Relevant bibliographies by topics / Inverter-based generation

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

Academic literature on the topic 'Inverter-based generation'

Author: Grafiati
Published: 4 June 2025
Last updated: 23 June 2025

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Journal articles on the topic "Inverter-based generation"

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Mohammad Irshad, Shaik, and G. P. Ramesh. "High Gain Power Generation Based On Hybrid Renewable Energy for AC Load Application." Indonesian Journal of Electrical Engineering and Computer Science 12, no. 3 (2018): 1195. http://dx.doi.org/10.11591/ijeecs.v12.i3.pp1195-1202.

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This study presents the distributed energy source based current fed inverter has generated high voltage with less passive elements. The hybrid renewable energy generation such as solar and wind has used. The single stage power generation based switched inverter has combined characteristics of both impedance source inverter and switched boost inverter. In conventional voltage source inverter has less boost ability and high electromagnetic noise immunity to the modified current fed inverter circuit. The single diode photovoltaic model and wind-based energy generation have fed into current fed switched inverter for improving high gain and high power factor. The maximum power point tracking such as incremental conductance algorithm has fast-tracking of solar power and generates continuous power to the inverter circuit. 12V solar power and wind power is designed for dc power production, and the output of dc link capacitor is 118V using current fed switched inverter. The current fed switched inverter is designed and implemented in MATLAB/Simulink environment.
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Shaik, Mohammad Irshad, and P. Ramesh G. "High Gain Power Generation Based On Hybrid Renewable Energy for AC Load Application." Indonesian Journal of Electrical Engineering and Computer Science 12, no. 3 (2018): 1195–202. https://doi.org/10.11591/ijeecs.v12.i3.pp1195-1202.

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This study presents the distributed energy source based current fed inverter has generated high voltage with less passive elements. The hybrid renewable energy generation such as solar and wind has used. The single stage power generation based switched inverter has combined characteristics of both impedance source inverter and switched boost inverter. In conventional voltage source inverter has less boost ability and high electromagnetic noise immunity to the modified current fed inverter circuit. The single diode photovoltaic model and wind-based energy generation have fed into current fed switched inverter for improving high gain and high power factor. The maximum power point tracking such as incremental conductance algorithm has fast-tracking of solar power and generates continuous power to the inverter circuit. 12V solar power and wind power is designed for dc power production, and the output of dc link capacitor is 118V using current fed switched inverter. The current fed switched inverter is designed and implemented in MATLAB/Simulink environment.
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Yang, Shan, and Xiangqian Tong. "Integrated Power Flow and Short Circuit Calculation Method for Distribution Network with Inverter Based Distributed Generation." Mathematical Problems in Engineering 2016 (2016): 1–10. http://dx.doi.org/10.1155/2016/9404951.

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Power flow calculation and short circuit calculation are the basis of theoretical research for distribution network with inverter based distributed generation. The similarity of equivalent model for inverter based distributed generation during normal and fault conditions of distribution network and the differences between power flow and short circuit calculation are analyzed in this paper. Then an integrated power flow and short circuit calculation method for distribution network with inverter based distributed generation is proposed. The proposed method let the inverter based distributed generation be equivalent toIθbus, which makes it suitable to calculate the power flow of distribution network with a current limited inverter based distributed generation. And the low voltage ride through capability of inverter based distributed generation can be considered as well in this paper. Finally, some tests of power flow and short circuit current calculation are performed on a 33-bus distribution network. The calculated results from the proposed method in this paper are contrasted with those by the traditional method and the simulation method, whose results have verified the effectiveness of the integrated method suggested in this paper.
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Shao, Yi Xiang, Xiao Ling Yuan, and Wei Tian. "Switched Reluctance Wind Generation System Based on Z Source Inverter." Advanced Materials Research 1092-1093 (March 2015): 96–103. http://dx.doi.org/10.4028/www.scientific.net/amr.1092-1093.96.

