Academic literature on the topic 'Hybrid PV module'

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Journal articles on the topic "Hybrid PV module"

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Marc-Alain Mutombo, N., Freddie Inambao, and Glen Bright. "Performance analysis of thermosyphon hybrid photovoltaic thermal collector." Journal of Energy in Southern Africa 27, no. 1 (2016): 28. http://dx.doi.org/10.17159/2413-3051/2016/v27i1a1564.

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The conversion of solar irradiance into electricity by a photovoltaic module (PV) is 6– 7% of the incoming energy from the sun depending on the type of technology and the environmental parameters. More than 80% of incoming energy from the sun is reflected or absorbed by the solar module. The fraction of energy absorbed increases with solar cell temperature and the cells’ efficiency drops as a consequence. The efficiency of a PV module is improved by combining a PV module and a thermal collector in one unit, resulting in a hybrid photovoltaic and thermal collector (PV/T). The purpose of this paper is to present the behavior a thermosyphon hybrid PV/T when exposed to variations of environmental parameters and to demonstrate the advantage of cooling photovoltaic modules with water using a rectangular channel profile for the thermal collector. A single glazed flat-box absorber PV/T module was designed, its behavior for different environmental parameters tested, the numerical model developed, and the simulation for particular days for Durban weather run. The simulation result showed that the overall efficiency of the PV/T module was 38.7% against 14.6% for a standard PV module while the water temperature in the storage tank reached 37.1 °C. This is a great encouragement to the marketing of the PV/T technology in South Africa particularly during summer, and specifically in areas where the average annual solar irradiance is more than 4.70 kWh/m²/day.
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Zidane, Tekai Eddine Khalil, Mohd Rafi Adzman, Mohammad Faridun Naim Tajuddin, Samila Mat Zali, Ali Durusu, and Saad Mekhilef. "Optimal Design of Photovoltaic Power Plant Using Hybrid Optimisation: A Case of South Algeria." Energies 13, no. 11 (2020): 2776. http://dx.doi.org/10.3390/en13112776.

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Considering the recent drop (up to 86%) in photovoltaic (PV) module prices from 2010 to 2017, many countries have shown interest in investing in PV plants to meet their energy demand. In this study, a detailed design methodology is presented to achieve high benefits with low installation, maintenance and operation costs of PV plants. This procedure includes in detail the semi-hourly average time meteorological data from the location to maximise the accuracy and detailed characteristics of different PV modules and inverters. The minimum levelised cost of energy (LCOE) and maximum annual energy are the objective functions in this proposed procedure, whereas the design variables are the number of series and parallel PV modules, the number of PV module lines per row, tilt angle and orientation, inter-row space, PV module type, and inverter structure. The design problem was solved using a recent hybrid algorithm, namely, the grey wolf optimiser-sine cosine algorithm. The high performance for LCOE-based design optimisation in economic terms with lower installation, maintenance and operation costs than that resulting from the use of maximum annual energy objective function by 12%. Moreover, sensitivity analysis showed that the PV plant performance can be improved by decreasing the PV module annual reduction coefficient.
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Irwan, Y. M., W. Z. Leow, M. Irwanto, M. Fareq, N. Gomesh, and I. Safwati. "Comparison between DC Brushless Fan and DC Hybrid Solar Panel Cooling System." Applied Mechanics and Materials 793 (September 2015): 373–77. http://dx.doi.org/10.4028/www.scientific.net/amm.793.373.

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The purpose of this paper is compare between DC brushless fan and DC hybrid solar panel cooling system. The efficiency of PV module is depending on solar irradiance and ambient temperature. As temperature of PV module increase, the output current will increase but output voltage and output power will decrease and also vice versa. As solar irradiance increase, output current and output power will increase with linear and output voltage will increase with marginal and vice versa. The DC cooling system is a way to fix the issue of low efficiency of PV module with the intention to generate more electrical energy. To make an attempt to cool down the PV module, DC brushless fan and water pump with inlet/outlet manifold are built for constant fresh air movement and water flow circulation at the backside and front surface of PV module. The PV module with DC brushless fan cooling system increase 3.47 %, 29.55 %, 32.23 % in term of output voltage, output current, and output power respectively. It decrease 6.1 °C compare than to PV module without DC brushless fan cooling system. While PV module with DC hybrid cooling system increase 4.99 %, 39.90 %, 42.65 % in term of output voltage, output current, and output power respectively. It decrease 6.79 °C compare to PV module without DC hybrid cooling system. The efficiency of PV module with cooling system was increasing compared to PV module without cooling system, for the reason that the ambient temperature dropped significantly. An increase in efficiency of PV module, investment payback period of the system can reduce and the lifespan of PV module will be prolonged.
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Saha, Nutan, and Prakash Chandra Mishra. "A Multi-Objective Hybrid BESSA Optimization Scheme for Parameter Extraction from PV Modules." Applied Sciences 13, no. 8 (2023): 4705. http://dx.doi.org/10.3390/app13084705.

