Wind Solar & Photovoltaic Renewable Energy System Research Topics

Wind-Solar assisted PV System Research Topics is based on the electricity that is produced from both wind and solar energy. It is a renewable form of energy that coordinates wind turbines and solar panels to conduct electricity. Here we give the details that are related to this proposed technology.

  1. Define Grid Connected Wind-Solar assisted PV System

Initially we begin with the definition for this proposed grid-connected wind-solar assisted PV system. It is a renewable energy setup which integrates both solar panels and wind turbines to produce electricity. It is linked to the utility grid, permitting more energy generated to be get back into the grid and offer electricity from the grid when renewable resources are not sufficient.

  1. What is Grid Connected Wind-Solar assisted PV System?

Afterwards we look for the brief explanation for this proposed technique.  Wind-solar assisted PV systems produce electricity from wind and solar energy, enabling more power to get back into the grid and drawing when it is required. It is a renewable energy which joins solar panels, wind turbines and a link to the electrical grid.

  1. Where Grid Connected Wind-Solar assisted PV System used?

Next we understand where to utilize this proposed technique. Our proposed system is employed in different positions like commercial, industrial and residential sites where there is an access to both solar and wind resources. They are generally suitable for the regions with unstable energy demands and where the grid connection is accessible for effective energy distribution and management.

  1. Why Grid Connected Wind-Solar assisted PV System technology proposed? , previous technology issues

This Grid connected wind-solar PV system technology is proposed to tackle the issues like low and intermittency energy output over the periods of sunlight or low wind. By integrating solar and wind power, this system offers more consistent energy production, effectiveness in renewable energy generation and enhancing reliability.

  1. Algorithms / protocols

For this proposed research we utilized some of the methods to overcome the existing technology issues. The methods that we employed are Maximum Power Point Tracking, Jellyfish Optimization techniques and mutual help-type resilience.

  1. Comparative study / Analysis

Our proposed technology compares several methods and technology with the previous technologies and to obtain the best method for this research.

  • Employing the sensitivity based optimization theory to decrease the grid power variations in wind-solar assisted PV systems.
  • We propose the distributed network planning model that takes into account the flexibility of distributed energy resources to optimize the resource sizing and placement.
  • For mutual support resilience against blackouts in systems with multiple DERs, we present the coordinated energy management system.
  • To decrease the Voltage instability, frequency fluctuations and power outages, our research develops an auto encoder jellyfish optimization method.
  • The Maximum Power Point (MPPT) method is executed to the solar and wind PV system characteristics.
  • We present the novel MPPT method on the basis of Wind Driven Optimization (WDO) to enhance the wind and solar system achievement in some situations.
  1. Simulation results / Parameters

We proposed this wind-solar assisted PV system that is compared with some previous technology parameters or performance metrics to achieve the best findings for this research. The metrics that we compared are Voltage (v), torque (NM) and frequency (Hz) with Time (s) and the grid power / MW2 with Time/hr and the planning cost with planning year.

  1. Dataset LINKS / Important URL

Here the proposed research considers the following links to go through the concepts of Wind-solar PV. Below we provide the links for this proposed wind-solar assisted PV related concept.

  1. Grid Connected Wind-Solar assisted PV System Applications

Some of the applications for this proposed technique are commercial, agriculture, residential, microgrid and industrial.

  1. Topology for Grid Connected Wind-Solar assisted PV System

The topology utilized for this proposed technique generally contains the combination of solar panels, grid connections, wind turbines and inverters. The power produced from the wind and solar sources is changed to AC electricity by inverters and coincides with the grid for export or consumption.

  1. Environment for Grid Connected Wind-Solar assisted PV System

Now we see the environment for this proposed system, which plays an important role in defining energy generation. Factors like solar irradiance, site location, wind speed and temperature that affect the systems effectiveness and output. Optimization techniques take out the environmental situations to decrease energy production and system achievement.

  1. Simulation tools

The wind-solar assisted PV system requires the following software requirements to be implemented for this research. The developmental tool that was used for this research is Matlab-R2020a/simulink and above. Then the technique is operated by the operating system Windows-10 (64-bit).

  1. Results

The grid connected wind-solar assisted PV is utilized in this research to produce electricity from both wind and solar energy.  We proposed this to our research by overcoming the existing technology issues and to compare various metrics to obtain the best outcome. This research is operated by using the operating system Windows-10 (64-bit).

Wind Solar & Photovoltaic Renewable Energy System Research Ideas :

Below we provided are the research topics that are relevant to our proposed technique. These topics give assistance when we have to overview the concepts or any other additional details about it

