Gotowe bibliografie tematyczne / Integrated rural electrification system

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  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Książki
  4. Części książek
  5. Streszczenia konferencji
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Gotowa bibliografia na temat „Integrated rural electrification system”

Autor: Grafiati
Data publikacji: 6 września 2023

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Artykuły w czasopismach na temat "Integrated rural electrification system"

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Amanze, Fortune Chukwuebuka, i Destiny Josiah Amanze. "Off-grid rural electrification using integrated renewable energy sources". International Journal of Advances in Applied Sciences 10, nr 1 (1.03.2021): 1. http://dx.doi.org/10.11591/ijaas.v10.i1.pp1-12.

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Presented in this study is an economic and technical evaluation to determine the optimal system combination for off-grid power generation based on solar, wind and biodiesel renewable energy resource. Nsukka being endowed with high intensity solar radiation, adequate wind speed and sufficient bioresource is a prospective candidate for a hybrid system. The monthly average daily global radiation ranges from 3.91kWh/m2 to 5.74kWh/m2 and the average wind speed is about 2.64m/s. This system was designed to meet the load requirement of the school with annual electrical demand of 10,163 MWh. Sensitivity analysis was carried out based on the effect of change in biodiesel fuel price and interest rates on the economic performance criteria of the optimal configuration. The optimum hybrid system is composed of 1kW capacity PV system, auto sized biodiesel generator and battery bank of 820h of autonomy. The Levelized Cost of Energy from the optimal system was found to be $0.0898/kWh based on sensitivity results. These results obtained shows that an integrated system with combination of PV, biodiesel generator and battery bank is a cost-effective alternative to grid extension which cost $0.126/kWh. The system life span is for 25years and it is sustainable, economical, technically feasible and environmentally friendly.
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Dey, A. K., JVR Nickey i Y. Sun. "Renewable-integrated Traffic Energy". MATEC Web of Conferences 220 (2018): 05005. http://dx.doi.org/10.1051/matecconf/201822005005.

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This work is a development of an indigenous technology combined Flap-motor power generator (FMPG) and PV system that harnesses the free renewable energies in rural area to generate electricity. FMPG and solar renewable energy power technologies are affordable, clean and sustainable and can replace or supplement power generator for road traffic signal light. Combined energy systems integrate these renewable energy technologies with flap base car passing power generators, PV and batteries to provide road signal power in remote areas not connected to a utility grid. Such an isolated grid will help to supply electricity for traffic signal to avoid road accident and maximum vehicle efficiency at intersections. This power generation device will provide constant power supply while no sunlight for long days. At the same time technology will represent instance power supply for rural area traffic light electrification system without grid connection.
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Rabah, Kefa V. O. "Integrated solar energy systems for rural electrification in Kenya". Renewable Energy 30, nr 1 (styczeń 2005): 23–42. http://dx.doi.org/10.1016/j.renene.2004.04.011.

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Kanase-Patil, A. B., R. P. Saini i M. P. Sharma. "Integrated renewable energy systems for off grid rural electrification of remote area". Renewable Energy 35, nr 6 (czerwiec 2010): 1342–49. http://dx.doi.org/10.1016/j.renene.2009.10.005.

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Kumar, Polamarasetty P., Ramakrishna S. S. Nuvvula i Vasupalli Manoj. "Grass Hopper Optimization Algorithm for Off-Grid Rural Electrification of an Integrated Renewable Energy System". E3S Web of Conferences 350 (2022): 02008. http://dx.doi.org/10.1051/e3sconf/202235002008.

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A suitable alternative to grid expansion has been found in renewable energy sources like wind, solar, and biomass. To put it another way, relying solely on one of the major renewable sources is both inefficient and expensive. As a result, an integrated renewable energy system is a viable option. The purpose of this article is to discuss the use of the Grasshopper Optimization Algorithm (GOA) for renewable energy sizing in the current study area. For an autonomous microgrid network, the proposed technique finds the optimum system size on the basis of Loss of Power Supply Probability (LPSP). The proposed microgrid consists of PV panels, wind turbines, biomass generator and a battery storage system. The proposed GOA algorithm’s convergence efficiency in resolving the current optimization problem is investigated and compared with Particle Swarm Optimization (PSO) and Genetic Algorithm (GA) in the MATLAB software environment. The simulation results show that the GOA algorithm outperforms its counterparts, GA and PSO, in terms of system sizing.
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López-González, Alejandro, Bruno Domenech i Laia Ferrer-Martí. "Sustainability Evaluation of Rural Electrification in Cuba: From Fossil Fuels to Modular Photovoltaic Systems: Case Studies from Sancti Spiritus Province". Energies 14, nr 9 (27.04.2021): 2480. http://dx.doi.org/10.3390/en14092480.