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In this work, a multi-objective Hybrid Bald Eagle Search Simulated Annealing (Hybrid BESSA) parameter extraction technique for photovoltaic (PV) modules is discussed. First, the efficacy of the Hybrid BESSA was proved via testing on unimodal functions, multimodal functions, and fixed dimensional multimodal functions and the results were compared with the Bald Eagle Search(BES) and other recently proposed optimization techniques. Then, a multi-objective Hybrid Bald Eagle Search Simulated Annealing (Hybrid BESSA) parameter extraction technique was devised for photovoltaic (PV) module parameter extraction. The Hybrid BESSA parameter extraction technique was simulated and analyzed in the MATLAB/SIMULINK environment and in a practical experimental setup for the PV Module AS-M3607-S (G1 CELLS). It was found that the Hybrid BESSA possessed better exploration and exploitation capabilities as compared to the BES and other state-of-the-art techniques. It was found that the fitness function value derived by the Hybrid BESSA technique was less than that of the BES technique when tested under various weather conditions. The percentage error for open circuit voltage, output power, and short circuit current was lower when derived by the Hybrid BESSA in comparison with the BES technique. From the results obtained from modeling the PV Module AS-M3607-S (G1 CELLS) based on Hybrid BESSA-based extracted parameters and BES-based extracted parameters, it was seen that percentage improvement in the combined objective function for the condition of keeping irradiance fixed at 1000 W/m2 at a temperature varying from −30 °C, 0 °C, 25 °C, 30 °C, 50 °C, and 70 °C were 0.9%, 8.5%, 29.2%, 0.03%, 5.7%, and 0.5%, respectively. When the temperature was kept fixed at 250 °C and irradiance varied from 1000 W/m2, 800 W/m2, 600 W/m2, and 400 W/m2, the percentage improvement in combined objective function was found to be 0.5%, 8.1%, 0.5%, and 0.8%, respectively. By analyzing the simulation as well as the experimental results, it was established that the PV model parameter extraction method based on the Hybrid BESSA is more accurate than the BES technique. This analysis is based on a single-diode PV module. A double-diode PV module analysis still needs to be explored.
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Mao, Wang, Xing Zhang, Yuhua Hu, et al. "A Research on Cascaded H-Bridge Module Level Photovoltaic Inverter Based on a Switching Modulation Strategy." Energies 12, no. 10 (2019): 1851. http://dx.doi.org/10.3390/en12101851.

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The stable operating region of a photovoltaic (PV) cascaded H-bridge (CHB) grid-tied module level inverter is extended by adopting the hybrid modulation strategy. However, the traditional single hybrid modulation method is unable to regulate the DC-side voltage of each module precisely, which may aggravate the fluctuation of modules’ DC-side voltages or even cause the deviation of modules’ DC-side voltages under some fault conditions and, thus, degrade the energy harvesting of PV panels. To tackle this problem, a switching modulation strategy for PV CHB inverter is proposed in this paper. When the CHB inverter is operating in normal mode, the hybrid modulation strategy containing the zero state is adopted to suppress DC-side voltage fluctuation, thereby, improving the output power of PV modules. When the CHB inverter is operating in fault mode owing to failing solar panels, the hybrid modulation strategy without the zero state is utilized to make the DC-side voltages reach the references and, thus, maintain a higher energy yield under fault conditions. Experimental results achieved by a laboratory prototype of a single-phase eleven-level CHB inverter demonstrate both the feasibility and effectiveness of the proposed method.
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Mahmoudinezhad, Sajjad, Petru Adrian Cotfas, Daniel Tudor Cotfas, et al. "An Experimental Study on Transient Response of a Hybrid Thermoelectric–Photovoltaic System with Beam Splitter." Energies 14, no. 23 (2021): 8129. http://dx.doi.org/10.3390/en14238129.

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In the current study, the electrical responses of a thermoelectric (TE) module and a photovoltaic (PV) cell are investigated in three different systems, namely, a PV-only system, TE-only system, and hybrid TE-PV system with a beam splitter (TE-PV-BS), under variable solar irradiations demonstrating partly cloudy weather conditions. To enhance the deployment of solar energy, a predesigned beam splitter combined with the amorphous silicon TE and PV system is used in the experiments. The impact of the spectral beam splitting technology on the conversion performance of the TE module and PV cell in the hybrid system is studied and compared to the performance of the TE-only and PV-only systems. The electrical output parameters of the TE module and PV cell are obtained for the studied systems, and they are discussed in detail. The results of this work show that the power generated by the PV cell has a stepwise fluctuation similar to the variation in the concentrated solar radiation. Affected by its heat capacity, the power variation is monotonous with the TE module. The results moreover indicate that there is more power generated by the PV cell in the TE-PV-BS hybrid system than by the PV-only system. In comparison, the TE-only system produces more power than the TE module in the hybrid system. Furthermore, the TE-PV-BS hybrid system generates higher and more stable electrical power than the TE-only and PV-only systems, showing a significant advantage of the spectrum management concept.
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Irwan, Y. M., W. Z. Leow, M. Irwanto, M. Fareq, N. Gomesh, and I. Safwati. "Comparative Efficiency of Solar Panel by Utilize DC Water Pump and DC Hybrid Cooling System." Applied Mechanics and Materials 793 (September 2015): 398–402. http://dx.doi.org/10.4028/www.scientific.net/amm.793.398.