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This paper uses Z source inverter in switched reluctance wind power generation (SRWPG) to connect to power grid. According to operation of switched reluctance generator (SRG), requirements of grid-connection and the unique single stage buck boost feature of Z source inverter, Z source inverter with space vector pulse with modulation (SVPWM) is adopted to satisfy the voltage level of grid-connection. A control method of grid-connection inverter is developed to keep the capacitor voltage of Z source inverter stable and regulate the active and reactive power. Simulation of SRG and Z source inverter are constructed based on MATLAB/Simulink platform. Simulation results reveal that Z source inverter is feasible and valuable in wind power generation on SRG system.
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Zeineldin, H. H., E. F. El-Saadany, and M. M. A. Salama. "Islanding detection of inverter-based distributed generation." IEE Proceedings - Generation, Transmission and Distribution 153, no. 6 (2006): 644. http://dx.doi.org/10.1049/ip-gtd:20050429.

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Wang, Xinyi. "Inverter-based Resources for Power Generation Technology." Academic Journal of Science and Technology 14, no. 3 (2025): 362–70. https://doi.org/10.54097/j78cj332.

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The aim of this research project is to explore the possibility of maintaining the stability of frequency control in power systems today where the share of high percentage inverter resources is gradually increasing. By conducting experiments using SCADA, this research aims to find effective ways to analyze the specific generation methods and compare them with the conventional ones, and finally to explore the possibilities of maintaining the stability of the frequency of the power system in the above mentioned scenario.
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Yu, Fei, Hong Mi Guo, and Yan He Chu. "Design of Photovoltaic Generation Grid-Connected Inverter Based on DSP." Advanced Materials Research 383-390 (November 2011): 3443–48. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.3443.

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According to characteristics of solar photovoltaic generation system, this paper presents a design of a single-phase photovoltaic grid-connected inverter about 1KW based on the digital signal processor TMS320F2812. This paper designs the algorithm of MPPT (Maximum Power Point tracking) and the algorithm of phase tracking according to its characteristics. The experiment is successful, and the output voltage wave of grid-connected inverter has the same frequency and phase with the grid voltage. The power factor of grid-connected inverter has reached to 0.99.
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Brintha, J. Jane Justin, S. Rama Reddy, and N. Subashini. "Improved Output Voltage in Micro Wind Power Generator Fed Z Source Inverter Based System." Advanced Materials Research 984-985 (July 2014): 764–73. http://dx.doi.org/10.4028/www.scientific.net/amr.984-985.764.

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The micro wind power generation system is used to generate the power at low cost. In this paper, generator fed SEPIC, Z source inverter based systems are presented. The unique feature of Z source inverter is shoot-through duty cycle control by which any desired output voltage even greater than input line voltage is possible. Both buck-boost capabilities in single stage conversion are possible. This is not possible in conventional inverters. Also conversion losses are reduced in Z-source inverter due to single stage conversion which increases the output voltage of the system. Keywords: micro-wind power generation system, Single-Ended Primary Inductor converter, Z source inverter.
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Wang, Xu Guang, Zu Yu Zhao, and Guang Qi Cao. "Inverter Based on Improved Z-Source Structure for Off-Grid Type Wind Power Generation." Advanced Materials Research 605-607 (December 2012): 200–203. http://dx.doi.org/10.4028/www.scientific.net/amr.605-607.200.

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For the Complexity of off-grid type wind power generation &supply system and disturb of the load, an inverter based on improved z-source and single-phase &single polarity circuit for off-grid type wind power generation was designed. Results of Compared simulation and experiment indicated that the inverter designed in this paper was effective and reliable when applied to off-grid type wind power generation.
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Sofyan, Sofyan, Muhira Dzar Faraby, Satriani Said Akhmad, et al. "Optimal inverter-based distributed generation in ULP Way Halim considering harmonic distortion." International Journal of Electrical and Computer Engineering (IJECE) 13, no. 6 (2023): 6058. http://dx.doi.org/10.11591/ijece.v13i6.pp6058-6067.

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Integration of distributed generation (DG) based on the use of new renewable energy is considered to be able to increase the capability of the electric power distribution system. However, the use of inverter-based DG is not optimal, it can worsen the condition of the system, especially in terms of the spread of harmonic distortion which can damage the equipment. This is due to the inverter-based DG technology, apart from supplying electrical energy, DG also injects harmonic currents from existing semiconductor components. This research discusses optimization placement of inverter-based DG using the multi objective particle swarm optimization (MOPSO) method which was tested on the Unit Layanan Pelaksana (ULP) Way Halim 88-bus radial distribution system based on MALTAB 2020b to increase the efficiency of the electrical system by reducing losses and %THDv. The inverter-based DG placed on 24 bus points with a capacity of 690 kW can reduce losses by up to 12.74 kW or 14.96% and all %THDv values for each bus are below 5%.
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Dissertations / Theses on the topic "Inverter-based generation"

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Lindstén, Johanna. "Frequency Response from Inverter-Based Generation." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-287453.