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In the last ten years, there has been a progressive improvement in rural electrification indexes in developing countries, and renewable energies are progressively being integrated into electrification programs. In Cuba, the government has set a target of 700 MW in solar photovoltaic energy by 2030, including rural electrification and off-grid systems. Within this framework, 10,000 modular systems of 300 Wp are being installed in isolated communities. Nowadays, previously diesel-electrified settlements are migrating into renewable energy technologies projects in rural Cuba. The objective of this research is to evaluate the sustainability of these changes in order to identify the implications for other developing countries, taking four different dimensions into account: environmental, technical, socioeconomic, and institutional. For this purpose, the rural communities of Yaguá (diesel-based) and Río Abajo (solar-based) in the province of Sancti Spiritus are visited and studied. Results show that the institutional dimension of sustainability is positive thanks to improvements in energy security and promotion of the Cuban national plan goals. Moreover, results confirm that the energy transition from diesel-based to solar PV is environmentally sustainable in Cuba, but improvements are still necessary in the power capacity of solar modules to strengthen the socioeconomic and technical dimensions.
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M, Krishna Chaitanya. "Smart Solar Grid integrated PV System with Faulty Permanence Enhancement: For Better Rural Electrification in India". International Journal of Advanced Trends in Computer Science and Engineering 9, nr 4 (25.08.2020): 4383–88. http://dx.doi.org/10.30534/ijatcse/2020/30942020.

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Li, Jiaxi, Dan Wang, Hongjie Jia, Guohong Wu, Wei He i Huaqiang Xiong. "Prospects of key technologies of integrated energy systems for rural electrification in China". Global Energy Interconnection 4, nr 1 (luty 2021): 3–17. http://dx.doi.org/10.1016/j.gloei.2021.03.001.

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González-García, Andrés, Pedro Ciller, Stephen Lee, Rafael Palacios, Fernando de Cuadra García i José Ignacio Pérez-Arriaga. "A Rising Role for Decentralized Solar Minigrids in Integrated Rural Electrification Planning? Large-Scale, Least-Cost, and Customer-Wise Design of Grid and Off-Grid Supply Systems in Uganda". Energies 15, nr 13 (21.06.2022): 4517. http://dx.doi.org/10.3390/en15134517.

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Increasing Uganda’s low electrification rate is one of the country’s major challenges. Power service is essential to achieve socioeconomic development and poverty reduction, especially in rural areas. This paper shows the advantages of using an integrated (grid and off-grid) electrification model with high geospatial, temporal, and customer-class granularity as the Reference Electrification Model (REM). In universal electrification strategies, REM will help better ascertain the role of minigrids, jointly with grid extension, solar kits, and stand-alone systems. REM has been applied to the Southern Service Territory (SST) to determine the least-cost mix of electrification modes—grid extension, off-grid minigrids, and standalone systems—that satisfies the hourly demand requirements of each customer—residential, commercial, or industrial—considering its individual location. REM incorporates the existing grid layout, the hourly solar local profile, and the catalogs of actual components for network and generation designs. The paper shows that minigrids can provide grid-like service at a significantly lower cost in many circumstances and to a considerable extent. Therefore, minigrid strategies should play a more important role in electrification planning, both transitorily and on a permanent basis, particularly when the central grid suffers from frequent and prolonged blackouts.
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Al-Ghussain, Loiy, Mohammad Abujubbeh, Adnan Darwish Ahmad, Ahmad M. Abubaker, Onur Taylan, Murat Fahrioglu i Nelson K. Akafuah. "100% Renewable Energy Grid for Rural Electrification of Remote Areas: A Case Study in Jordan". Energies 13, nr 18 (18.09.2020): 4908. http://dx.doi.org/10.3390/en13184908.

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Many developing countries suffer from high energy-import dependency and inadequate electrification of rural areas, which aggravates the poverty problem. In this work, Al-Tafilah in Jordan was considered as a case study, where the technical, economic, and environmental benefits of a decentralized hybrid renewable energy system that can match 100% of the city demand were investigated. A tri-hybrid system of wind, solar, and hydropower was integrated with an energy storage system and optimized to maximize the match between the energy demand and production profiles. The optimization aimed at maximizing the renewable energy system (RES) fraction while keeping the levelized cost of electricity (LCOE) equal to the electricity purchase tariff. The techno-economic analysis showed that the optimal system in Al-Tafilah comprises a 28 MW wind system, 75.4 MW PV, and 1 MW hydropower, with a 259 MWh energy storage system, for which a RES fraction of 99% can be achieved, and 47,160 MtCO2 are avoided yearly. This study can be easily extended to other rural cities in Jordan, as they have higher renewable energy system (RES) potential. The presented findings are essential not only for Jordan’s planning and economy-boosting but also for contributing to the ongoing force against climate change.
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Rozprawy doktorskie na temat "Integrated rural electrification system"

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Liang, Tian Shen. "Rural Electrification in East Malaysia : Achieving optimal power generation system and sustainability of rural electrification projects". Thesis, KTH, Energiteknik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-192252.