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The purpose of this paper is discussed about comparative efficiency of solar panel by utilize DC water pump and DC hybrid cooling system. Ambient temperature and solar irradiance are played main role of the efficiency of PV module. When temperature of PV module increase, the efficiency of PV module will decreased and vice versa. When solar irradiance increase, output current and output power will increase with linear and output voltage will increase with marginal and vice versa. A solution is provided to solve problem of low efficiency of PV module which is DC cooling system. DC brushless fan and water pump with inlet/outlet manifold were designed for actively cool the PV module to improve efficiency of PV cells. The PV module with DC water pump cooling system increase 3.52 %, 36.27 %, 38.98 % in term of output voltage, output current, and output power respectively. It decrease 6.36 °C compare than to PV module without DC water pump cooling system. While PV module with DC hybrid cooling system increase 4.99 %, 39.90 %, 42.65 % in term of output voltage, output current, and output power respectively. It decrease 6.79 °C compare to PV module without DC water pump cooling system. The higher efficiency of PV module, the payback period of the system can be shorted and the lifespan of PV module can be longer.
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Hariyanto, Hariyanto, Mustofa Mustofa, Zuryati Djafar, and Wahyu H. Piarah. "Mathematical Modeling in Combining Photovoltaic and Thermoelectric Generator using a Spectrum Splitter." EPI International Journal of Engineering 2, no. 1 (2019): 74–79. http://dx.doi.org/10.25042/epi-ije.022019.13.

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The experimental stages of converting solar energy into electrical energy in Photovoltaic and Thermoelectric Generator (PV-TEG) hybird ​​takes a long time. Modeling is one approach to find out the initial data before conducting experiments leading to minimize design errors, time and budget. A mathematical model is created to analyze the performance of a PV-TEG hybrid module. Modeling is performed as an electrical circuit equivalent to Kirchoff's Curent Law (KCL) by deriving several equations corresponding to the characteristics of each module. Type of PV is amorphous Silicon (a-Si), while TEG is Bismuth Telluride (Bi2Te3). The AM1.5D standard solar spectrum is splitted its wavelength spectrum using hot mirror, where the wavelengths of 400-690 nm are transmitted to PV and 690-1150 nm are reflected to TEG. All of PV-TEG hybrid parameters, for example intensity, temperature, and material property are obtained from the specification data of each module. As a results, the maximum total power is 0.0437 W with 5.1% its efficiency.
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Wang, Meng-Hui, Zong-Han Lin, and Shiue-Der Lu. "A Fault Detection Method Based on CNN and Symmetrized Dot Pattern for PV Modules." Energies 15, no. 17 (2022): 6449. http://dx.doi.org/10.3390/en15176449.

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The photovoltaic (PV) module is a key technological advancement in renewable energy. When the PV modules fail, the overall generating efficiency will decrease, and the power system’s operation will be influenced. Hence, detecting the fault type when the PV modules are failing becomes important. This study proposed a hybrid algorithm by combining the symmetrized dot pattern (SDP) with a convolutional neural network (CNN) for PV module fault recognition. Three common faults are discussed, including poor welding, breakage, and bypass diode failure. Moreover, a fault-free module was added to the experiment for comparison. First, a high-frequency square signal was imported into the PV module, and the original signal was captured by the NI PXI-5105 high-speed data acquisition (DAQ) card for the hardware architecture. Afterward, the signal was imported into the SDP for calculation to create a snowflake image as the image feature for fault diagnosis. Finally, the PV module fault recognition was performed using CNN. There were 3200 test data records in this study, and 800 data records (200 data records of each fault) were used as test samples. The test results show that the recognition accuracy was as high as 99.88%. It is better than the traditional ENN algorithm, having an accuracy of 91.75%. Therefore, while capturing the fault signals effectively and displaying them in images, the proposed method accurately recognizes the PV modules’ fault types.
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Altınkök, Sevgi, and Meral Altınay. "INVESTIGATION OF THERMAL DISTRIBUTION AND THERMOELECTRIC COOLING PERFORMANCE IN A PHOTOVOLTAIC PANEL." Journal of Naval Sciences and Engineering 21, no. 1 (2025): 51–71. https://doi.org/10.56850/jnse.1651746.

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Photovoltaic (PV) panels, while generating energy from solar radiation, may experience a loss in efficiency due to excessive heating of the module surface. This heating negatively impacts the performance of the PV module, reducing the energy efficiency derived from solar radiation. In this study, the thermal behavior of a PV module integrated with a thermoelectric generator (TEG) is thoroughly investigated through experimental and simulation approaches. The PV-TEG integration not only minimizes the efficiency loss by cooling the PV modules but also provides additional energy generation through the thermoelectric generators (TEG). These hybrid systems, particularly in regions with high temperatures and intense solar radiation, have the potential to enhance the efficiency of photovoltaic systems and enable more efficient energy production. The study demonstrates the potential of PV-TEG systems to perform both functions cooling and energy generation simultaneously.
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Dissertations / Theses on the topic "Hybrid PV module"

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Alayan, Sophia. "Design of a PV-Diesel Hybrid System with Unreliable Grid Connection in Lebanon." Thesis, Högskolan Dalarna, Energiteknik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:du-24465.