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The system inertia of the Nordic power system is expected decrease in the future. This is due to an expected reduction in synchronous generation from nuclear and thermal power. This will be compensated by an increase in power from inverter-based generation due to wind power’s expansion in the power system. In this thesis, a power system’s ability to handle a large under-frequency fault is studied and how this is affected by a lower system inertia. The thesis also studies how different types of frequency response from wind power plants affects the systems ability to handle the fault. The frequency of a modelled transmission system is studied through dynamic simulations in the software PSS/E. Changes are made to the system to replace nuclear power (and eventually also thermal power) with type 4 (full-sized converter) wind turbines. A large under-frequency event is induced and the frequency nadir and bus voltages are compared against system limits used by the Swedish TSO. While gradually adding wind power to the system as nuclear power is removed, different versions of the system with different amounts of wind power are compared. Two studies are carried out. In the first study, the voltage response study, nuclear power is decreased by scaling down the size of the generators. Besides reducing their power output and inertia, this also decreases their capacity for voltage support. To compensate for the reduced voltage support in the system, the wind power plants are made to provide voltage support. In the second study, the inertia study, the nuclear power in the system is instead decreased by reducing the active power output and the inertia constant of the nuclear generator. The size of the generator and reactive power output stay the same as in the original system so the nuclear power plant can continue to supply voltage support. In this way the problems caused by reduced inertia in the system are isolated. In both studies, three different frequency responses are applied to the wind power plants. The three frequency responses are aimed to as closely as possible follow the minimum requirements from the Swedish TSO for the frequency response products FCR-N, FCR-D and FFR alt A. In both studies, FCR-N provided by wind power causes a lower the system frequency during the fault compared to the original system without wind power. FCR-N can not fully compensate for the loss of inertia the replacement of synchronous generation is causing. In the voltage response study, FCR-D causes a slightly lower system frequency than the original system without wind. In the inertia study the frequency is slightly raised with wind power providing FCR-D. In both studies, FCR-D is or is very close to fully compensating for the loss of inertia. In both studies with FFR alt A, more wind power and therefor more FFR alt A in the system means a significantly improved frequency nadir. One conclusion from this project is that both FCR-D and FFR alt A from wind power are effective at counter-acting the effects reduced system inertia has on the system frequency stability in this system. For both FCR-D and FFR alt A, the frequency deviation during the fault is lower or close to equal to the frequency deviation when the original system (no wind power) is subjected to the same fault. The second conclusion is that in the studied system the reduced capacity of voltage support due to removal of nuclear power in the system is more influential than the reduced system inertia in the expansion of wind power. This indicates that there may need to be more focus from power producers, TSOs and legislators on voltage support in the future as the power system moves from large synchronous power plants to more distributed inverter-based production.<br>Det nordiska elkraftsystemets systemtröghet förväntas minska i framtiden. Detta beror på minskad synkroniserad kraftproduktion från kärnkraft och värmekraft som väntas ersättas av ökad kraftproduktion från inverterar-baserad kraftgenerering där vindkraft står för en stor del av ökningen. I detta examensarbete studeras ett kraftsystems förmåga att hantera en större störning och hur detta påverkas av minskad systemtröghet. Examensarbetet jämför också hur olika typer av frekvensreglering från vindkraft påverkar systemets förmåga att hantera störningen. Systemfrekvensen av ett modellerat transmissionssystem studeras genom dynamiska simuleringar i PSS/E. Ändringar görs till systemet för att byta ut produktion från kärnkraft (och så småningom också värmekraft) med icke-synkrona vindkraftsturbiner. En större störning induceras och systemets frekvens och nodspänningar jämförs med systemgränser som används av den svenska systemansvariga. Genom att gradvis addera vindkraft till systemet och ta bort kärnkraft, skapas olika versioner av systemet med olika andelar produktion från vindkraft som sedan jämförs. Två studier genomförs. I den första studien minskas kärnkraften i systemet genom att skala ned storleken på kärnkraftsgeneratorerna. Förutom att reducera deras aktiva och reaktiva kraftproduktion så sänker detta också deras kapacitet för spänningsreglering vilket skapar problem med låga spänningar. För att kompensera för den minskade spänningsregleringen så förses vindkraften i systemet med spänningsreglering. I den andra studien minskas mängden kärnkraft i systemet genom att minska dess aktiva kraftproduktion och tröghetskonstant. Storleken på generatorerna och deras reaktiva kraftproduktion ändras inte vilket gör att kärnkraftsgeneratorerna kan fortsätta bidra med spänningsreglering. På detta sätt isoleras problemen som minskad systemtröghet ger upphov till. I båda studier appliceras tre olika frekvensregleringstyper på vindkraftverken i systemet. De tre frekvensregleringarna är ämnade att så nära som möjligt följa de tekniska kraven från den svenska systemansvarige för frekvensregleringsprodukterna FCR-N, FCR-D och FFR alt A. FCRN från vindkraft ger i båda studier upphov till en lägre systemfrekvens under felet jämfört med det ursprungliga systemet utan vindkraft. Detta betyder att FCR-N inte fullt kompenserar för den reducerade systemtrögheten orsakad av minskad mängd kärnkraft i systemet. FCR-D ger upphov till något lägre frekvens i den första studien och något högre frekvens in den andra studien jämfört med ett system utan vindkraft. FFR alt A leder i båda studier till en betydligt förbättrad frekvens jämfört med det ursprungliga systemet utan vindkraft. En slutsats från detta arbete är att både FCR-D och FFR alt A från vindkraft är effektiva i att motarbeta effekterna som en sänkt systemtröghet har på detta systems frekvensstabilitet. I båda fall är frekvensavvikelsen under störningen lägre eller nära samma som i originalsystemet utan vindkraft när de utsätts för samma störning. Den andra slutsatsen är att i detta är system är förlusten av spänningsreglering, som kärn- och värmekraften bidrog med, mer begränsande för mängden vindkraft som kan introduceras än vad sänkningen av systemtröghet var. Detta indikerar att det kan behövas mer fokus på spänningsreglering från kraftproducenter, systemansvariga och lagstiftare i framtiden när kraftsystemet rör sig från större synkroniserade kraftverk till mer distribuerad inverterar-baserad kraftproduktion.
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Plet, Cornelis Arie. "Fault response of inverter-based distributed generation." Thesis, Imperial College London, 2012. http://hdl.handle.net/10044/1/9537.

