and wind hybrid power generation for a remote community in Ethiopia's Geba catchment. The hydrologic, climatic and demographic data were used to analyze the community's electrical supply and demand. Using survey data from chosen residences, the community's hourly and daily electricity demands were calculated. Two or more schemes were investigated besides the standalone scheme to assess the hybrid system's capacity. Wind, micro-hydro and solar can generate an average annual power of 96.8, 272.4 and 161.8 kW, respectively. A mix of energy sources can meet the community's electricity demand. During peak demand periods, however, the hybrid system's mean hourly variability in power production showed inadequacy, which could be remedied by power stored in the battery and generator output. The economic analysis showed that the hybrid system proposed here is less expensive, indicating that hybrid energy generation might be employed to electrify Ethiopia's remote settlements. We advise decision-makers and power authorities to use hybrid systems for rural electrification. [ABSTRACT FROM AUTHOR] more...

Published

2023