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This thesis is a study on integration of photovoltaic generators into an existing diesel-unreliable grid connected system at the Lebanese village of Khiam. The main goal of implementing PV-diesel hybrid system is to reduce diesel consumption and the import of fossil fuel used in electricity power supply. Before designing the system, it is necessary to create a load profile for 120 households and pre-design the size of the PV generator, the capacity of storage system and inverter type/size selection. The load profile data is based on the average of monthly energy consumption gathered from Khiam village households. Detailed simulations and financial analysis are performed with HOMER to compare different systems and their viability. The simulations include four different designs starting from the existing system, diesel generator with unreliable grid, followed by PV generator and unreliable grid, PV and diesel generator and ended with the complete hybrid system. Once the Hybrid system is determined a detailed design is done to optimize the lowest cost PV-diesel hybrid system. The final simulated PV-diesel hybrid system is suggested with a PV capacity of 270 kWp, existing diesel capacity with 200 kVA, an inverter output of 115 kW and battery bank nominal capacity is 1872 kWh. The system renewable fraction is 53% and the project life cycle is 25 years. The PV-diesel hybrid system is projected to produce electricity at a cost of 0.12 USD/kWh. This cost is significantly lower than the 0.26 USD/kWh paid to the diesel operator, as well as lower than 0.13 USD/kWh paid to the utility grid. In addition, and according to the given information from the owner, an estimated diesel consumption of 104000 ltr/year, the simulation result shows diesel consumption at 40000 ltr/year. The reduced carbon dioxide production by 65%, from 776 to 272 tons per year, provides further justification for the PV installation in a commercial PV-diesel hybrid system.
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Nalis, Amrizal. "Quasi-Dynamic Characterization of Hybrid Photovoltaic/Thermal (PV/T) Flat-Plate Collectors." Doctoral thesis, Universitat de Lleida, 2012. http://hdl.handle.net/10803/84100.

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Un model híbrid transitòria fotovoltaic / tèrmic ha estat desenvolupat i validat experimentalment. La metodologia s'estén el model tèrmic quasi-dinàmica s'indica a la norma EN 12975 per involucrar el rendiment elèctric i estudiar el comportament dinàmic minimitzar les limitacions de l'hora de caracteritzar el col • lector. Una es mou cap enrere procediment mitjà de filtrat s'ha aplicat per millorar la resposta del model de condicions de treball variables. Quant a la part elèctrica, el model inclou les dependències tèrmiques i la radiació en les seves variables. Els resultats van revelar que els paràmetres característics inclosos en el model raonablement d'acord amb els valors experimentals obtinguts de la norma d'estat estacionari i els mesuraments de la corba característica IV. Després d'un procés de calibració del model proposat és una eina adequada per predir el comportament tèrmic i elèctric d'un col • lector solar híbrida, per un temps determinat conjunt de dades.<br>A hybrid photovoltaic/thermal transient model has been developed and validated experimentally. The methodology extends the quasi-dynamic thermal model stated in the EN 12975 to involve the electrical performance and to consider the dynamic behaviour minimising constraints when characterising the collector. A backward moving average filtering procedure has been applied to improve the model response for variable working conditions. Concerning the electrical part, the model includes the thermal and radiation dependences in its variables. The results revealed that the characteristic parameters included in the model reasonably agree with the experimental values obtained from standard steady-state and IV characteristic curve measurements. After a calibration process the proposed model is a suitable tool to predict the thermal and electrical performance of a hybrid solar collector, for a specific weather data set<br>Se ha desarrollado un modelo dinámico para caracterizar colectores solares híbridos térmofotovoltaicos. La metodología extiende el modelo térmico estipulado en la norma EN 12975 involucrando la aportación eléctrica y estudiando el comportamiento dinámico para minimizar las restricciones a la hora de caracterizar el módulo. Se han implementado procedimientos de filtrado que mejoran la respuesta del modelo bajo condiciones variables. En cuanto a la parte eléctrica, el modelo incluye las dependencias térmicas y la radiación en sus variables. Los resultados obtenidos a partir de caracterización dinámica del colector híbrido PV/T revelaron que los parámetros característicos incluidos en el modelo concuerdan razonablemente bien con los valores experimentales obtenidos siguiendo el estándar de caracterización estacionaria, la capacidad calorífica efectiva y las mediciones de la curva característica IV. Después de un proceso de calibración, el modelo es una herramienta adecuada para predecir el comportamiento de un colector solar híbrido, para unas condiciones externas determinadas.
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Hyatt, Justin, Jeffrey Mrkonich, Lennon Reinhart, and Wyatt Taylor. "PVMirror – A High-Efficiency Solar Module." 2016. http://hdl.handle.net/10150/603589.