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The work presented in this thesis focuses on developing and experimentally verifying accurate analytical equivalent models of inverters during short-circuit conditions for use in numerical fault studies. In addition, a concept design for a variable speed generator that does not contribute to the local fault level is presented and verified by simulation and experiment. The flexibility of control offered by the application of power electronics in distribution networks is paramount in the transition to a decentralised power system but still faces significant technical challenges to widespread integration into the incumbent utility grid. Power electronic interfaces have historically only been used in rare cases and their effect on the network has hitherto often been ignored. The uptake of energy sources such as photovoltaics, variable speed wind, fuel cells, microturbines has caused a sufficient increase in grid connection requests for inverter interfaced generators, that before long their fault behaviour can no longer be neglected. The fault response of an inverter is dictated by its control strategy, its current limiting strategy and the reference frame in which they have been implemented. Current limiting typically breaks an inverter’s outer control loop and effectively turns it into a current source. Depending on the exact method of current limiting, linear analytical equivalent models have been developed whose source and impedance values can be expressed as a function of the inverters hardware parameters and controller gains evaluated at the fundamental frequency. The resulting models are compatible with conventional network analysis techniques and have been verified by comparing the results of such an analysis with experimental results. Fault models have been developed for stand-alone and grid-connected inverters. In congested networks the connection of an additional generator can cause the substation circuit breaker ratings to be exceeded. A full inverter interface can be controlled not to contribute to the fault current but is still prohibitively expensive at higher power levels. An alternative generator based on a doubly-fed induction generator is proposed and experimentally tested. By inserting a tap in the rotor winding, the voltage-per-turn can temporarily be increased to retain control of the quickly rising fault current without having to upgrade the machine-side inverter’s ratings. A fast thyristor-based tap changer inverter is proposed and experimentally verified that performs the pulse width modulation and diverts the modulated waveform to the desired tap on the rotor winding. The tap changer can be commutated in such a way as to achieve the fastest possible rate of current transfer during a tap change whilst avoiding voltage spikes by allowing any energy stored in the rotor leakage inductance to return to the DC-link. The developed fault models and zero fault current generator are a step towards familiarising utility engineers with power electronics and how they affect the operation of the distribution network. The availability of standardised models avoids the need for expensive and time-consuming time domain simulation based fault studies for inverter connection requests. The work presented in this thesis may act as a base for the development of standardised representations of power electronics in power networks.
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Ahmed, Khaled Hani Khaled. "Design and analysis of inverter-based distribution generation systems." Thesis, University of Strathclyde, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.501842.