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The objectives of this project are to propose improvements to one of the civil society organisations, Lightup Borneo, helping it to attain an optimal power generation system capable of supplying reliable and continuous electricity, as well as to achieve sustainability of rural electrification projects. The project spans six months; methodology includes desk research, field research, case study and simulation using HOMER. The review of government programmes provided references for accomplishing the project objectives. Kampung Mantapok was chosen as the subject of case study. Current system installed at this village only consists of 10 kW micro-hydropower system. Total electricity demand of the village is 53.72 kWh/d, with two daily peak load occurring at 11 am and 5 pm. Eight system configurations were derived based on two-level full factorial design and evaluated with HOMER. A system configuration consisting of 10 kW micro-hydro generator, 3 kW inverter and two units of 280 Ah battery was selected. Its COE and NPC are the lowest – RM 0.181 (US$ 0.045) and RM 46,230 (US$ 11,558) respectively. It has 0 % of annual capacity shortage and unmet load. When system cost increases, when river discharge reduces. COE reduces when electricity load, capacity shortage and battery lifetime increase. Villagers’ level of satisfaction and confidence, assuming to be inversely proportional to capacity shortage and unmet load, are equally important as the system cost. Current system has 5 % of capacity shortage and lower resiliency, indicating incapability of handling load growth and variations of river discharge. Improvements for current system are justified given the above facts. The upfront cost for improvements is 19 % of the capital cost of current system. The improved system also outweighs diesel-fuelled system by saving 11 tons of carbon dioxide emission and having 73 % lower COE and NPC. In order to achieve sustainability of rural electrification projects, four recommendations were proposed, namely integration of development programmes, establishment of community organizations, enhancing knowledge sharing and communication. Project findings are useful for Lightup Borneo’s upcoming projects, life-cycle analysis of power generation system and study of community-based electricity generation, as well as energy policy reform in Malaysia.
Syftet med detta projekt är att föreslå förbättringar till en icke-statlig organisation i Malaysia, Lightup Borneo, för utformning av ett optimalt elproduktionssystem som kontinuerligt kan leverera el. Dessutom diskuteras hur hållbarhet kan uppnås i elektrifieringsprojekt på landsbyggden. Projektet har sträckt sig över sex månader, och inkluderar resultat från faktainsamling, fältarbete, samt en datorsstödd fallstudieanalys med hjälp av mjukvaran Homer. Statliga program för elektrifiering har undersökts, och verkar som referenser för genomförande av projektets mål. Kampung Mantapok valdes som föremål för fallstudien. Det system som för närvarande är installerat i denna by består endast av en 10 kW mikrovattenkraftverk med en enkel kontrollmodul. Byns totala elbehov är 53.72 kWh/d, med dagliga toppbelastningar kl 11 samt 17. Ett antal systemkonfigurationer, baserade på faktorförsök har utvärderas med HOMER. En systemkonfiguration bestående av en 10 kW mikrogenerator för vattenkraft, en 3 kW inverter samt två 280 Ah batterier valdes. I denna utformning erhölls det lägsta COE och NPC – RM 0.181 (US$ 0.045) respektive RM 46,230 (US$ 11,558). Denna konfiguration tillgodoser 100% av elbehovet på årsbasis. Systemkostnaden ökar då flödesuttaget från floden minskar. COE minskar när ellasten, kapacitetbrist och batteriets livstid ökar.Lika viktiga som systemkostnaden är bybornas tillfredsställelse och tillit till systemet för eltillförsel. Det nuvarande systemet har en 5%-ig kapacitetsbrist på årsbasis och visar sämre flexibilitet vad gäller att hantera varierande flöden och en framtida behovstillväxt. Därför är förbättringar i det nuvarande systemet motiverade. Investeringskostnaderna för förbättringar utgör 19% av investeringskostnaden för nuvarande system, men 11 ton koldioxid kan sparas genom minskat behov av diesel, och COE och NPC minskar med 73%. För att uppnå hållbarhet i elektrifieringsprojekt på landsbygden föreslås fyra rekommendationer: integrering av utvecklingsprogram, upprättande av samhällsorganisation per by, samt förbättrat utbyte av kunskap och kommunikation. Projektets resultat är användbara för Lightup Borneos kommande projekt, livscykelanalys av system för elproduktion och studie av samhällsbaserade elproduktion, och om energireform i Malaysia.
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Oama, Clint Arthur. "Hybrid Energy System for Off – Grid Rural Electrification(Case study Kenya)". Thesis, Högskolan på Gotland, Institutionen för kultur, energi och miljö, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-217001.