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Poster exhibited at GPSC Student Showcase, February 24th, 2016, University of Arizona.<br>To make photovoltaics (PV) and concentrated solar thermal power (CSP) more practical forms of alternative energy, creative innovations to current solar energy methods must be employed. The PVMirror – a new technology – is our solution to that problem. The PVMirror combines PV and CSP technologies by splitting the spectrum of sunlight using a dichroic mirror film. Light that is not transmitted to the solar cell is to instead be reflected to a focus, by way of a curved mirror. This hybrid of technologies is competitive, as it is both efficient and affordable compared to many other innovations in renewable energy. The PVMirror is designed to be an easy and cost-effective replacement to the reflectors used in existing CSP plants. Ultimately, we hope to demonstrate this PVMirror technology on a large scale and market it. As validated from interviewing with industry professionals, this technology has the potential to impact the world of solar energy because many industrial companies and utility-scale CSP project developers are interested in pairing CSP and PV to increase efficiency. Currently, using an outdoor sun tracker, we are testing an 18 inch by 18 inch prototype with four solar cells.
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Chen, Ming-Chieh, and 陳銘杰. "Design and Implementation of Hybrid Charger System Based on Wind Turbine and PV-Module Power Generator." Thesis, 2006. http://ndltd.ncl.edu.tw/handle/36085244211264767288.

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碩士<br>國立東華大學<br>電機工程學系<br>94<br>Stand-alone regenerative power systems usually require batteries for energy storage. This thesis presents the design of the battery charger powered by both the photovoltaic (PV) module and the wind turbine generator (WTG). In the power converters, a single-ended primary inductance converter (SEPIC) is adopted. This is because the SEPIC has the features of the buck-boost operating mode, no polarity inversion, low input current pulsation, and wide input voltage range. This thesis develops the following techniques: (i) Design of the current-mode control SEPIC with the input voltage regulation. (ii) Maximum power point tracking (MPPT) controller design of the PV module. (iii) MPPT controller design of the WTG without sensing the rotor parameters. (iv) Design of the three-stage battery charging controller. (v) Power balance strategy among two subsystems, the battery and the load. (vi) The PV module emulator and the WTG emulator implemented with the half-bridge converters. The MPPT controller for both subsystems, the I-V characteristic of the PV module emulator and the P-
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Book chapters on the topic "Hybrid PV module"

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Dixit, Tata Venkat, Anamika Yadav, S. Gupta, and Almoataz Y. Abdelaziz. "Power Extraction from PV Module Using Hybrid ANFIS Controller." In Power Systems. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-6151-7_10.

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Mangano, Giuseppe. "Renewable Energy Communities: Enabling Technologies and Regenerative Models for the Green and Digital Transition in the Inner Areas." In Lecture Notes in Networks and Systems. Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-34211-0_15.

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AbstractThis contribution addresses issues of research in Architectural Technology conducted with the laboratory ABITAlab of dArTe-Unirc, with reference to the design of devices for regenerative models based on the tool of “Renewable Energy Communities” in territories subject to marginalization and depopulation phenomena, such as the inner areas of Grecanica Area in Reggio Calabria. The aim is to envisage a transformative path of sustainable development, which can implement “mechanisms of just and equitable transition” at the local level, placing itself within the lines of support and public investment for climate neutrality, such as the Next Generation EU and the National Plan for Recovery and Resilience in Italy. We investigate the key issues of advanced sustainable project, for the design of devices and integrated innovative tools based on solar technologies (PV) for the production, storage and distribution and sharing of energy by communities settled in the inner areas (prosumers), helping to obtain economic and environmental benefits, towards the “climate neutrality”. The model of Energy Communities, using processes of Advanced Regenerative Design, which increase the performance of the system, thanks to the integration of hybrid “zero impact” technologies, become the tool through which to trigger processes of regeneration and new quality of space and life in the inner territories, where there is a greater presence of natural resources (air, water, sun, biomass, etc.) to be used as renewable sources for energy production, but also the possibility to monitor and more easily account for the impacts of a settlement model based on “carbon free” energy production chains, with the reference community settled.
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Brogren, M., M. Rönnelid, and B. Karlsson. "PV-Thermal Hybrid Low Concentrating CPC Module." In Sixteenth European Photovoltaic Solar Energy Conference. Routledge, 2020. http://dx.doi.org/10.4324/9781315074405-15.

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Valarmathi, Dr K., R. Sasireka, T. Rengaraj, K. Ramalakshmi, and Dr G. Karthikeyan. "ENHANCEMENT THE FRESH WATER HARVESTING FROM HYBRID PV/T SOLAR STILL TECHNIQUES." In Futuristic Trends in Network & Communication Technologies Volume 2 Book 19. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2023. http://dx.doi.org/10.58532/v2bs19p2ch4.