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Al, Hosani Mohamed. "Transient and Distributed Algorithms to Improve Islanding Detection Capability of Inverter Based Distributed Generation." Doctoral diss., University of Central Florida, 2013. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/6235.

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Recently, a lot of research work has been dedicated toward enhancing performance, reliability and integrity of distributed energy resources that are integrated into distribution networks. The problem of islanding detection and islanding prevention (i.e. anti-islanding) has stimulated a lot of research due to its role in severely compromising the safety of working personnel and resulting in equipment damages. Various Islanding Detection Methods (IDMs) have been developed within the last ten years in anticipation of the tremendous increase in the penetration of Distributed Generation (DG) in distribution system. This work proposes new IDMs that rely on transient and distributed behaviors to improve integrity and performance of DGs while maintaining multi-DG islanding detection capability. In this thesis, the following questions have been addressed: How to utilize the transient behavior arising from an islanding condition to improve detectability and robust performance of IDMs in a distributive manner? How to reduce the negative stability impact of the well-known Sandia Frequency Shift (SFS) IDM while maintaining its islanding detection capability? How to incorporate the perturbations provided by each of DGs in such a way that the negative interference of different IDMs is minimized without the need of any type of communication among the different DGs? It is shown that the proposed techniques are local, scalable and robust against different loading conditions and topology changes. Also, the proposed techniques can successfully distinguish an islanding condition from other disturbances that may occur in power system networks. This work improves the efficiency, reliability and safety of integrated DGs, which presents a necessary advance toward making electric power grids a smart grid.<br>Ph.D.<br>Doctorate<br>Electrical Engineering and Computer Science<br>Engineering and Computer Science<br>Electrical Engineering
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Pogaku, Nagaraju. "Analysis, control and testing of inverter-based distributed generation in standalone and grid-connected applications." Thesis, Imperial College London, 2006. http://hdl.handle.net/10044/1/7798.

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Singh, Akanksha. "A boost current source inverter based generator-converter topology for direct drive wind turbines." Diss., Kansas State University, 2017. http://hdl.handle.net/2097/34676.

