Relevant bibliographies by topics / Distributed Solar Power

Contents

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

Academic literature on the topic 'Distributed Solar Power'

Author: Grafiati
Published: 5 June 2025
Last updated: 24 June 2025

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Journal articles on the topic "Distributed Solar Power"

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Rekha and Channappa Byalihal Shankaralingappa. "Optimal allocation of solar and wind distributed generation using particle swarm optimization technique." International Journal of Electrical and Computer Engineering (IJECE) 13, no. 1 (2023): 229–37. https://doi.org/10.11591/ijece.v13i1.pp229-237.

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Power demand in the current days is increasing more and more where the conventional power generation systems are failing to meet these power demands due to less availability of non-renewable resources. Hence, many of the researchers are working on the distributed generation (DG) by using renewable resources like wind and solar. The penetration towards wind, solar DG faced challenging situations during power generation due to uncertainty in the wind speed and solar radiation. Recent studies have predicted that the combination of both solar and wind can lead to better performance. However, the sizing and placement of DG systems is necessary to achieve efficiency otherwise the systems may lead to adverse effects in distribution networks. This paper introduced the solar DG, wind DG and hybrid (solar and wind) DG system. The particle swarm optimization technique is used to size and place the DG because of its parallel search capability. Also, the combination of wind-solar DG gives better DG sizing in the respective DG location. The voltage profile of these DG systems has shown better results for the efficient power system. In comparison to conventional DG systems, the suggested hybrid DG system is capable of minimizing power loss and maintaining voltage profile.
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Fu, Qiang, Chengxi Fu, Peng Fu, and Yuke Deng. "Application of Green Power Generation Technology for Distributed Energy." E3S Web of Conferences 329 (2021): 01021. http://dx.doi.org/10.1051/e3sconf/202132901021.

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This article discusses and analyzes the technical strengths and weaknesses of the green power generation that can be used for distributed system (power generation) power generation, for instance, solar power generation, wind power, hydrogen fuel cells, biomass power generation, and small gas turbines. The key to the discussion is to apply the technical distributed power generation of solar power stations. In addition, it also discussed the use of "focusing solar power generation high-temperature solar thermal power conversion system software" technical completion of distributed system power distribution. Low-cost, high-temperature solar thermal power generation is selected as the power generation solution medium, the power generation is technically low consumption and high-efficiency, the volume and power generation methods are conveniently equipped, the stability is high, and the economic development is environmentally friendly.
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Xu, Nan, Shan Shan Li, and Hao Ming Liu. "Distribution System Fault Recovery with Undispatchable Distributed Generations." Applied Mechanics and Materials 529 (June 2014): 455–59. http://dx.doi.org/10.4028/www.scientific.net/amm.529.455.

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Considering the probabilistic of the wind power and the solar power, a fault recovery method for distribution systems with the wind power and the solar power is presented in this paper. For the wind power, a simplified steady-state equivalent model of an asynchronous wind generator is added into the Jacobian matrix to consider the impact of the wind power on systems. For the solar power, its output is considered as an injected power which is related with solar irradiance. Three-point estimate is employed to solve the probabilistic power flow of distribution systems with the wind power and the solar power. The restoration is described as a multi-objective problem with the mean of the system loss and the number of switch operations. Fast elitist non-dominated sorting partheno-genetic algorithm is used to solve this multi-objective problem. IEEE 33-bus system is used as an example and the results show that the models and algorithms in this paper are efficient.
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Mohanty, Parimita. "Role of Power Converters in Distributed Solar Power Generation." Journal of Automation and Control Engineering 2, no. 1 (2014): 38–42. http://dx.doi.org/10.12720/joace.2.1.38-42.

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Yang, Qi, Meng Cong Liu, Ying Chen, and Yun Xiao Bai. "Distributed Network Power Flow of Distributed Generation." Advanced Materials Research 614-615 (December 2012): 1693–99. http://dx.doi.org/10.4028/www.scientific.net/amr.614-615.1693.

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With constrains imposed by natural conditions, the power generated from wind power, solar power and other intermittent energy system has great randomness and volatility. Thus, the impact from the intermittent energy to the system voltage and power flow is uncertainty. In view of this problem, this paper studies the characteristics of these double random variables and correlation. By using the typical probabilistic load flow and Monte Carlo simulation method, this paper poses the probability load flow adapted to the intermittent distributed generation. Finally, taking IEEE33 distribution system for example, this paper obtains the mutual relationship between the power from the intermittent distributed generation and the probability distribution of the node voltage, current distribution of each branch.
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Wanjekeche, Tom, Andreas A. Ndapuka, and Lupembe Nicksen Mukena. "Strategic Sizing and Placement of Distributed Generation in Radial Distributed Networks Using Multiobjective PSO." Journal of Energy 2023 (October 4, 2023): 1–14. http://dx.doi.org/10.1155/2023/6678491.

