Smart energy monitoring and power quality performance based evaluation of 100-kW grid tied PV system
Artikel i vetenskaplig tidskrift, 2023

Globally, the demand for energy from renewable sources is growing due to the increasing electricity consumption and the pollution of fossil fuels. The government has framed various policies to facilitate green energy generation, encouraging renewable energy source usage through PV installations in multiple sectors, including educational institutions. The primary objective of this paper is to propose a methodological approach for analysing the performance of the installed PV system on the rooftop of a university building in Tamil Nadu, India. The site selected is favourable for electricity generation from PV systems with an average global solar radiation of 5.82 kWh/m2day. Solar energy changes periodically with annual and daily variations and is not steady due to seasonal changes. The step-by-step performance assessment and the annual performance of the 100-kW solar PV system, which was instituted in 2019, with the forecasted parameters, are presented in this paper. Therefore, the assessment analysis is carried out in four phases: feasibility assessment, Energy yield assessment, Life cycle assessment, and Power quality assessment. To improve the solar PV output and efficiency, considering the solar irradiation, temperature, wind velocity, etc., PV yield is measured to evaluate the PV system's energy metrics. This paper also considers the carbon credits earned, solar power generated in the location, and the payback period. The power quality assessment is carried out in this paper to test the PV plant's compliance with effective grid integration.

Power quality

Energy yield

PV

Solar

100-kW

Författare

Lavanya A

SRM Institute of Science and Technology

Divya Navamani J

SRM Institute of Science and Technology

Geetha A

SRM Institute of Science and Technology

Viswanathan Ganesh

Student vid Chalmers

M. Jagabar Sathik

Prince Sultan University

Vijayakumar K

SRM Institute of Science and Technology

Ravichandran D

SRM Institute of Science and Technology

Heliyon

24058440 (eISSN)

Vol. 9 6 e17274

Ämneskategorier

Energiteknik

Energisystem

DOI

10.1016/j.heliyon.2023.e17274

PubMed

37360095

Mer information

Senast uppdaterat

2023-07-06