A detailed mathematical model and experimental validation for coupled thermal and electrical performance of a photovoltaic (PV) module

Yaman, Kaan; Arslan, Gökhan

doi:10.1016/j.applthermaleng.2021.117224

Cited by 23 publications

(15 citation statements)

References 40 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Figure 9 [24] describes hourly fluctuation in the generation of electricity by the panel with and without application of reflecting devices for 4 th May, the total electrical energy produced by the PV collector with mirrors in the ideal position is equal to 415.87 WH/day while the total electrical energy produced by the Photovoltaic collector without mirrors reaches 272.46 Wh/day, which shows the great influence of mirrors on the electrical energy produced. Figure 10 mirrors during March 21st, the average efficiency value of PV without reflectors is (12.77%) and with reflectors in the best position equal (14.12%), it can be seen that the electrical efficiency of the PV (20) without mirrors is lower than that of the PV collector with mirrors and this is due to the increase in solar energy received. The hourly variation of the electrical efficiency of the PV panel cell as a function of temperature, calculated by (21), is shown in Figure 11.…”

Section: Resultsmentioning

confidence: 93%

“…A prototype experimental photovoltaic thermal collector using the special heat exchanger concept for a square PV module area was constructed and externally tested by [19], revealing that the electrical power increased by 6 W; also, the electrical power efficiency increased from 7.93-9.65%, and the thermal power efficiency of the PVT reached 74.3%. An extensive numerical model has been developed to evaluate the thermal and electrical parameters of a PV module at transient conditions by [20].…”

Section: Related Workmentioning

confidence: 99%

See 1 more Smart Citation

Solar photovoltaic/thermal air collector with mirrors for optimal tilts

Benkaddour

Boulaich

Aroudam

2022

IJECE

View full text Add to dashboard Cite

This work is the result of a study of a photovoltaic/thermal air collector that concentrates solar radiation using two mobile mirrors to enhance electrical and thermal energy. The study is made for the site of Tetouan (Morocco) (longitude=-5°, latitude=35.25°) for a daily variation during typical days in May, June, September, and December, days considered as clear sky. To prove the effectiveness of the mirrors on the production of both electrical and thermal energy by the collector, we compared their electrical and thermal efficiency in two cases, without and with mirrors at the optimal positions. We validate the obtained simulation results by comparing them to the results from experimental studies published in the literature, for which a strong agreement was obtained. The model estimates the solar energy received by the hybrid collector during the day, to optimize the performance of the fixed collector, we have searched for the values of the optimal daily tilt angles of the two mirrors which allowed us to enhance the quantity of incoming solar radiation on the collector. The tilt angles depend on the sun’s elevation angle, the azimuth angle for typical days of the year.

show abstract

Section: Resultsmentioning

confidence: 93%

Section: Related Workmentioning

confidence: 99%

Solar photovoltaic/thermal air collector with mirrors for optimal tilts

Benkaddour

Boulaich

Aroudam

2022

IJECE

View full text Add to dashboard Cite

show abstract

“…Other modules are added according to the requested power. The current I(V) as illustrated in (1) [24]− [26].…”

Section: Mathematical Model For a Photovoltaic Modulementioning

confidence: 99%

A new approach of robust speed-sensorless control of doubly fed induction motor fed by photovoltaic solar panel

Mounira

Cherifi

2023

IJPEDS

View full text Add to dashboard Cite

<span lang="EN-US">In this work, we presented the modelling and simulation of the electrical operation of a photovoltaic (PV) system adapted by an MPPT control, the latter is applied to the robust observer for the control of the speed without sensor of a double fed induction motor (DFIM).Our machine is powered by the PV system, where the chosen control is the direct field oriented control with sliding mode speed regulator is used for the control of this machine which is powered by two pulse-width modulation (PWM) voltage inverters, finally the speed estimation of induction motor with observer based dual feed in sliding mode is presented. The simulation results show the efficiency of the proposed method.</span>

show abstract

“…In this paper, the single diode PV cell model shown in Figure 1 is used thanks to a simple approach. The mathematical modelling of the PV cell can be done using Equation (1) expressed as [19]: where I pv is the output current of the cell, I P is the photo generated current, V pv is the voltage of the cell, R s is the series resistance, R sh is the shunt resistance and A is the ideality factor. In general, PV cells are connected in series to form a PV module.…”

Section: Modelling Of the Photovoltaic Cell The Module And The Arraymentioning

confidence: 99%

Experimental Analysis to Extract the Maximum Output of Serial and Parallel PV Module Configurations under Partial Shadow Conditions: A Case Study for Bambey, Senegal

TOURE¹,

Sow²,

Dia³

et al. 2022

EPE

View full text Add to dashboard Cite

Using an experimental setup, the series configurations (SC) and the parallel configurations (PC) of the PV cell connection are studied to compare their performance under the condition of partial shading s. The performance of the configurations is evaluated by comparing the open-circuit voltage, the short-circuit current, the maximum power point (MPP), the voltage and current corresponding to MPP, and the Fill Factor (FF). The variations of the series resistance and the shunt resistance of a PV module under different irradiance levels are also determined by considering the effect of thermal voltage. Finally, a comparison between the performance losses in the different configurations is presented. The results of this study show that the parallel configuration has the best performance under the conditions of partial shade in the context of this work.

show abstract

A detailed mathematical model and experimental validation for coupled thermal and electrical performance of a photovoltaic (PV) module

Cited by 23 publications

References 40 publications

Solar photovoltaic/thermal air collector with mirrors for optimal tilts

Solar photovoltaic/thermal air collector with mirrors for optimal tilts

A new approach of robust speed-sensorless control of doubly fed induction motor fed by photovoltaic solar panel

Experimental Analysis to Extract the Maximum Output of Serial and Parallel PV Module Configurations under Partial Shadow Conditions: A Case Study for Bambey, Senegal

Contact Info

Product

Resources

About