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Distributed generators (DGs) offer significant advantages to electric power systems, including improved system losses, stability, and reduced losses. However, realizing these benefits necessitates optimal DG site selection and sizing. This study proposes a traditional multiobjective particle swarm optimization (PSO) approach to determine the optimal location and size of renewable energy-based DGs (wind and solar) on the Namibian distribution system. The aim is to enhance voltage profiles and minimize power losses and total DG cost. Probabilistic models are employed to account for the random nature of wind speeds and solar irradiances. This is used in an algorithm which eventually optimizes the siting and sizing of DGs using the nearest main substation as reference. The proposed method is tested on the Vhungu-Vhungu 11 kV distribution network in Namibia. Four cases were considered: base case with no DG, solar power, wind power, and a hybrid of both wind and solar. Optimal values for each case are determined and analyzed: 0.69.93 kW at 26 km for solar PV-based DG and 100 kW at 42 km for wind-based DG. These findings will serve as a valuable blueprint for future DG connections on the Namibian distribution network, providing guidance for optimizing system performance.
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Alam, Md Shafiul. "Power Management for Distributed Generators Integrated System." Energies 15, no. 16 (2022): 5813. http://dx.doi.org/10.3390/en15165813.

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Vrzala, Matouš, Miroslava Goňo, Radomír Goňo, Michal Kotulla, Małgorzata Wzorek, and Zbigniew Leonowicz. "Distributed Generation Power Systems in Wastewater Management." Energies 15, no. 17 (2022): 6283. http://dx.doi.org/10.3390/en15176283.

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The article concerns the energy security of a wastewater treatment process caused by unforeseen situations related to the risk of electrical power outages. In this case, renewable energy sources based on distributed generation power systems can solve this problem in each wastewater treatment plant. The article highlights e related challenges and proposes the direction of solutions in this regard based on Czech conditions. The first part of the paper deals with the consequences of long-term outage of wastewater treatment plants on the population and the environment. There are several solutions presented for blackout conditions, and model calculations are made based on data from a Czech wastewater treatment plant. Diesel engine-generators, biogas as a cogeneration source of heat and electricity, solar panels with storage systems and combined biogas and solar systems were considered as approaches to provide energy autonomy during a blackout in a wastewater treatment plant. Special attention was paid to a combination of CHP units with solar panels and batteries. The results were evaluated for three different locations for this combination. It was concluded that biogas combustion in the CHP unit was the most profitable option, allowing the production of electricity independently of the grid for its own consumption and possibly for other operations. The last part of the paper deals with the transition to island operation, which must occur during a blackout. This transition is more difficult for both solar panels and cogeneration units if they were to supply electricity to the grid before a blackout. The transition to energy island operation could be ensured by frequency relay and processor devices to control the circuit breaker. Then, to maintain island operation, it would be necessary to have an automatic load shedding/application system.
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Lezhnyuk, Petro, Iryna Hunko, Juliya Malogulko, Iryna Kotylko, and Lіudmyla Krot. "MODELING OF COMPATIBLE WORK OF DISTRIBUTED POWER SOURCES OF ELECTRIC POWER AND CENTRALISED POWER SUPPLY." TECHNICAL SCIENCES AND TECHNOLOG IES, no. 2 (12) (2018): 189–95. http://dx.doi.org/10.25140/2411-5363-2018-2(12)-189-195.

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Urgency of the research. Current trends of distributed generation development in Ukraine indicate a rapid generation in-crease from renewable energy plants. Most developed countries gradually refuse from the fossil fuels use and invest more and more to the “green” energy. Therefore, there is a need for a detailed study of the operation conditions of distributed energy sources due to their instability, as well as the processes that arise in distribution electric networks with diverse types of distributed energy sources. Target setting. In the producing process of power energy by distributed energy sources due to the increase in their num-ber, there are situations where several renewable sources of energy operate to only one system of buses. Thus, such distributive networks acquire the features of a local power system, which complicates the control process of such systems, and also there is a problem with the electricity supply of consumers. Actual scientific researches and issues analysis. The analysis of publications suggests that in literature more attention is paid to studying the operating modes of solar power plants, or small hydroelectric power plants. However, almost no attention was paid to the study of their cooperation work. Uninvestigated parts of general matters defining. Only a few works are devoted to the study of the cooperation of the diverce sources of distributed energy sources in the local electrical systems. That is why, their impact on power distribution networks and on the grid in general has not been studied extensively. The research objective. In this article was considered the influence of asynchronous generators on small hydroelectric power plants on the operation modes of distribution electrical networks, and were investigated the processes that are occurring in local power systems with different types of distributed energy sources. The statement of basic materials. Based on the research results, was developed a computer model of a such system in the PS CAD software environment. Two solar stations and one small hydroelectric power station with an asynchronous generator were connected to the power supply. It was shown the simulation of two modes of operation: a joint operation of a small hydroelectric power station, two solar power stations and a power supply center; a joint operation of a small hydroelectric pow-er plant, two solar power stations and a power supply disconnected. Conclusions. As a result of computer simulation, it is shown that by switching on a small hydroelectric power plant with an asynchronous generator in the case of an emergency shutdown of centralized power supply, it is possible to restore the work of solar power plants, and thus partially or completely restore the power supply of consumers.
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Maevsky, Dmitry, Oleksandr Vynakov, and Oleg Ketrar. "DEVICES AND SYSTEMS OF DISTRIBUTED GENERATION." ELECTRICAL AND COMPUTER SYSTEMS 37, no. 113 (2023): 6–16. http://dx.doi.org/10.15276/eltecs.37.113.2023.01.