  1. Performance Investigation of Multifunctional Hybrid Wind-Solar PV-BES-DEGS Based Microgrid System with EAF and SOGI Based Control
  2. Mitigating Impact of High Power Ramp Rates in Utility Grid Integrated Wind–Solar System Using an RLMAT Adaptive Control Strategy
  3. Dual Mode Operation of Wind-Solar with Energy Storage Based Microgrid Integrated to Utility Grid
  4. Potentials and opportunities of solar PV and wind energy sources in Saudi Arabia: Land suitability, techno-socio-economic feasibility, and future variability
  5. A hybrid PV/wind/battery energy system to assist a run-of-river micro-hydropower for clean electrification and fuelling hydrogen mobility for young population in a rural Moroccan site
  6. Experiment study on startup characteristics and operation performance of PV/T solar assisted heat pump water heater system driven by direct current variable frequency compressor
  7. Waiting to generate: An analysis of onshore wind and solar PV project development lead-times in Australia
  8. Design and performance simulation of a distributed aerobic composting system assisted by solar PV/T heat pump
  9. Assessment and determination of 2030 onshore wind and solar PV energy targets of Türkiye considering several investment and cost scenarios
  10. Study on performance of direct-expansion heat pump water heater integrating uninsulated micro-channel PV/T solar collector
  11. Recent developments and future research recommendations of control strategies for wind and solar PV energy systems
  12. Fuzzy-based prediction of solar PV and wind power generation for microgrid modeling using particle swarm optimization
  13. Evaluating energy, economic, and environmental aspects of solar-wind-biomass systems to identify optimal locations in Iraq: A GIS-based case study
  14. Dynamic numerical modeling and performance optimization of solar and wind assisted combined heat and power system coupled with battery storage and sophisticated control framework
  15. The capacity planning method for a hydro-wind-PV-battery complementary system considering the characteristics of multi-energy integration into power grid
  16. An energy-economic analysis of a hybrid PV/wind/battery energy-driven hydrogen generation system in rural regions of Egypt
  17. A review of water electrolysis for green hydrogen generation considering PV/wind/hybrid/hydropower/geothermal/tidal and wave/biogas energy systems, economic analysis, and its application
  18. Personalized PV system recommendation for enhanced solar energy harvesting using deep learning and collaborative filtering
  19. A solar assisted grid-tied polygeneration system for hydrogen and electricity production: Future of energy transition from electrons to molecules
  20. Efficiency estimation and hardware implementation of solar PV module system assisted by using surface plasmon resonance sensor
  21. Optimizing energy solutions: A techno-economic analysis of solar-wind hybrid power generation in the coastal regions of Bangladesh
  22. Biohydrogen production from solar and wind assisted AF-MEC coupled with MFC, PEM electrolysis of H2O and H2 fuel cell for small-scale applications
  23. Reliability and dispatchability improvement of a hybrid system consisting of PV, wind, and bio-energy connected to pumped hydropower energy storage
  24. Novel approach for optimizing wind-PV hybrid system for RO desalination using differential evolution algorithm
  25. Formulation of billing policy for residential scale solar PV systems and its impact in the Kingdom of Saudi Arabia
  26. Sustainable urban energy solutions: Forecasting energy production for hybrid solar-wind systems
  27. Solar and wind assisted biohydrogen production from integrated anaerobic digestion and microbial electrolysis cell coupled with catalytic reforming
  28. An adaptive power management approach for hybrid PV-wind desalination plant using recurrent neural networks
  29. Simultaneous sizing and scheduling optimization for PV-wind-battery hybrid systems with a modified battery lifetime model: A high-resolution analysis in China
  30. An efficient MPPT techniques for inter-harmonic reduction in grid connected hybrid wind and solar energy systems
  31. A Quasi oppositional smell agent optimization and its levy flight variant: A PV/Wind/battery system optimization application
  32. Capacity optimization and performance analysis of wind power-photovoltaic-concentrating solar power generation system integrating different S-CO2 Brayton cycle layouts
  33. Detection and analysis of deteriorated areas in solar PV modules using unsupervised sensing algorithms and 3D augmented reality
  34. Techno-economic feasibility of hybrid PV/wind/battery/thermal storage trigeneration system: Toward 100% energy independency and green hydrogen production
  35. Hydrogen production using renewable energy: solar PV and offshore wind power – An economic evaluation in Bahia.
  36. Thermophotovoltaics (TPVs), solar and wind assisted hydrogen production and utilisation in iron and steel industry for low carbon productions
  37. Economic evaluation and annual performance analysis of a novel series-coupled PV/T and solar TC with solar direct expansion heat pump system: An experimental and numerical study
  38. Conceptual design and preliminary experimental study on curved PV ventilated facade assisted heat pump system (CPVF-HP)
  39. Design and assessment of energy management strategy on rail coaches using solar PV and battery storage to reduce diesel fuel consumption
  40. Techno-economic assessment of small-size residential solar PV + battery systems under different tariff structures in Brazil
  41. Assessing the impact of PV panel climate-based degradation rates on inverter reliability in grid-connected solar energy systems
  42. Optimum sizing of stand-alone microgrids: Wind turbine, solar photovoltaic, and energy storage system
  43. IoT-enabled EMS for grid-connected solar PV-fed DC residential buildings with hybrid HBA-DCGNN approach
  44. Data analytics for prediction of solar PV power generation and system performance: A real case of Bui Solar Generating Station, Ghana
  45. Application of graphene and graphene derivatives in cooling of photovoltaic (PV) solar panels: A review
  46. Evaluation of LCOH of conventional technology, energy storage coupled solar PV electrolysis, and HTGR in China
  47. Geospatial-assisted multi-criterion analysis of solar and wind power geographical-technical-economic potential assessment
  48. Control and optimization of a hybrid solar PV – Hydro power system for off-grid applications using particle swarm optimization (PSO) and differential evolution (DE)
  49. Enabling the circular economy of solar PV through the 10Rs of sustainability: Critical review, conceptualization, barriers, and role in achieving SDGs
  50. Feasibility analysis of solar PV system in presence of EV charging with transactive energy management for a community-based residential system