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The solar energy is one of the very popular non-conventional energy. The Solar photovoltaic (PV) power generation is depending on irradiation (light energy) and heat energy (resistance). Non-conventional energy basis is maintained on all zones of expertise, particularly the variation of solar energy for numerous resolutions. The current tentative study is approved out to advance the competence of PV/T solar still with improved evaporation and compression technique. A DC power-driven blower is static inside a solitary slope solar still which growths the commotion of evaporated vapor since the salty water confidential the solar still while the condensation is enhanced with shelter chilling method. A hybrid photovoltaic/thermal (PV/T) energetic solar still and a conservative passive solar still with solo incline were designed, fabricated and investigated at three dissimilar water pits. For the advanced making of distillate water, a heater driven by solar (PV) was combined in the planned hybrid energetic still. Solar PV module was chilled by the salt water which enhance the productivity of the solar PV as well as the distillate water making. The everyday harvest from the planned hybrid energetic (PV/T) solar still is 6 times higher than the conservative passive still. This novel system of renewable energy related power and distillate water making is extremely self-supportable in the isolated zones. From the investigational learning it is clear that, the planned hybrid energetic (PV/T) solar still provides an improved complete thermal and electrical competence, that is nearly 25% higher than the conservative passive one
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Ghosh, Arnab, Annesha Sahu, and Puja Barua. "Particle Swarm Optimization-Based MPPT for PV Applications and Its Comparison With Incremental Conductance Method." In Optimization Techniques for Hybrid Power Systems. IGI Global, 2024. http://dx.doi.org/10.4018/979-8-3693-0492-1.ch013.

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The maximum power point tracking (MPPT) method for photovoltaic (PV) applications using incremental conductance (INC) and particle swarm optimization (PSO) is compared in this work. The chapter contains a comprehensive investigation of the underlying ideas and practical elements of the INC and PSO MPPT methodologies. The MPPT control system's PV module, DC-DC boost converter, and INC and PSO based MPPT algorithms are all simulated using MATLAB Simulink. A comparison of the system's performance under various solar irradiation rates—both fast and slow—is also made in the simulation. The simulation findings show that in terms of efficiency and accuracy, PSO-based MPPT surpasses the INC technique, mainly under variable weather and shading circumstances. The proposed investigation gives a thorough grasp of the advantages and disadvantages of PSO and INC-based MPPT approaches, as well as the possibilities for additional study.
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Singh, Mrigendra, S. C. Solanki, Basant Agrawal, and Rajesh bhargava. "INTRODUCTION OF PHOTOVOLTAIC THERMAL COLLECTOR HYBRID SYSTEM FOR IMPROVEMENT OF PERFORMANCE OF PV MODULE A SUSTAINABLE DEVELOPMENT." In Futuristic Trends in Renewable & Sustainable Energy Volume 3 Book 4. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bars4p1ch1.

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Based on the most advanced system components for photovoltaic-thermal (PVT) technologies, this study investigates the convincible contribution of PVT solar collectors to sustainable progress. PVT technologies are a capable way to reduce the excess heat generated by PV panels while also significantly lowering the cost of production and improving energy output. Therefore, the PVT industry's and researchers' ability to reduce the complexity and cost of their present systems in a way that can close the productiveness and price gap with both PV and (ST) Solar Thermal systems is crucial to the technology's development. The information presented in this book chapter was learned after extensive research on PV technology, working, classification, literature review, performance calculation, application and market status, and project growth, which various PVT experts with extensive experience in developing PVT technologies. This knowledge lays the groundwork for PVT solar collectors that are more effective and affordable
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Zerhouni, Fatima Zohra, M’hammed Houari Zerhouni, Mansour Zegrar, and Amine Boudghene Stambouli. "Study of Hybrid Sustainable Energy System Based on PEM Fuel Cells and Photovoltaic-Module Power Generator." In Sustainable ICTs and Management Systems for Green Computing. IGI Global, 2012. http://dx.doi.org/10.4018/978-1-4666-1839-8.ch018.

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The computer is the greatest innovation of the 20th century. It has changed our lives. It executes tasks with precision. There is no limit with what we can do with software. Computers are seductive. Companies and students cannot work without them. They help students to perform mathematical computations. It is very important that mathematical ideas are expressed in computer programs in order to have theoretical results and to verify them practically. Nowadays, the development of new and non-polluting energy producing and energy-storage systems is a great challenge for scientists. An alternative to the nuclear and fossil fuel power is renewable energy technologies. Due to ever-increasing energy consumption, rising public awareness of environmental protection, and steady progress in power deregulation, alternative (i.e., renewable and fuel cell based) distributed generation systems have attracted increased interest. There is an accelerating world demand for environmentally friendly power. Among the renewable energy sources, the Photovoltaic (PV) energy is the most promising candidate for research and development for large scale users. Fuel cells have been receiving a lot of attention lately due to their potential of becoming a new energy source with a large range of applications. Fuel cells can be incorporated with other components to create high efficiency industrial power plants. Fuel cells permit clean and efficient energy production. The purpose of the work is to optimize the system’s operation. The main reason to build described system is to supply stand-alone systems using renewable energy sources. Therefore, the power plant has to produce energy independent of any weather fluctuations. Integrating photovoltaic energy sources with fuel cells, as a storage device replacing the conventional lead-acid batteries, leads to a non-polluting reliable energy source. In this chapter, an energy system comprising different energy sources, namely PV and fuel cells, is proposed. Photovoltaic cells coupled with electrolytic devices can be used to produce hydrogen and oxygen in a sustainable manner. With the produced hydrogen from the electrolysis process, it is possible to generate electricity through fuel cells. Photovoltaic panels in particular can provide a good source of producing green electricity. It is autonomous, its operation does not pollute the atmosphere, and it is an inexhaustible and renewable source with great reliability. The simulation program developed also allows the exportation of different configurations. The experimental system described has permitted the validation of the proposed method.
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Bel Hadj Brahim Kechiche, Olfa, and Habib Sammouda. "Concentrator Photovoltaic System (CPV): Maximum Power Point Techniques (MPPT) Design and Performance." In Solar Radiation - Measurements, Modeling and Forecasting for Photovoltaic Solar Energy Applications [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.98332.