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Abstract. The article is devoted to the analysis of the features of various distributed generation systems from the point of view of their inclusion in a single distributed energy system. It is shown that the need to switch to distributed generation is associated with the need to create reliable power supply systems that can maintain their performance in the event of partial or complete destruction of any part of such a system. The devices of solar, wind and hydropower, as well as the possibility of using small modular nuclear reactors as devices for distributed generation are analyzed. It is shown that the most promising for application are environmentally friendly solar cells. Wind generation and small hydropower plants can also be used to create sustainable and reliable power supply systems. Small modular reactors can be used to power large cities and industrial consumers. The analysis of economic and energy parameters of various devices of distributed generation is carried out. It is concluded that the elements of a distributed generation system can be not only individual devices, but also systems of such devices at the level of a territorial region. Keywords: distributed generation; electrical system; solar energy; solar power plants, wind energy; modular nuclear reactors; intelligent networks.
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Dissertations / Theses on the topic "Distributed Solar Power"

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Price, Suzanne. "A consideration of cycle selection for meso-scale distributed solar-thermal power." Thesis, Atlanta, Ga. : Georgia Institute of Technology, 2009. http://hdl.handle.net/1853/29694.

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Thesis (M. S.)--Mechanical Engineering, Georgia Institute of Technology, 2010.<br>Committee Chair: Mayor, James Rhett; Committee Member: Garimella, Srinivas; Committee Member: Jeter, Sheldon. Part of the SMARTech Electronic Thesis and Dissertation Collection.
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Tuomey, E. S., G. Velasquez, S. Slade, K. Bunker, E. Reyes, and T. Yousefnejad. "A DISTRIBUTED, LOW-POWER TELEMETRY SYSTEM FOR SOLAR RACE CAR APPLICATIONS." International Foundation for Telemetering, 2000. http://hdl.handle.net/10150/607699.

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International Telemetering Conference Proceedings / October 23-26, 2000 / Town & Country Hotel and Conference Center, San Diego, California<br>This student paper was produced as part of the team design competition in the University of Arizona course ECE 485, Radiowaves and Telemetry. It describes the design of a telemetry system for the University of Arizona’s Daedalus solar car. This is a distributed, low-power, telemetry-on-demand system that solves many of the problems typically encountered in this specialized telemetry application. The topology of the distributed microcontroller system is shown, as are optimal command and data packet structures. Also featured is a high-gain, low profile antenna system designed specifically for the solar car. Additionally, a customized chase car operator interface is illustrated.
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Shen, Ming. "Distributed Solar Photovoltaic Grid Integration System : A Case Study for Performance." PDXScholar, 2012. https://pdxscholar.library.pdx.edu/open_access_etds/945.

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The needs to the sustainable development of electricity, energy efficiency improvement, and environment pollution reduction have favored the development of distributed generation (DG). But the problems come with increasing DG penetration in distribution networks. This thesis presents the Solar Energy Grid Integration System (SEGIS) Stage III project done by Portland General Electric (PGE), Advanced Energy, Sandia National Lab on a PGE selected distribution feeder. The feeder has six monitored commercial solar PV systems connected. The total power output from the PV systems has the potential to reach 30% of the feeder load. The author analyzes the performance of the solar feeder on both generation and voltage effects. As a project report, it introduced a new islanding detection done by other team members to give an islanding solution of future high penetration distribution networks. At last, the author describes micro-grid and grid support concepts in a SEGIS concept paper with some examples.
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Ma, Anthony Winston. "Modeling and Analysis of a Photovoltaic System with a Distributed Energy Storage System." DigitalCommons@CalPoly, 2012. https://digitalcommons.calpoly.edu/theses/727.

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As California continues to integrate more renewable energy into its electrical system, the state has experienced a corresponding rise in photovoltaic system installations. PV arrays are a unique source of power generation in that they are affected by the location of the sun, shading, and temperature changes. These characteristics make solar one of the most highly variable forms of renewable energy. In order to improve solar power’s consistency, PV systems require a supplemental source of power. The primary focus of this paper is to determine if distributed energy storage systems can be used to reduce the effect of solar intermittency. This paper examines the test data and system specifications of an experimental DESS. The benefits of using a DESS in a PV system are further studied using computer simulation modeling. This paper also shows through computer simulations how a maximum power point tracker can increase a PV array’s power output. The results of this thesis demonstrate that DESS’s are capable of smoothing out highly variable load profiles caused by intermittent solar power.
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Hagström, Emil. "Grid planning with a large amount of small scale solar power." Thesis, Uppsala universitet, Institutionen för teknikvetenskaper, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-199060.

