International Journal of Scientific & Technical Development - Volumes & Issues - Volume 10: June 2024, Issue 1

Modelling And Simulation Of Hybrid Wind/pv Standlone Generation System

  • Published: June 2024
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Authors

Kiranjit Kaur, Dr. Gurinder Kaur Sodhi

DOI Number

Keywords

Greenhouse gas (GHG),Renewable Energy

Abstract

This work proposes a Wind/PV Standlone Generation Systemthat solves the major problems of fuel and pollution. Renewable energy is
vital for today’s world as in the near future the nonrenewable sources that we are using are going to get exhausted. Power generated by
renewable energy sources has recently become one of the most promising solutions for the electrification of islands and remote rural
areas. However high dependency on weather conditions and the unpredictable nature of these renewable energy sources are the main
drawbacks. To overcome this weakness, different green energy sources and power electronic converters need to be integrated with
each other. The charged batteries are used to drive the motor which serves here as an engine and moves the vehicle in reverse or
forward direction. This idea, in the future, may help to protect our fuels from geƫng extinguished.The results of the seasonal analysis
showed how well the solar PV system generated electricity. Based on the system’s performance study, the findings showed that the
600Wp solar system could, with the help of BESS, deliver intermiƩent power to the demand for electricity throughout the year.

References

  1. Abdul Rauf Bhatti, Zainal Salam,Beenish Sultana,

Nadia Rasheed, Ahmed Bilal Awan,Umbrin Sultana,

Muhammad Younas. (2019). Optimized sizing of

photovoltaic grid ‐connected electric vehicle

charging system using particle swarm optimization.

International Journal of Energy Research,

43(1),500-522.

  1. Abhishek Tiwar y, Stanislava Spasova, Ian

D.Williams. (2019). A community-scale hybrid

energysystemintegratingbiomassforlocalisedsolidw

asteandrenewableenergysolution: Evaluations in

UK and Bulgaria. Renewable Energy, 139,960-967.

  1. Ad e s any a , Ad ewa l e Ar emu and S che l l y,

Chelsea.(2019). SolarPV-diesel hybrid systems

forthe Nigerian private sector: An impact

assessment. Energy Policy, 132,196-207.

  1. Agustinus Ribaland Ian R.Young. (2019).33 years of

globallycalibratedwaveheightandwind speed data

based on altimeter observations. Scientiĕc Data, 6,

  2. Ahammed, F. and Tauĕq, D. A. (2008). Applications

of solar PV on rural development in Bangladesh.

Journal of Rural and Community Development,

3(1), 93-103.

  1. Ahmed Shata Ahmed. (2011). Investigation of wind

characteristics and wind energy potentialat Ras

Ghareb, Egypt. Renewable and Sustainable Energy

Reviews, 15,2750-2755.

  1. Ahmed Shata Ahmed. (2012). Potential wind power

generation in South Egypt. Renewable and

Sustainable Energy Reviews, 16, 1528-15.

  1. Akintayo Temiloluwa Abolude and WenZhou.

(2018).AssessmentandPerformanceEvaluation of a

Wind Turbine Power Output. Energies, 11,1992.

  1. Alan, L and McGregor, J. (2008). Seasonal variation

of the prevailing wind direction in Britain.Weather,

63(12), 365-368

  1. Al-Ashwal, A. M, Moghram, I. S. (1997). Proportion

assessment of combined PV/ wind generating

systems. Renewable Energy, 10(1), 43-51.

  1. Alex Zahnd, Angel Clark, Wendy Cheung, Linda

Zou, Jan Kleissl, 2014. Minimizing the Lead- Acid

Battery Bank Capacity througha SolarPV-Wind

Turbine Hybrid System for a high- altitude village in

the Nepal Himalayas. Energy Procedia, 57, pp.1516-

  2. Al-Yahyai Sultan, Yassine Charabi, Adel Gastli,

Saleh Al-Alawi. (2010). Assessment of wind energy

potential locations in Oman using data from

existing weather stations.

How to cite

Journal

International Journal of Scientific & Technical Development

ISSN

2348-4047

Periodicity

Bi-Annual

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