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The aim of this thesis study is to design a hybrid energy system comprised of wind turbines, diesel generators and batteries to provide electricity for an off - grid rural community in Kenya. Wind Measurements collected over six years from 12 locations in Kenya have been studied and one site selected for this project due to its wind potential, geographical location and socio-economic potential. The energy system is designed to cater for the electricity demand of 500 households, one school, one medical clinic and an irrigation system. The system will support up to 3000 people. The Hybrid Optimization Model for Electric Renewables (HOMER) is the software tool that has been used to simulate the hybrid system and analyze its results. The optimization has been carried out and presented according to cost of electricity and sensitivity graphs have been used demonstrate the optimization based on diesel price and wind turbine hub height.
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Williams, Jada Bennette. "Strategies for Improved Microgrid System Selection for the Electrification of Rural Areas". University of Dayton / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=dayton1437961472.

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Pokharel, Shaligram. "Integrated rural energy decision support system". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp05/nq22228.pdf.

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Suwannakum, Tawatchai. "Mini-grid system for rural electrification in the great Mekong sub-regional countries". Kassel Kassel Univ. Press, 2007. http://d-nb.info/987579800/04.

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Azimoh, Chukwuma Leonard. "Sustainability and development impacts of off-grid electrification in developing countries : An assessment of South Africa's rural electrification program". Doctoral thesis, Mälardalens högskola, Framtidens energi, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-30762.

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Previous studies have shown that provision of sustainable electricity supply to rural households is essential to bring development to off-grid populations. For this reason, most developing countries put large efforts into rural electrification programs to stimulate development and reduce poverty. However, to be sustainable these programs need to recover costs, which poses a challenge to remote low income populations.  This often forces governments and other institutions involved in rural electrification to subsidize the electricity production. It also affects the choice of technology and places a barrier on the level of energy provided in line with the ability to pay for services. As a result of this, most programs have failed to achieve the desired objectives, as the technologies used often do not support income generating activities that could increase the payment capabilities of the beneficiaries and contribute to development. This thesis is focused on the rural electrification program of South Africa, the country in sub-Saharan Africa that has the highest access to electricity. It investigates the success elements that influence the sustainability of rural electrification programs and their contributions to socio-economic development. This was achieved by evaluating the South African program that provides solar home systems to off-grid communities, and a hybrid solar-wind mini-grid project in South Africa. The study also draw lessons from other rural electrification programs in neighbouring countries, i.e. an evaluation of a hybrid solar-diesel mini-grid system in Namibia, and a review of two systems, a hybrid solar-biomass mini-grid project in Botswana and a hydro mini-grid program in Lesotho. The study revealed that hydro based hybrid mini-grid systems provide the most cost effective way of bringing energy services to rural settlements. Regardless of technology, successful programs depend on adequate support from the government, implementation of a progressive tariff system that allows the high consuming high income earners and businesses, to cross subsidize the low consuming , low income users. It shows that it is more likely for rural electrification programs to survive if the design considers the existing businesses, population growth and the corresponding load increase. The thesis further shows that provision of sufficient energy to induce income generating activities is essential to decrease the need for subsidies and to ensure the sustainability of programs. In addition, availability of spare parts and a capable management team is essential for the successful operations and maintenance of these systems.
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Koko, S. P., K. Kusakana i H. J. Vermaak. "Techno-economic analysis of an off-grid micro-hydrokinetic river system for remote rural electrification". Interim : Interdisciplinary Journal, Vol 13, Issue 3: Central University of Technology Free State Bloemfontein, 2013. http://hdl.handle.net/11462/311.

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Published Article
This study investigates the use of off-grid micro-hydrokinetic river system as a cost-effective and sustainable electricity supply option for remote rural residents in close proximity to flowing water and not having access to grid electricity. This hydrokinetic technology is still in the development stage and there is a lack of application especially in rural areas with reasonable water resource. This study will present the economic and environmental benefits of the proposed system. A mathematical model is developed to simulate the system performance as submitted to different solicitations. A test prototype will also be used in order to validate the simulation results.
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Suwannakum, Tawatchai [Verfasser]. "Mini-Grid System for Rural Electrification in the Great Mekong Sub Regional Countries / Tawatchai Suwannakum". Kassel : Kassel University Press, 2008. http://d-nb.info/100661608X/34.