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With an increasing interest for renewable power, photovoltaics (PV) have becomemore and more common in the distribution network. If a customer wants to install aPV system, or another type of distributed generation (DG), the distribution systemoperators (DSO) needs a good way to determine if it the grid can handle it or not. InSweden, a guideline to aid the DSO was published in 2011. However, this guidelineonly considers one connection without considering other DG units. This project isabout developing new guidelines for DG connections in grids with a large number ofDG units. Based on a literature study it has been concluded that one of the mostcritical issue is over-voltage, which is the main focus of this project. Two new methods have been developed; the first proposed method is based onneglecting reactance and losses in the grid, a simple linear relationship between thevoltage level, the resistance in the lines, and the installed power is obtained. Thisrelationship is then used to calculate the voltage level at critical points in the grid. Thesecond method is to find the weakest bus, with a connected DG unit. By assumingthat all power is installed at that point we get a very simple guideline; it is veryconservative but can be used before the first method. A simulation tool has been developed in order to analyze the voltage level in grids forvarious cases with connected DG units. The simulated results have proven that theproposed guidelines are, when considering voltage issues, very reliable and can beuseful. However, further work needs to be done to ensure that other problems donot occur.
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Krishnamurthy, Smitha. "SOLAR AND FUEL CELL CIRCUIT MODELING, ANALYSIS AND INTEGRATIONS WITH POWER CONVERSION CIRCUITS FOR DISTRIBUTED GENERATION." Master's thesis, University of Central Florida, 2009. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/3501.

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Renewable energy is considered to be one of the most promising alternatives for the growing energy demand in response to depletion of fossil fuels and undesired global warming issue. With such perspective, Solar Cells and Fuel Cells are most viable, environmentally sound, and sustainable energy sources for power generation. Solar and Fuel cells have created great interests in modern applications including distributed energy generation to provide clean energy. The purpose of this thesis was to perform a detailed analysis and modeling of Solar and Fuel cells using Cadence SPICE, and to investigate dynamic interactions between the modules and power conversion circuits. Equivalent electronic static and dynamic models for Solar and Fuel Cells, their electrical characteristics, and typical power loss mechanisms associated with them are demonstrated with simulation results. Power conversion circuits for integration with the dynamic models of these renewable low voltage sources are specifically chosen to boost and regulate the input low dc voltage from the modules. The scope of this work was to analyze and model solar and fuel cells to study their terminal characteristics, power loss mechanisms, modules and their dynamics when interfaced with power converters, which would lead to better understanding of these renewable sources in power applications.<br>M.S.<br>School of Electrical Engineering and Computer Science<br>Engineering and Computer Science<br>Electrical Engineering MSEE
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Munoz-Coreas, Edgard. "Stargrazer One: A New Architecture for Distributed Maximum Power Point Tracking of Solar Photovoltaic Sources." UKnowledge, 2015. http://uknowledge.uky.edu/ece_etds/76.

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The yield from a solar photovoltaic (PV) source is dependent on factors such as light and temperature. A control system called a maximum power point tracker (MPPT) ensures that the yield from a solar PV source is maximized in spite of these factors. This thesis presents a novel implementation of a perturb and observe (PO) MPPT. The implementation uses a switched capacitor step down converter and a custom digital circuit implementation of the PO algorithm. Working in tandem, the switched capacitor step down converter and the custom digital circuit implementation were able to successfully track the maximum power point of a simulated solar PV source. This implementation is free of the overhead encountered with general purpose processor based MPPT implementations. This makes this MPPT system a valid candidate for applications where general purpose processors are undesirable. This document will begin by discussing the current state of MPPT research. Afterward, this thesis will present studies done to be able to use the chosen switched capacitor step down converter. Then the digital circuit PO implementation will be discussed in detail. Simulations of the architecture will be presented. Finally, experimental validation using a hardware prototype will be shown.
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Hagmar, Hannes. "A feasibility study of Increasing Small Scale Solar Power in Sri Lanka." Thesis, Högskolan Väst, Avd för data- och elektroteknik, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:hv:diva-6575.

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The following report is conducted as a feasibility study, aimed to objectively uncover the advantages and challenges of increasing the amount of small scale solar power in Sri Lanka. The demand for electricity in Sri Lanka has been steadily increasing the last few years and there is an urgent need to find new ways of generating electricity. To not further increase the already high dependency of foreign oil and to decrease the impact on the environment, a transition from traditional combustion of fossil fuel to new renewable energy is required. The report shows that there exists substantial potential for generating solar energy in Sri Lanka. Calculations show that an investment in a photovoltaic system can be economically favourable and that the investment often is paid back within a few years. Current regulations and electricity pricing increases the economic incitement for high electricity consumers to invest in small scale solar power. Furthermore, the report demonstrates that there are likely no technical obstacles of increasing small scale solar power at this period. In contrary, the report shows that small scale solar power in general decreases line losses, voltage drops, and the peak demand of electricity. At present, it is probably not the lack of economic incitement but rather socio-economic factors that limit the development of small scale solar power. Sri Lanka is still a relatively poor country and the long years of civil war have prevented development and wealth. Lack of funds and a high ratio of low-income earners are probably the main reason for the slow development
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Cao, Yu. "A novel step-up/step-down full-bridge DC-DC converter for distributed solar power applications." Thesis, University of British Columbia, 2015. http://hdl.handle.net/2429/54788.