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The research carried out in this work aimed to study the performance of MPPT techniques applied to the Concentrator Photovoltaic (CPV) System for the research and the pursuit of the Maximum Power Point (MPP).This study presents a modeling and simulation of the CPV system. It consists of a PV module located in the focal area of a parabolic concentrator, a DC / DC converter (Boost), two MPPT controls (P&amp;O and FL) and a resistive load. This chapter presents the two MPPT techniques (P&amp;O and FL) performances. The obtained results show the importance of cooling systems integration with CPV system. This hybrid system design results in good MPPT P&amp;O and FL performance. The numerical results obtained with Matlab/Simulink® software have generally shown that the two MPPT controls result in better performance in terms of speed, and accuracy, stability. In fact they showed that the CPV system is stable.
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Ameur, Arechkik, Asmae Berrada, Khalid Loudiyi, and Raymond Adomatis. "Performance and energetic modeling of hybrid PV systems coupled with battery energy storage." In Hybrid Energy System Models. Elsevier, 2021. http://dx.doi.org/10.1016/b978-0-12-821403-9.00008-1.

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Tantau, Adrian, and Robert Staiger. "Evolving Business Models in the Renewable Energy." In Sustainable Business. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-5225-9615-8.ch018.

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New business models in the solar PV business were pushed from government policies worldwide for reducing GHG emissions. Therefore, PV system installments increase exorbitant in the last years with the consequences of constant falling of prices for PV system and energy. All these quickly changed conditions, means new flexible BM. Power purchase agreements, Product Service Systems, demand resource provider, energy performance contracts are evolving rapidly in the renewable energy business. There is a variation of new PV BM for use. PV represent a new energy source for producing H2 as a storable renewable fuel in an overcapacity situation. Using H2 in combination with other systems, like hybrid systems, heat pumps gives new unique business opportunities. Decentralization will be the key to success. Other applications like mobility and long term storage are other further alternatives in connections or combination with the volatile renewable energy sources.
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Conference papers on the topic "Hybrid PV module"

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Satpathy, Suswagata, and Krishna Roy. "Performance Analysis Of PV Module With Hybrid MPPT And Conventional MPPT Technique." In 2024 IEEE International Conference on Smart Power Control and Renewable Energy (ICSPCRE). IEEE, 2024. http://dx.doi.org/10.1109/icspcre62303.2024.10674822.

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Nilian, Mohammad, Reza Rezaii, and Issa Batarseh. "Practical Design and Implementation of PV AC module based on Hybrid Microinverter." In 2024 IEEE Energy Conversion Congress and Exposition (ECCE). IEEE, 2024. https://doi.org/10.1109/ecce55643.2024.10861111.

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Iwundu, Chukwudi Paschal, Ogheneruona Endurance Diemuodeke, and Joseph Chukwuma Ofodu. "Modelling and Optimization of Hybrid Photovoltaic-Wind Turbine with Energy Storage System for Autonomous Electricity Generation." In Africa International Conference on Clean Energy and Energy Storage. Trans Tech Publications Ltd, 2025. https://doi.org/10.4028/p-k0qcyv.

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The integration of renewable energy sources, such as photovoltaic (PV) and wind turbines, has gained significant attention due to the growing demand for reliable and clean energy solutions. This paper presents a comprehensive modelling and optimization approach for hybrid PV and wind turbine systems to maximize system performance at the same time minimizing cost and surplus energy. The proposed model incorporates detailed mathematical formulations that capture the interactions between PV modules, wind turbines, and the storage system which is a battery energy storage system (BESS). The model also considers economic factors and methods to reduce the surplus energy of the system. The optimization scheme utilized the African vulture optimization algorithm (AVOA). The AVOA is a nature-inspired meta-heuristic algorithm created based on the hunting patterns of African vultures. In addition, the AVOA was constructed to handle a multi-objective optimization with size and costs as the objective functions. The optimized system provides the best system size to support the electricity supply of a coastline town (4.7231°N, 6.77881°E). The optimized system can deliver 41.80 GWh of energy annually, meeting 98.3% of the energy demands of the community; while the optimized system has a cost savings of 45.11%, with 92.9% penetration. The work provides valuable insights for system designers, energy planners, and policymakers in their efforts to promote renewable energy integration and address the challenges associated with the transition to a low-carbon future.
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Niafenderi, Sajedeh Darvishi, and Paras Mandal. "Hyperparameter Tuned Hybrid DL Models and Similarity Method for PV Power Forecasting." In 2024 IEEE Power & Energy Society General Meeting (PESGM). IEEE, 2024. http://dx.doi.org/10.1109/pesgm51994.2024.10761092.