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Kayumba, Epimaque. "Design of a Battery Charging System Using a Micro-Hydro Power for Rwandan Rural Area Electrification". Thesis, Högskolan i Gävle, Avdelningen för bygg- energi- och miljöteknik, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-17973.

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Gaslac, Lucero, Sebastian Willis, Grimaldo Quispe i Carlos Raymundo. "A hybrid energy system based on renewable energy for the electrification of low-income rural communities". Institute of Physics Publishing, 2018. http://hdl.handle.net/10757/624632.

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Electrification of low-income rural areas that have a limited connection or no access to electrical grids is one of the most demanding challenges in developing countries such as Peru. The international commitment to stop global warming and the reduction in the cost of renewable sources of energy have reduced the prices of fossil fuels in some cases. This has opened the way to the current research which proposes a hybrid energy system (HES) based on the use of renewable sources of energy. Therefore, a renewable electricity system (HRES) was set up at the village of Monte-Catache in the Cajamarca region, which is one of the poorest areas of Peru. Surveys and field studies were used to evaluate the socioeconomic characteristics, availability of renewable energy resources, and energy demand of this region. Potential energy sources were evaluated, and isolated photovoltaic systems with a battery bank were found to be the most appropriate according to the results obtained in the simulation with HOMER. This proposal constitutes an interesting contribution for future energy solutions in isolated and low-income rural areas.
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Książki na temat "Integrated rural electrification system"

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Kurt, Carl E. GIS-based integrated rural and small urban transit asset management system. Ames, Iowa: Midwest Transportation Consortium, c/o Iowa State University, 2003.

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Hurwitch-Macdonald, Jan. Income generation by rural women: Creating an integrated system to support self-managed labour intensive production projects. [Kingston, Jamaica?]: Inter-American Institute for Cooperation on Agriculture, 1985.

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Taylor, Dorothea M. Computer based integrated learning systems in rural Alaska: An evaluation of the Jostens learning system. Washington, D.C: Educational Resources Information Center, 1990.

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Morrison, Sylvia. Economic evaluation of transfer of the Rural Electrification Revolving Fund from Federal authority to the Farm Credit Administration. Washington, D.C: Congressional Research Service, Library of Congress, 1985.

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Multi-level information system for integrated rural development programme in India: A study conducted for CIRDAP. New Delhi: Indian Institute of Mass Communication, 1985.

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Bangladesh) IRG Development Services Ltd. (Dhaka. Impact evaluation study of ten lakh consumers connection under existing PBS distribution system. Dhaka: Evaluation Sector, Implementation Monitoring and Evaluation Division, Ministry of Planning, Government of the People's Republic of Bangladesh, 2015.

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Philippines. National Economic and Development Authority. i Philippine Center for Economic Development., red. Community information and planning system, phase II: Report of the Mid-term Workshop on Action Research Project on Community Participation in Integrated Rural Development through Community Information and Planning System (CIPS), phase-II in collaboration with National Economic and Development Authority, held at the Philippine Center for Economic Development, University of the Philippines, 12-16 March 1990. Dhaka, Bangladesh: Centre on Integrated Rural Development for Asia and the Pacific, 1990.

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Office, General Accounting. Financial management: Overall plan needed to guide system improvements at Education : report to the Secretary of Education. Washington, D.C: The Office, 1987.

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Office, General Accounting. Financial management: Bureau of Indian Affairs' efforts to implement new accounting system : report to the Subcommittee on Interior and Related Agencies, Committee on Appropriations, House of Representatives. Washington, D.C: The Office, 1990.

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Electric system operations and maintenance. [Washington, D.C: Rural Utilities Service, 1998.

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Części książek na temat "Integrated rural electrification system"

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Palatel, Arun. "Biomass Gasifier Integrated Hybrid Systems as a Sustainable Option for Rural Electrification". W Sustainable Energy Technology and Policies, 257–70. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-8393-8_11.

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Ranaweera, Iromi, Mohan Lal Kolhe i Bernard Gunawardana. "Hybrid Energy System for Rural Electrification in Sri Lanka: Design Study". W Solar Photovoltaic System Applications, 165–84. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-14663-8_7.

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Aashiq, A., Haniya Ashraf, Supraja Sivaviji i O. V. Gnana Swathika. "Data Logger-Aided Stand-Alone PV System for Rural Electrification". W Smart Buildings Digitalization, 249–64. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003240853-20.

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Chen, Li-Chun. "Turning on the Lights with Renewable Energy: Solar PV Mini-Grid System for Lighting in Myanmar". W Springer Climate, 39–57. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-24545-9_3.