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Among the many renewable energy sources, solar power is becoming one of the quickest to be adopted due to continuous technological progress and reductions in cost. Today's typical photovoltaic modules that are connected together in series and parallel to form strings and sub-arrays. Various distributed photovoltaic architectures are introduced in this thesis and DC-DC converters with maximum power point tracking are also introduced. Partial power processing is a technique to allow only a fraction of the power to be processed by the DC-DC converter, thereby reducing losses and improving efficiency. A new partial power isolated DC-DC converter is proposed in this thesis. The converter features maximum power point tracking and its controller selectively engages the buck portion or the boost portion or both in response to the maximum power point tracking input signal to achieve the desired output voltage and maximum power. With series connected DC-DC converters, each DC-DC converter carries an equal string current and adjusts its output voltage proportional to the available power of the connected photovoltaic module. The proposed topology allows each photovoltaic module to operate at its own maximum power point under varying or mismatched solar irradiance conditions, yet keep the total DC string voltage constant. The proposed circuit is verified using PLECS simulation software. In comparison to the existing circuit with partial power processing method, the proposed circuit overcomes the disadvantage that the output voltage can only be greater than the input voltage. With the two metal oxide semi-conductor field effect transistors added in series with the diodes in the secondary side of the transformer, the new circuit operates at a 100kHZ switching frequency and is able to perform both step up and step down modes with a properly designed control block. As a result, the circuit can convert a voltage from a PV panel that is higher or lower than the output to a regulated DC output voltage.<br>Applied Science, Faculty of<br>Engineering, School of (Okanagan)<br>Graduate
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Widén, Joakim. "System Studies and Simulations of Distributed Photovoltaics in Sweden." Doctoral thesis, Uppsala universitet, Fasta tillståndets fysik, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-132907.

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Grid-connected photovoltaic (PV) capacity is increasing worldwide, mainly due to extensive subsidy schemes for renewable electricity generation. A majority of newly installed systems are distributed small-scale systems located in distribution grids, often at residential customers. Recent developments suggest that such distributed PV generation (PV-DG) could gain more interest in Sweden in the near future. With prospects of decreasing system prices, an extensive integration does not seem impossible. In this PhD thesis the opportunities for utilisation of on-site PV generation and the consequences of a widespread introduction are studied. The specific aims are to improve modelling of residential electricity demand to provide a basis for simulations, to study load matching and grid interaction of on-site PV and to add to the understanding of power system impacts. Time-use data (TUD) provided a realistic basis for residential load modelling. Both a deterministic and a stochastic approach for generating different types of end-use profiles were developed. The models are capable of realistically reproducing important electric load properties such as diurnal and seasonal variations, short time-scale fluctuations and random load coincidence. The load matching capability of residential on-site PV was found to be low by default but possible to improve to some extent by different measures. Net metering reduces the economic effects of the mismatch and has a decisive impact on the production value and on the system sizes that are reasonable to install for a small-scale producer. Impacts of large-scale PV-DG on low-voltage (LV) grids and on the national power system were studied. Power flow studies showed that voltage rise in LV grids is not a limiting factor for integration of PV-DG. Variability and correlations with large-scale wind power were determined using a scenario for large-scale building-mounted PV. Profound impacts on the power system were found only for the most extreme scenarios.<br>Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 711
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Books on the topic "Distributed Solar Power"

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(Firm), GE Energy. Western Wind and Solar Integration Study. National Renewable Energy Laboratory, 2010.

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L, Dolce James, Krupp Joseph C, and United States. National Aeronautics and Space Administration., eds. Electric power scheduling: A distributed problem-solving approach. NASA, 1990.

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Drury, Easan. The impact of different economic performance metrics on the perceived value of solar photovoltaics. National Renewable Energy Laboratory, U.S. Dept. of Energy, Office of Energy Efficiency and Renewable Energy, 2011.

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Carlos, Balda Juan, Oliva Alejandro Raul, Electric Power Research Institute, Central and South West Corporation., and University of Arkansas (Fayetteville campus). Energy Conversion Laboratory., eds. The impact of dispersed generation upon the quality of electric power: The Solar Park in the Ft. Davis distribution system. Electric Power Research Institute, 1997.

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B, Ferguson Mitchell, ed. Renewable energy grid integration. Nova Science Publishers, 2009.

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Kesselring, P. Iea/Ssps Solar Thermal Power Plants: Distributed Collector Systems. Springer-Verlag, 1986.

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Shertukde, Hemchandra Madhusudan. Distributed Photovoltaic Grid Transformers. Taylor & Francis Group, 2017.

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Distributed Photovoltaic Grid Transformers. Taylor & Francis Group, 2014.

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Shertukde, Hemchandra Madhusudan. Distributed Photovoltaic Grid Transformers. Taylor & Francis Group, 2017.

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Shertukde, Hemchandra Madhusudan. Distributed Photovoltaic Grid Transformers. Taylor & Francis Group, 2017.

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Book chapters on the topic "Distributed Solar Power"

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Casal, Federico G. "The Distributed Collector System." In Solar Thermal Power Plants. Springer Berlin Heidelberg, 1987. http://dx.doi.org/10.1007/978-3-642-52281-9_4.

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Kesselring, Paul, and Clifford S. Selvage. "Distributed Collector System." In The IEA/SSPS Solar Thermal Power Plants. Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-82680-1_2.