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Doctor of Philosophy<br>Department of Electrical and Computer Engineering<br>Behrooz Mirafzal<br>In this dissertation, a new topology for Direct-Drive Wind Turbines (DDWTs) with a new power electronics interface and a low-voltage generator design is presented. In the presented power electronics interface, the grid - side converter is replaced by a boost Current Source Inverter (CSI) which eliminates the required dc-bus capacitors resulting in an increase in the lifetime of DDWTs. The inherently required dc-link inductor for this topology is eliminated by utilizing the inductance of the Permanent Magnet Synchronous Generator (PMSG). The proposed three-phase boost CSI is equipped with Reverse-Blocking IGBTs (RB-IGBT) and the Phasor Pulse Width Modulation (PPWM) switching pattern to provide a 98% efficiency and high boost ratios ([superscript V]LL/V[subscript dc]) up to 3.5 in a single stage. In this dissertation, Phasor Pulse Width Modulation (PPWM) pattern for the boost – CSI is also modified and verified through simulation and experimental results. In order to realize potential capabilities of the boost inverter and to assist its penetration into renewable energy systems, the boost inverter dynamic behaviors are studied in this dissertation. Then, the developed models are verified using circuit simulations and experiments on a laboratory-scale boost – CSI equipped with RB-IGBTs. The developed dynamic models are used to study the stability of the boost – CSI through root locus of small signal poles (eigenvalues) as control inputs and load parameters vary within the boost inverter's operating limits. The dynamic models are also used to design the control schemes for the boost – CSI for both stand-alone and grid-tied modes of operation. The developed controllers of the boost – CSI are verified through simulation and experimental results. In this dissertation, the boost – CSI steady-state characterization equations are also developed and verified. The developed boost – CSI is used to replace the grid - side converter in a DDWT. A reliability analysis on the power electronics interface of an existing and developed topology is presented to demonstrate the increase in the mean time between failures. The boost – CSI enables conversion of a low dc voltage to a higher line-to-line voltage enabling the implementation of a low-voltage generator. This further enables a reduction in the number poles required in DDWT generators. The feasibility of the presented low-voltage generator is investigated through finite element computations. In this dissertation, a 1.5MW low-voltage generator designed for the proposed topology is compared with an existing 1.5MW permanent magnet synchronous generator for DDWTs to demonstrate the reduction in the volume, weight, and amount of permanent magnet materials required in the generator. The feasibility of the developed system is supported by a set of MATLAB/Simulink simulations and laboratory experiments on the closed-loop stand-alone and grid-tied systems.
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Notholt, Vergara José Antonio. "Fault ride through capabilities of inverter based distributed generation connected to low and medium voltage distribution networks." München Verl. Dr. Hut, 2008. http://d-nb.info/992644887/04.

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Guan, Zhengyuan. "A New Islanding Detection Method Based On Wavelet-transform and ANN for Inverter Assisted Distributed Generator." UKnowledge, 2015. http://uknowledge.uky.edu/ece_etds/72.

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Nowadays islanding has become a big issue with the increasing use of distributed generators in power system. In order to effectively detect islanding after DG disconnects from main source, author first studied two passive islanding methods in this thesis: THD&VU method and wavelet-transform method. Compared with other passive methods, each of them has small non-detection zone, but both of them are based on the threshold limit, which is very hard to set. What’s more, when these two methods were applied to practical signals distorted with noise, they performed worse than anticipated. Thus, a new composite intelligent based method is presented in this thesis to solve the drawbacks above. The proposed method first uses wavelet-transform to detect the occurrence of events (including islanding and non-islanding) due to its sensitivity of sudden change. Then this approach utilizes artificial neural network (ANN) to classify islanding and non-islanding events. In this process, three features based on THD&VU are extracted as the input of ANN classifier. The performance of proposed method was tested on two typical distribution networks. The obtained results of two cases indicated the developed method can effectively detect islanding with low misclassification.
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Renjit, Ajit Anbiah. "MODELING, ANALYSIS AND CONTROL OF MIXED SOURCE MICROGRID." The Ohio State University, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=osu1450770774.

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Kunte, Rohit S. "A wavelet transform-based islanding detection algorithm for inverter assisted distributed generators a thesis presented to the faculty of the Graduate School, Tennessee Technological University /." Click to access online, 2009. http://proquest.umi.com/pqdweb?index=8&sid=2&srchmode=1&vinst=PROD&fmt=6&startpage=-1&clientid=28564&vname=PQD&RQT=309&did=1786737271&scaling=FULL&ts=1250274536&vtype=PQD&rqt=309&TS=1250275236&clientId=28564.

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Book chapters on the topic "Inverter-based generation"

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Roomi, Muhammad M. "Z-Source Inverter-Based Fuel Cell Power Generation." In Advanced Multilevel Converters and Applications in Grid Integration. John Wiley & Sons, Ltd, 2018. http://dx.doi.org/10.1002/9781119476030.ch18.

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Rokrok, Ebrahim, Miadreza Shafie-khah, Hamid Reza Karshenas, Esmail Rokrok, and João P. S. Catalão. "A Hybrid Anti-islanding Method for Inverter-Based Distributed Generation." In IFIP Advances in Information and Communication Technology. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-56077-9_25.