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AbstractMyanmar targets 100% electrification by 2030 through both of grid extension and off-grid electrification under the National Electrification Plan (NEP). Despite all the policies and plans of the government, a significant population living in remote rural areas will remain far from the nation grid and unable to afford connection fees in the distant future. The Myanmar Department of Rural Development, which is the leading government agency in implementing the off-grid component of the NEP, therefore seeks assistance from advanced countries and international societies, including Taiwan. Based on the local conditions of targeted villages, the International Cooperation Development Fund proposes a tailored pilot project for rural Myanmar. The project achieved the development goals of inclusive growth and environmental protection through access to affordable and renewable energy and demonstrated that even the poor or vulnerable groups in developing countries can contribute to a net-zero society.
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Mahalakshmi, M., i S. Latha. "Simulation and Optimization of Biomass Based Hybrid Generation System for Rural Electrification". W Lecture Notes in Electrical Engineering, 407–16. New Delhi: Springer India, 2014. http://dx.doi.org/10.1007/978-81-322-2119-7_41.

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Sharma, Bandana, M. Rizwan i P. Anand. "Optimal Sizing of a Grid-Connected Biomass/Biogas/PV System for Rural Electrification". W Lecture Notes in Electrical Engineering, 507–14. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-2828-4_46.

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Xue, Eryong, i Jian Li. "Promoting the Integrated Development of Urban and Rural Education in China". W Creating a High-Quality Education Policy System, 55–73. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-3276-1_5.

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Mohapatra, Sushmita, Saurabh Agrawal i Himanshu Ranjan. "Rural Electrification Using Hybrid Solar and Biogas System in Phulwaria Village, Bihar: A Case Study". W Lecture Notes in Civil Engineering, 99–109. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-7557-6_8.

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Zereg, Hadda, i Hassen Bouzgou. "Multi-Objective Optimization of Stand-Alone Hybrid Renewable Energy System for Rural Electrification in Algeria". W Artificial Intelligence and Heuristics for Smart Energy Efficiency in Smart Cities, 21–33. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-92038-8_3.

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Behera, Ranjan K., Swati Sneha i Rustom Kumar. "Low-Cost Smart Solar DC Nano-Grid for Isolated Rural Electrification: Cyber-Physical System Design and Implementation". W Intelligent Systems, 13–24. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-6081-5_2.

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Streszczenia konferencji na temat "Integrated rural electrification system"

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Patel, Alpesh M., i Sunil Kumar Singal. "Off grid rural electrification using integrated renewable energy system". W 2016 IEEE 7th Power India International Conference (PIICON). IEEE, 2016. http://dx.doi.org/10.1109/poweri.2016.8077272.

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Taheruzzaman, Muhammad. "Designing and Sizing of standalone solar homes system integrated microgrid: for rural electrification". W 2019 5th International Conference on Advances in Electrical Engineering (ICAEE). IEEE, 2019. http://dx.doi.org/10.1109/icaee48663.2019.8975516.

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Singh, Prakhar, Anup Kumar Yadav i Yog Raj Sood. "Simulink Modelling of a Solar-hydro-battery Integrated Microgrid System for Rural Electrification in India". W 2020 IEEE International Conference on Computing, Power and Communication Technologies (GUCON). IEEE, 2020. http://dx.doi.org/10.1109/gucon48875.2020.9231103.

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Patel, Alpesh M., i Sunil Kumar Singal. "Implementation Methodology of Integrated Renewable Energy System Modeling for Off-grid Rural Electrification: A review". W 2018 International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE). IEEE, 2018. http://dx.doi.org/10.23919/icue-gesd.2018.8635707.

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Rajanna S i R. P. Saini. "GA based optimal modeling of integrated renewable energy system for electrification of a remote rural area". W 2016 IEEE 6th International Conference on Power Systems (ICPS). IEEE, 2016. http://dx.doi.org/10.1109/icpes.2016.7584174.

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Singh, Yashi, Bhim Singh i Sukumar Mishra. "A High-Performance Solar PV Array-Wind and Battery Integrated Microgrid for Rural Electrification". W 2020 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES). IEEE, 2020. http://dx.doi.org/10.1109/pedes49360.2020.9379877.

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Chaurasia, Ravi, Sanjay Gairola, Yash Pal i Rajkumar Viral. "Optimal Siting and Sizing of an Off-grid Integrated Renewable Energy System (IRES) For Remote Rural Electrification". W 2019 3rd International Conference on Recent Developments in Control, Automation & Power Engineering (RDCAPE). IEEE, 2019. http://dx.doi.org/10.1109/rdcape47089.2019.8979008.

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Rajanna, S., i R. P. Saini. "Optimal modeling of an integrated renewable energy system with battery storage for off grid electrification of remote rural area". W 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2016. http://dx.doi.org/10.1109/icpeices.2016.7853114.