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Pathak, Geeta, Bhim Singh, and B. K. Panigrahi. "Fixed-Speed Wind and Solar Power System with Multifunctional Voltage Source Converter." In Distributed Energy Systems. CRC Press, 2022. http://dx.doi.org/10.1201/9781003229124-10.

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Mandi, Rajashekar P. "Techno-economic Evaluation of Grid-connected Solar Photovoltaic Power Plant for Rural Banks." In Handbook of Distributed Generation. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-51343-0_11.

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Cho, Jungseok, Jeongdoo Lee, and Doosan Cho. "A Prediction Method of Solar Power Generator using Machine Learning Techniques." In Parallel and Distributed Computing, Applications and Technologies. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-5907-1_37.

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Boes, E. C., E. C. Cameron, and E. L. Harley. "Collector Field Maintenance: Distributed Solar Thermal Systems." In The IEA/SSPS Solar Thermal Power Plants — Facts and Figures— Final Report of the International Test and Evaluation Team (ITET). Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-82684-9_48.

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Jeyaprabha, S. Berclin. "Distributed Maximum Power Point Tracking for Mismatched Modules of Photovoltaic Array." In Advanced Technologies for Solar Photovoltaics Energy Systems. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-64565-6_8.

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Iaria, Davide, Jafar Alzaili, and Abdulnaser I. Sayma. "Solar Dish Micro Gas Turbine Technology for Distributed Power Generation." In Sustainable Energy Technology and Policies. Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-7188-1_5.

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Kesselring, Paul, and Clifford S. Selvage. "Distributed Collector System." In The IEA/SSPS Solar Thermal Power Plants — Facts and Figures— Final Report of the International Test and Evaluation Team (ITET). Springer Berlin Heidelberg, 1986. http://dx.doi.org/10.1007/978-3-642-82684-9_33.

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Ishrat, Zaiba, Kunwar Babar Ali, Taslima Ahmed, and Sriniwas Mishra. "A comprehensive study on meta-heuristic optimization approach for maximum power-point tracking in solar power system." In Bio-Inspired Data-driven Distributed Energy in Robotics and Enabling Technologies. CRC Press, 2024. http://dx.doi.org/10.1201/9781003530077-9.

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Conference papers on the topic "Distributed Solar Power"

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Fan, Menghua, Chen Lv, Hang Fan, et al. "Distributed photovoltaic power prediction based on Solar-LLM." In Ninth International Conference on Energy System, Electricity and Power (ESEP 2024), edited by Mohan Lal Kolhe, Yunfei Mu, Ze Cheng, and Qian Xiao. SPIE, 2025. https://doi.org/10.1117/12.3060936.

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Ariyanto, Febri, Iman Agus Faisal, I. Putu Rastaman Putra, Rois Ahmad Hanafi, Chresten Træholt, and Yi Zong. "Integration of Distributed Solar PV in Sumbawa-Bima Grid." In 2024 International Conference on Technology and Policy in Energy and Electric Power (ICTPEP). IEEE, 2024. http://dx.doi.org/10.1109/ict-pep63827.2024.10733481.

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Rios-PeÑaloza, Juan Diego, Gabriel García-Gutierrez, Milan Prodanović, and Javier Roldán-Pérez. "Power Plant Control with Configurable Reserves for Grid-Forming Solar Power Plants with Hybrid Storage." In 2024 IEEE 15th International Symposium on Power Electronics for Distributed Generation Systems (PEDG). IEEE, 2024. http://dx.doi.org/10.1109/pedg61800.2024.10667456.

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Zhang, Jinxia, Xiaolei Li, Shuo Yang, Peijun Sun, Jixue Wang, and Hairen Tan. "Power Generation Performance of Distributed Photovoltaic Systems Based on Perovskite Solar Cells." In 2024 3rd International Conference on Energy, Power and Electrical Technology (ICEPET). IEEE, 2024. http://dx.doi.org/10.1109/icepet61938.2024.10627607.

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Reiman, A. P., S. R. Abate, T. E. McDermott, G. F. Reed, T. M. Croushore, and J. M. Price. "Automating distributed solar impact analysis." In 2017 North American Power Symposium (NAPS). IEEE, 2017. http://dx.doi.org/10.1109/naps.2017.8107211.

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Hassani, Vahab, and Henry W. Price. "Modular Trough Power Plants." In ASME 2001 Solar Engineering: International Solar Energy Conference (FORUM 2001: Solar Energy — The Power to Choose). American Society of Mechanical Engineers, 2001. http://dx.doi.org/10.1115/sed2001-156.

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Abstract A number of factors are creating an increased market potential for small trough power technology. These include the need for distributed power systems for rural communities worldwide, the need to generate more electricity by non-combustion renewable processes, the need for sustainable power for economic growth in developing countries, and the deregulation and privatization of the electrical generation sector worldwide. Parabolic trough collector technology has been used in large central station power plants. Organic Rankine cycle (ORC) air-cooled modular power units have been successfully applied for large and small-scale geothermal power plants, with over 600 MW of capacity, during the same period. The merging of these two technologies to produce distributed modular power plants in the 200 kW to 10 MW range offers a new application for both technologies. It is our objective in this paper to introduce a modular trough power plant (MTPP) and discuss its performance and the cost of electricity generation from such system.
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Toth, Adam L., Craig R. Woycheese, and Jeffrey B. Chapman. "Rate Considerations Related to Solar Distributed Generation." In 2018 IEEE Rural Electric Power Conference (REPC). IEEE, 2018. http://dx.doi.org/10.1109/repc.2018.00017.