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Kulkarni, Shreeram V., Shruti Gatade, N. Samanvita, and D. N. Gaonkar. "Comprehensive Strategy for Power Quality Improvement of Inverter Based Distributed Generation Systems." In Emerging Research in Computing, Information, Communication and Applications. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1342-5_14.

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Satyanarayana, G., and K. Lakshmi Ganesh. "Grid Integration of Hybrid Generation Scheme for Optimal Switching Pattern Based Asymmetrical Multilevel Inverter." In Lecture Notes in Electrical Engineering. Springer India, 2014. http://dx.doi.org/10.1007/978-81-322-2119-7_30.

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Gómez, Edgar, Ernesto Vázquez, Nohemí Acosta, and Manuel A. Andrade. "Independent Estimation of Generator Clustering and Islanding Conditions in Power System with Microgrid and Inverter-Based Generation." In Power Systems. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-54275-7_20.

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Mahabaleshwara, Sharma K., and Nagesh Prabhu. "Grid Integration of Inverter Based Generation and Battery Energy Storage Systems: A Review of Challenges." In Power Energy and Secure Smart Technologies. CRC Press, 2025. https://doi.org/10.1201/9781003661917-11.

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Hayat, Muhammad Adnan, and Moamar Sayed Mouchaweh. "Climate-Resilient Cities—Priorities for the GCC Countries Resilient Power Systems." In Contributions to Economics. Springer Nature Switzerland, 2024. https://doi.org/10.1007/978-3-031-73090-0_6.

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AbstractHistorically, power generation and transmission systems remained centralized and less prone to extreme events. However, with many countries aiming to achieve net-zero emissions including in the power sector. The future power system brings new challenges for the power system security, reliability, and resiliency. The emerging power grid is comprised of a greater mix of inverter based intermittent renewable generation resources which are heavily reliant on weather conditions. Additionally, the electricity sector is becoming more and more digitized and integrated with other sectors like health, transport, and industry. Therefore, even a short blackout can disrupt the whole city and halt emergency services which makes the resilient power system more important than ever. Gulf Cooperation Council (GCC) countries similar to other countries are projecting similar trends in terms of grid transformation and modernization. On top of it, GCC countries are projected to experience significant growth in power demand driven by urbanization, industrial activities, and population growth. This chapter discusses in detail how emerging power systems can be made more resilient against severe weather events and digital disasters. This chapter concludes by outlining key considerations for the GCC countries to enable resilient power system.
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Hosseini, Seyedvahid, Seyed Hossein Madani, Sara Hatami, et al. "Development of an Affordable MGT-CHP for Domestic Applications." In Springer Proceedings in Energy. Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-30960-1_33.

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AbstractThe micro gas turbine (MGT) is considered one of the main solutions for the future power generation system to provide secure and stable energy. Thanks to its multi-fuel capability and high values of power-to-weight ratio, it is a suitable candidate for many applications such as Combined Heat and Power (CHP) systems, range extenders, and auxiliary power units. Among these applications, the micro-CHP system benefits from both the electricity and exhaust heat of the MGT for household or industrial process applications. The MGT could be integrated with a heat exchanger to introduce a CHP boiler to the domestic boiler market. To reduce the cost and size of the package and to compete with a traditional boiler the simple Brayton cycle without the recuperator is considered and all of the useful energy in the exhaust gas is transferred to the heat exchanger to provide hot water. To further reduce the cost of the system to compete in the market, off-the-shelf components were adopted in this project. In this article, the development process of this product is presented including conceptual design based on the type and size of the market. It follows with an evaluation of off-the-shelf compressor and turbine modulus from the automotive turbochargers to match the operating conditions. Here, the MGT is designed in a way that can be adapted to the boilers with minimum components change. A high-speed alternator was powered with a tie grid drive/inverter to enable a bi-directional connection of the power unit to the network. A comparison between the product definition and experimental results of a demonstrator prototype is presented which reveals gaps between design and prototype outcomes. Analysis shows that 23% of the power degradation can be recovered by enhancing the cooling. Potential development and improvement scenarios are addressed for future development.
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Lu, Lei, Xuefei Li, Yang Kuang, Jie Chen, and Ruichang Qiu. "Parallel Control of Auxiliary Inverter Based on Virtual Synchronous Generator." In Lecture Notes in Electrical Engineering. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-2862-0_11.