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Akpuluma, David, Alexey V. Yurchenko, Neda Firoz, James Ibibia Abam, Victor Nkemjika Iheji, and Boris D. Belan. "Enhanced Forecasting of PV Power Output Using LSTM Integrated with LASSO-RFR Hybrid Models in Extreme Weather Conditions." In 2024 IEEE 3rd International Conference on Problems of Informatics, Electronics and Radio Engineering (PIERE). IEEE, 2024. https://doi.org/10.1109/piere62470.2024.10805041.

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Tabatabaian, Mehrzad, Wolf Tivy, and Chris Bibby. "Design and Development of a Hybrid Photovoltaic-Thermal/PVT System." In ASME 2012 6th International Conference on Energy Sustainability collocated with the ASME 2012 10th International Conference on Fuel Cell Science, Engineering and Technology. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/es2012-91258.

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A Photovoltaic/PV cell converts solar radiation to electrical power. In order to have practical power output from these cells they are framed into modules. A typical module provides about 160–200 Wp. The electrical efficiency of the module decreases from its typical value of 19% by about 0.4–0.5% per degree K/°C. In order to increase the electrical efficiency of a PV system it is possible to cool the modules down by augmenting compact heat exchangers with a working fluid (e.g., air). The extracted heat can have several applications and through cooling the PV modules we can increase the efficiency of the system by about 30–40%, combined (i.e., heat and power). Two design concepts are presented and supported by CFD models. Prototypes of these systems are fabricated and installed and experimental investigations of their performances are currently in progress.
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Kiflemariam, Robel, Francisco E. Zevallos, Mackenson Telusma, and Cheng-Xian Lin. "COMPUTATIONAL MODELS FOR PERFORMANCE PREDICTION OF A HYBRID PV/T MODULE." In First Thermal and Fluids Engineering Summer Conference. Begellhouse, 2016. http://dx.doi.org/10.1615/tfesc1.ecv.012914.

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Zevallos, Francisco E., Cheng-Xian Lin, and Robel Kiflemariam. "A Computational Model for Performance Prediction of a Hybrid PV/T Module." In ASME 2014 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2014. http://dx.doi.org/10.1115/imece2014-38569.

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In this paper we investigate the performance of an integrated solar photovoltaic and thermal (PV/T) liquid (water) collector using a computational simulation program. A detailed time-dependent thermal model was formulated to calculate and correlate the thermal parameters in a standard PV/T collector, including solar cell temperature, back surface temperature, and outlet water temperature. Based on the energy balance of each component of the system, an analytical expression for the temperature of the PV module and the water was derived. In addition, an analytical expression for the instantaneous energy efficiency of the PV/T collector was also derived in terms of thermal, design and climatic parameters. Built on previously published model, a new computer simulation program was developed and validated. The thermal simulation results obtained are more precise than those previously reported in the literature.
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Ulavi, Tejas U., Jane H. Davidson, and Tim Hebrink. "Analysis of a Hybrid PV/T Concept Based on Wavelength Selective Films." In ASME 2013 7th International Conference on Energy Sustainability collocated with the ASME 2013 Heat Transfer Summer Conference and the ASME 2013 11th International Conference on Fuel Cell Science, Engineering and Technology. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/es2013-18011.

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The technical performance of a non-tracking hybrid PV/T concept that uses a wavelength selective film is modeled. The wavelength selective film is coupled with a compound parabolic concentrator to reflect and concentrate the infrared portion of the solar spectrum onto a tubular absorber while transmitting the visible portion of the spectrum to an underlying thin-film photovoltaic module. The optical performance of the CPC/selective film is obtained through Monte Carlo Ray-Tracing. The CPC geometry is optimized for maximum total energy generation for a roof-top application. Applied to a rooftop in Phoenix, Arizona USA, the hybrid PV/T provides 20% more energy compared to a system of the same area with independent solar thermal and PV modules, but the increase is achieved at the expense of a decrease in the electrical efficiency from 8.8% to 5.8%.
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Xin Gao and S. Irvine. "PV module capacity assessment for a hybrid power generation system." In 2010 International Conference on Computer Application and System Modeling (ICCASM 2010). IEEE, 2010. http://dx.doi.org/10.1109/iccasm.2010.5620063.

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Reports on the topic "Hybrid PV module"

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Eurek, Kelly, Caitlin Murphy, Wesley Cole, Will Frazier, Patrick Brown, and Anna Schleifer. Representing DC-Coupled PV+Battery Hybrids in a Capacity Expansion Model. Office of Scientific and Technical Information (OSTI), 2021. http://dx.doi.org/10.2172/1781784.

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Durvasulu, Venkat, Caitlin Murphy, and Paul Denholm. Evaluating Utility-Scale PV-Battery Hybrids in an Operational Model for the Bulk Power System. Office of Scientific and Technical Information (OSTI), 2021. http://dx.doi.org/10.2172/1780668.

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