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"Smart Software Solutions for Distributed Energy Storage." In The Technical Symposium 2017 at Solar Power International. Solar Energy Trade Shows, 2017. http://dx.doi.org/10.26718/tts2017.1.3.

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Price, Suzanne E., and J. Rhett Mayor. "Analysis of Solar-Thermal Power Cycles for Distributed Power Generation." In ASME 2009 3rd International Conference on Energy Sustainability collocated with the Heat Transfer and InterPACK09 Conferences. ASMEDC, 2009. http://dx.doi.org/10.1115/es2009-90404.

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In this study, the thermoeconometric feasibility of a 12.5 kW solar thermal power system is discussed. A previous study by these authors examined five potential 12.5kW solar thermal cycles and preliminary thermoeconometric analyses based on the collector area. The current study expands to six potential power cycles, including the five from the previous study, the Rankine, R123 Organic Rankine, toluene Organic Rankine, ethylbenzene organic Rankine, and the Kalina cycle, with the addition of the Maloney-Robertson cycle as well as detailed cost analysis for the components associated with each cycle. A detailed first law thermodynamic analysis for the Maloney-Robertson and Kalina cycles is presented. Likewise, the pinch point analysis is used for the inclusion of the sink and source stream as well as a developed heat exchanger model. The thermoeconometric study includes cost-per-component estimates for all of the components in the cycles; thus, increased component cost is taken into account for the ammonia-water cycles. The findings from this study show that R123 is the only cycle that operates with a source temperature below 225°C within the cycle applied operating constraints for meso-scale distributed power generation.. When higher temperatures are achieved, the Kalina cycle has the highest thermal efficiency but also the highest cost-to-efficiency ratio. Therefore, the thermoeconometrics study shows that the toluene and ethylbenzene ORCs have the lowest cost-to-efficiency ratio when source temperatures reach 225°C to 350°C even though they do not have the highest cycle efficiencies.
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Kang Longyun, Zhang Yanning, and Cao Binggang. "Wind-solar-biogas renewable energy distributed power system." In 2009 International Conference on Clean Electrical Power (ICCEP). IEEE, 2009. http://dx.doi.org/10.1109/iccep.2009.5211961.

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Reports on the topic "Distributed Solar Power"

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Muelaner, Jody Emlyn. Space-based Solar Power for Instantaneously Dispatchable Renewable Power on Earth. SAE International, 2025. https://doi.org/10.4271/epr2025005.

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&lt;div class="section abstract"&gt;&lt;div class="htmlview paragraph"&gt;Recent advances are reducing the cost of space launch, high specific power solar cells, and the production of satellite systems. Modular architectures with no moving parts and distributed power systems would minimize assembly and maintenance costs. Together, this may enable space-based solar power to provide decarbonized dispatchable power at a lower cost than equivalent technologies such as nuclear power stations.&lt;/div&gt;&lt;div class="htmlview paragraph"&gt;&lt;b&gt;Space-based Solar Power for Instantaneously Dispatchable Renewable Power on Earth&lt;/b&gt; discusses the advances in emerging technologies, like thin film solar cells, reusable launch vehicles, and mass-produced modular satellite systems that would make economic space power feasible.&lt;/div&gt;&lt;div class="htmlview paragraph"&gt;&lt;a href="https://www.sae.org/publications/edge-research-reports" target="_blank"&gt;Click here to access the full SAE EDGE&lt;/a&gt;&lt;sup&gt;TM&lt;/sup&gt;&lt;a href="https://www.sae.org/publications/edge-research-reports" target="_blank"&gt; Research Report portfolio.&lt;/a&gt;&lt;/div&gt;&lt;/div&gt;
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Seal, Brian, Arindam Maitra, Wenzong Wang, Celso Rocha, and Xavier Francia. SOLAr Critical Infrastructure Energization (SOLACE) Leveraging Distributed Energy Resources to Provide Local Power. Office of Scientific and Technical Information (OSTI), 2023. http://dx.doi.org/10.2172/1987533.

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Elshurafa, Amro, Fakhri Hasanov, and Lester C. Hunt. Macroeconomic, Energy and Emission Effects of Solar PV Deployment at Utility and Distributed Scales in Saudi Arabia. King Abdullah Petroleum Studies and Research Center, 2023. http://dx.doi.org/10.30573/ks--2023-dp10.