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Hemapala, K. T. M. U., M. S. Dayarathne i O. V. Gnana Swathika. "Optimized cost enabled rural electrification system". W 2017 Moratuwa Engineering Research Conference (MERCon). IEEE, 2017. http://dx.doi.org/10.1109/mercon.2017.7980509.

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Saha, Sangit, Abhinav Bhattacharjee, D. Elangovan i G. Arunkumar. "DC microgrid system for rural electrification". W 2017 International Conference on Energy, Communication, Data Analytics and Soft Computing (ICECDS). IEEE, 2017. http://dx.doi.org/10.1109/icecds.2017.8390006.

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Raporty organizacyjne na temat "Integrated rural electrification system"

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You, Siming, Ondřej Mašek, Bauyrzhan Biakhmetov, Simon Ascher, Sudeshna Lahiri, PreetiChaturvedi Bhargava, Thallada Bhaskar, Supravat Sarangi i Sunita Varjani. Feasibility and impacts of Bioenergy Trigeneration systems (BioTrig) in disadvantaged rural areas in India. University of Glasgow, sierpień 2023. http://dx.doi.org/10.36399/gla.pubs.305660.

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This project aims to evaluate the techno-economic and social feasibility, and socio-environmental impacts of bioenergy trigeneration (electricity, clean cooking fuel, and green soil conditioner) systems that tackle the triple crisis of poor electrification, household air pollution, and farmland contamination in rural India. This system is called BioTrig. A project workshop has been held in November in India to discuss and finalise action plans. A questionnaire has been developed to understand the energy, resource, and new technology acceptance of rural households in India. Chemical process modelling, life cycle assessment and cost-benefit analysis has been conducted to evaluate the environmental impact and economic feasibility of BioTrig.
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Petit, Vincent. Road to a rapid transition to sustainable energy security in Europe. Schneider Electric Sustainability Research Institute, październik 2022. http://dx.doi.org/10.58284/se.sri.bcap9655.

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Decarbonization and energy security in Europe are two faces of the same coin. They are both related to the large dependency of the European Union economy on fossil fuels, which today represent around 70% of the total supply of energy. The bulk of these energy resources are imported, with Russia being the largest supplier, accounting for 40% of natural gas and 27% of oil imports. However, fossil fuels are also the primary root cause of greenhouse gas emissions, and the European Union is committed to reduce those by 55% by 2030 (versus 1990). This report is based on the landmark research from the Joint Research Center of the European Commission, the “Integrated Database of the European Energy Sector”, which for the first time mapped actual energy uses for each country within the European Union, across 17 sectors of activity, with data granularity at the level of each process step (or end-use) of each of these sectors. Our approach here has been to systematically review these process steps (or end-uses) and qualify the extent to which they could be electrified, effectively removing the demand for fossil fuels as a result. We have focused only on those process steps where technology was already widely available and for which we evaluated the switch to be relatively easy (or attractive). In other words, we estimated the impact of rapid electrification of “easy to abate” activities. The conclusion of this evaluation is that the share of electricity demand in the final energy mix could jump from around 20% today to 50%, which would drive a reduction in emissions at end-use of around 1,300 MtCO2 /y, as well as a drop in natural gas and oil supply of around 50%. As a result of such transformation, electricity demand would nearly double, with the bulk of that growth materializing in the building sector. Short-term, the challenge of addressing climate targets while providing for energy security is thus intimately connected to buildings. While such transition would certainly require major infrastructure upgrades, which may prove a roadblock to rapid deployment, we find that the combination of energy efficiency measures (notably digital) and distributed generation penetration (rooftop solar) could significantly tame the issue, and hence help accelerate the move away from fossil fuels, with energy spend savings as high as 80% across some building types; a major driver of change. Beyond this, further potential exists for electrification. Other measures on the demand-side will include deeper renovations of the industrial stock (notably in the automotive, machinery, paper, and petrochemical industries for which our current assessment may be underestimated) and further electrification of mobility (trucks). The transition of the power system away from coal (and ultimately natural gas) will then also play a key role, followed ultimately by feedstocks substitution in industry. Some of these transitions are already on the way and will likely bring further improvements. The key message, however, is that a significant opportunity revolves around buildings to both quickly decarbonize and reduce energy dependencies in Europe. Rapid transformation of the energy system may be more feasible than we think. We notably estimate that, by 2030, an ambitious and focused effort could help displace 15% to 25% of natural gas and oil supply and reduce emissions by around 500 MtCO2 /y (note that these savings would come on top of additional measures regarding energy efficiency and flexibility, which are not the object of this study). For this to happen, approximately 100 million buildings will need renovating, and a similar number of electric vehicles would need to hit the road.
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Gillen, Emily, Olivia Berzin, Adam Vincent i Doug Johnston. Certified Electronic Health Record Technology Under the Quality Payment Program. RTI Press, styczeń 2018. http://dx.doi.org/10.3768/rtipress.2018.pb.0014.1801.