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Hadjou, Farid, Bekheira Tabbache, Noureddine Henini, Samir Noui, Mohamed Benbouzid, and El-Madjid Berkouk. "A Photovoltaic Generator System Based on Three-Level Neutral-Point-Clamping Power Inverter." In Advances in Green Energies and Materials Technology. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-0378-5_32.

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Conference papers on the topic "Inverter-based generation"

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Gajare, Pranjal M., Joseph Benzaquen, and Deepak Divan. "Universal Interoperable Control Framework for Inverter-Based-Resources." In 2024 IEEE 15th International Symposium on Power Electronics for Distributed Generation Systems (PEDG). IEEE, 2024. http://dx.doi.org/10.1109/pedg61800.2024.10667356.

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Petreska, Hristina, Pande Popovski, Goran Veljanovski, Metodija Atanasovski, and Blagoja Arapinoski. "Comparison of Dynamic Behavior of Dispersed Generation Based on (A)Synchronous Generator and Inverter." In 2024 59th International Scientific Conference on Information, Communication and Energy Systems and Technologies (ICEST). IEEE, 2024. http://dx.doi.org/10.1109/icest62335.2024.10639743.

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Seifi, Ali, Ali Nadermohammadi, Seyed-Hossein Hosseini, Mehrdad Tarafdar Hagh, and Majid Hosseinpour. "A New Equal/Unequal Multilevel Inverter Structure Based on Developed H-Bridge." In 2025 12th Iranian Conference on Renewable Energies and Distributed Generation (ICREDG). IEEE, 2025. https://doi.org/10.1109/icredg66184.2025.10966133.

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Lin, Qing, and Rolando Burgos. "Challenges of Microgrid Stability Assessment in the Presence of Inverter-Based Resources." In 2024 IEEE 15th International Symposium on Power Electronics for Distributed Generation Systems (PEDG). IEEE, 2024. http://dx.doi.org/10.1109/pedg61800.2024.10667401.

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Bairagi, Girish S., Tejas D. Ahire, Siddesh N. Suryvanshi, Rupesh B. Phatangre, D. B. Pardeshi, and Deepak Porwal. "Inverter Based Wind Energy Generation." In 2023 2nd International Conference on Edge Computing and Applications (ICECAA). IEEE, 2023. http://dx.doi.org/10.1109/icecaa58104.2023.10212255.

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Zifan Zhang, Meng Xiang, Yang Liu, and Ming Zhou. "PSCAD/EMTDC based SVPWM inverter simulation." In International Conference on Sustainable Power Generation and Supply (SUPERGEN 2012). Institution of Engineering and Technology, 2012. http://dx.doi.org/10.1049/cp.2012.1803.

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Pei, Xuejun, Zhi Chen, Shunchao Wang, and Yong Kang. "Overcurrent protection for inverter-based distributed generation system." In 2015 IEEE Energy Conversion Congress and Exposition. IEEE, 2015. http://dx.doi.org/10.1109/ecce.2015.7309987.

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Vidhyarubini, N., and G. Rohini. "Z-source inverter based Photovoltaic power generation system." In 2011 International Conference on Emerging Trends in Electrical and Computer Technology (ICETECT 2011). IEEE, 2011. http://dx.doi.org/10.1109/icetect.2011.5760086.

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Qiushi Cui, Qiushi Cui, Shijia Li Shijia Li, K. El-Arroudi, and G. Joos. "Multifunction intelligent relay for inverter-based distributed generation." In 13th International Conference on Development in Power System Protection 2016 (DPSP). Institution of Engineering and Technology, 2016. http://dx.doi.org/10.1049/cp.2016.0085.

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Jain, D. K., and Nirdesh Singh. "Protection of Inverter Based Distributed Generation During Faults." In 2020 IEEE 9th Power India International Conference (PIICON). IEEE, 2020. http://dx.doi.org/10.1109/piicon49524.2020.9112978.

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Reports on the topic "Inverter-based generation"

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Lyu, Xue, Jing Xie, and Thomas McDermott. Impact of Inverter-Based Resources on Grid Protection: A Review of Negative-Sequence Current Generation. Office of Scientific and Technical Information (OSTI), 2024. http://dx.doi.org/10.2172/2377006.

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