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This study assesses the macroeconomic, energy and emissions impacts of solar photovoltaic (PV) deployment in the Kingdom of Saudi Arabia for the period 2021–2030. This is accomplished by linking an energy and environmental sector augmented macroeconometric model with a power model and a distributed generation model. Furthermore, this study distinguishes between the macroeconomic, energy and emissions impacts of PV deployment at the utility and distributed generation scales. To the best of our knowledge, these two aspects make this work novel. We analyze three scenarios: (i) fully government-funded utility-scale PV deployment, (ii) half-government-funded utility-scale PV deployment and (iii) household-funded distributed-generation-scale PV deployment, with some government support alongside a business-as-usual (BaU) scenario.
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Daye, Tony. Integrated Simulation Development and Decision Support Tool-Set for Utility Market and Distributed Solar Power Generation. Office of Scientific and Technical Information (OSTI), 2013. http://dx.doi.org/10.2172/1176914.

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Cornick, Jorge. The Regulation of Distributed Solar Power Generation in Costa Rica: Status, Challenges and Options for the Future. Inter-American Development Bank, 2020. http://dx.doi.org/10.18235/0002367.

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Riter, Karmann, Anthony Clint Clayton, Kelley Rountree, and Prakash Doraiswamy. Solar Station for an Off-the-Grid Air Quality Sensor System. RTI Press, 2023. http://dx.doi.org/10.3768/rtipress.2023.mr.0051.2306.

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Air quality monitoring is a rapidly growing area of citizen science, or community science (CS), thanks to the availability of low-cost sensors. Contributing to a crowdsourced data platform (e.g., http:// purpleair .com/ map) is usually easy in urban areas, where there is access to uninterrupted electricity and wireless internet (Wi-Fi). However, there are sometimes security restrictions on Wi-Fi or a lack of exterior power outlets. Also, rural regions, particularly in low- and middle-income countries, often lack electricity and Wi-Fi continuity. RTI International has designed and distributed a solar power and Wi-Fi station that can adequately power both a small air quality sensor (e.g., PurpleAir PA-II) and a Wi-Fi hotspot to overcome these challenges. The station housing can accommodate a battery, a controller, and a cell phone or another type of Wi-Fi hotspot device. This paper discusses the need for such a station; a design for the current station, including parts list; suggestions for modifications in various use cases; and design factors to consider, including amount of sunlight per day, intended number of operational days under cloudy conditions, season, and total power requirements. This method is intended to be open source and a starting point for citizen scientists and CS projects.
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Alarcón, Arturo, Juan Alberto, Cecilia Correa, et al. Analysis of the Policy and Market Framework for Hydro Pumped Storage in Latin America and the Caribbean. Inter-American Development Bank, 2021. http://dx.doi.org/10.18235/0003721.

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In the next decades, the evolution of the power sector in the region will be based on a combination of large-scale and centralized power plants, distributed generation, and even isolated microgrids. Storage technologies will be crucial to enable the management of the intrinsic variability of some renewable generation (wind and solar), particularly in scenarios where there is a need to reduce fossil fuels used for base generation. Pumped Storage Hydropower (PSH) technologies are an attractive alternative, given the regions hydropower potential, existing installed capacity, and technical knowledge. This paper explores the policy and market framework in LAC for this technology.
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Cormier, Dallas, Sherwin Edra, Michael Espinoza, et al. Final Technical Report for Contract No. DE-EE0006332, "Integrated Simulation Development and Decision Support Tool-Set for Utility Market and Distributed Solar Power Generation". Office of Scientific and Technical Information (OSTI), 2014. http://dx.doi.org/10.2172/1273587.

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Dumitrescu, Raluca, Alexandra Lüth, Jens Weibezahn, and Sebastian Groh. Prosumer Empowerment through Community Power Purchase Agreements. Copenhagen School of Energy Infrastructure, 2022. http://dx.doi.org/10.22439/csei.pb.013.

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To achieve the United Nation's Sustainable Development Goal 7 “Clean and Affordable Energy”, the most economically viable option for servicing the part of the population that is too remote or for which the national grid extension is too expensive are distributed renewable energy solutions (DREs), that is, standalone solar home systems (SHSs), mini grids, and swarm gridsi. By 2030, more than 290 million people could be connected to mini grids. Following a top-down approach to electricity access, countries of the Global South, with support of international aid and development funding, are accelerating their national grid expansion. As the national grid reaches their customers, the private sector (DRE companies) is put at danger of having to either relocate their assets or abandon them. At the same time, the DRE end-user, reached by the national grid, faces several challenges due to being exposed to a double infrastructure. These challenges can be of technical and financial nature and are caused by the assets becoming abundant or needing additional equipment to be suitable for national grid and DREs. In our new paper we investigate a technically and economically viable solution for the co-existence of the national grid−a centralized infrastructure−with mostly decentralized, renewable energy infrastructure in Global South countries. At the intersection of these two electrification pathways the question arises if the two approaches can be integrated to the benefit of society by maintaining existing assets. We assume the technical link to be a bidirectional inverter and a battery representing the point of common coupling (PCC) between national grid and currently off-grid systems. We then suggest to apply a cost recovery approach to calculate the economic value of a community power purchase agreement (C-PPA) that allows the community to enter into a trade agreement with the national grid to export at a specified rate.
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Aspuru-Guzik, Alan. Harnessing the power of ab initio calculations, distributed computing andmachine learning to efficiently locate extreme molecules for use in carbon-based solar cells. Final Technical Report. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1561222.

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