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The 2016 Quality Payment Program (QPP) is a Medicare reimbursement reform designed to incentivize value-based care over volume-based care. A core tenet of the QPP is integrated utilization of certified electronic health record technology (CEHRT). Adopting and implementing CEHRT is a resource-intensive process, requiring both financial capital and human capital (in the form of knowledge and time). Adoption can be especially challenging for small or rural practices that may not have access to such capital. In this issue brief, we discuss the role of CEHRT in the QPP and offer policy recommendations to help small and rural practices improve their health information technology (IT) capabilities with regards to participation in value-based care. The QPP requires practices to have health IT capabilities, both as a requirement for a complete performance score and to facilitate reporting. Practices that are unable to implement CEHRT will have difficulty complying with the new reimbursement system, and will likely incur financial losses. We recommend monetary support and staff training to small and rural practices for the adoption of CEHRT, and we recommend assistance to help practices comply with the requirements of the QPP and coordinate with other small and rural practices for reporting purposes.
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Mitra, Sudeshna, Amlanjyoti Goswami, Deepika Jha, Sahil Sasidharan, Kaye Lushington i Mukesh Yadav. Land Records Modernisation in India: Haryana. Indian Institute for Human Settlements, 2021. http://dx.doi.org/10.24943/9788195648511.

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This work provides an institutional, legal and policy review of crucial aspects of land records modernisation systems in Haryana. The state offers a unique window into the regional diversity of land systems in India; it underwent a large-scale land consolidation exercise in 1950s, and features rectangular land parcels of equal area, and a share-system of joint landholdings with limited spatial demarcation. Technologically, the state has an integrated system of land record management, and continues to make advances. Haryana is also one of the country’s most prolific real estate markets, attracting some of the largest private sector investment. However, the land records management system remains primarily rural, and does not yet capture the realities of an urban property landscape and the transition into a fragmented, individualised private property system.
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Gender mainstreaming in local potato seed system in Georgia. International Potato Center, 2020. http://dx.doi.org/10.4160/9789290605645.

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This report presents the study findings associated with the project “Enhancing Rural Livelihoods in Georgia: Introducing Integrated Seed Health Approaches to Local Potato Seed Systems” in Georgia. It also incorporates information from the results of gender training conducted within the framework of the USAID Potato Program in Georgia. The study had three major aims: 1) to understand the gender-related opportunities and constraints impacting the participation of men and women in potato seed systems in Georgia; 2) to test the multistakeholder framework for intervening in root, tuber, and banana (RTB) seed systems as a means to understand the systems themselves and the possibilities of improving gender-related interventions in the potato seed system; and 3) to develop farmers’ leadership skills to facilitate women’s active involvement in project activities. Results of the project assessment identified certain constraints on gender mainstreaming in the potato seed system: a low level of female participation in decision-making processes, women’s limited access to finances that would enable their greater involvement in larger scale potato farming, and a low awareness of potato seed systems and of possible female involvement in associated activities. Significantly, the perception of gender roles and stereotypes differs from region to region in Georgia; this difference is quite pronounced in the target municipalities of Kazbegi, Marneuli, and Akhalkalaki, with the last two having populations of ethnic minorities (Azeri and Armenian, respectively). For example, in Marneuli, although women are actively involved in potato production, they are not considered farmers but mainly as assistants to farmers, who are men. This type of diversity (or lack thereof) results in a different understanding of gender mainstreaming in the potato seed system as well. Based on the training results obtained in three target regions—Akhalkalaki, Akhaltsikhe, and Marneuli—it is evident that women are keen on learning new technologies and on acquiring updated agricultural information, including on potato production. It is also clear that women spend as much time as men do on farming activities such as potato production, particularly in weeding and harvesting. However, women are heavily burdened with domestic work, and they are not major decision-makers with regard to potato variety selection, agricultural investments, and product sales, nor with the inclusion of participants in any training provided. Involving women in project activities will lead to greater efficiency in the potato production environment, as women’s increased knowledge will certainly contribute to an improved production process, and their new ideas will help to improve existing production systems, through which women could also gain confidence and power. As a general recommendation, it is extremely important to develop equitable seed systems that take into consideration, among other factors, social context and the cultural aspects of local communities. Thus, understanding male and female farmers’ knowledge may promote the development of seed systems that are sustainable and responsive to farmers’ needs and capacities.
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