Grid-Tie Wind & Solar Hybrid System Research Topics

Grid-Connected Wind-Solar PV System Research Topics is based on the electricity that is generated from wind as well as the solar energy with the Photovoltaics. It is a renewable form of energy which coordinates wind turbines and solar panels to conduct electricity. Here we give the details or information’s that are related to this proposed technology.

1. Define Grid-Connected Wind-Solar Assisted PV Systems

Initially we begin with the definition for our proposed grid-connected Wind-Solar PV systems. It is a framework that combines both solar and wind power production technologies into the electrical grid, employing wind turbines and photovoltaic panels to produce electricity which is fed directly into the grid.

2. What is Grid-Connected Wind-Solar Assisted PV Systems?

There after the definition we see the detailed description for this proposed wind-solar assisted PV technique. This system is linked to the local electricity grid and provides any additional electricity back into the grid. This is a renewable energy system that utilizes wind turbines and solar panels to produce electricity that can businesses and power homes.

3. Where Grid-Connected Wind-Solar Assisted PV Systems used?

Afterwards the detailed description we discuss where to utilize this proposed technique. It is utilized in suburban and urban regions to add additional power use. They are frequently installed on the rooftops, and the energy generated will be retailed back to the utility in a net metering agreement.

4. Why Grid-Connected Wind-Solar Assisted PV Systems technology proposed? , previous technology issues

Here we proposed the grid-connected wind-solar assisted PV technique. Eventhough more researchers have done power management systems for grid-connected wind-solar assisted PV there is now many unanswered limitations exist. Some of the major problems are Constraints in Residential Applications, Fluctuating Power surplus, Reliability in Blackout Conditions, Difficulty in battery storage, Controller’s issue and Grid Resynchronization challenges.

5. Algorithms / protocols

In this research we propose a novel wind-solar assisted PV technology that is utilized to address some previous technology issues to overcome that. The methods that we utilized to overcome are Maximum Power Point Tracking, Mutual Help-Type Resilience and Jellyfish Optimization Techniques.

6. Comparative study / Analysis

For our proposed technology we compare several methods or techniques with the previous technologies and to obtain the best method for this research. Some of the methods that we utilized are:

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

7. Simulation results / Parameters

Our proposed research’s performance metrics or parameters can be compared with some existing technology to obtain the best outcome 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 year with planning cost.

8. Dataset LINKS / Important URL

The Grid-Connected wind-solar assisted PV is proposed in this research to overcome some existing technology issues. In this we provide some important links that are useful to us when we have to overview the concept of this proposed research.

• https://www.sciencedirect.com/science/article/pii/S2090447921004573
• https://www.sciencedirect.com/science/article/abs/pii/S0960148123013289
• https://www.sciencedirect.com/science/article/abs/pii/S2213138822009079

9. Grid-Connected Wind-Solar Assisted PV Systems Applications

This proposed wind-solar assisted PV system is utilized in different applications like industrial, residential and commercial settings to produce renewable energy and will decrease dependence on traditional power sources. They are also utilized in remote regions and microgrids to offer sustainable electricity supply.

10. Topology for Grid-Connected Wind-Solar Assisted PV Systems

Let’s see the topology to be utilized for this proposed technique. It generally contains the combination of inverters, power conditioning units, wind turbines and solar panels. These elements are linked to the grid as well as the renewable energy, making sure effective power generation and distribution while preserving grid stability.

11. Environment for Grid-Connected Wind-Solar Assisted PV Systems

In a wind-solar assisted PV system, the environment plays an important part in describing energy manufacturing. Some of the factors like solar irradiance, site conditions, wind speed and temperature impact the system’s performance and whole energy outcome. Effective use of these environmental resources makes sure optimal electricity production and sustainability.

12. Simulation tools

The Wind-Solar assisted PV system is proposed in this work and it overcome some existing technology issues by utilizing the succeeding simulation tools. This technology is developed by using the developmental tool like MATLAB R2023b. And then it is implemented by using the operating system Windows 10.

13. Results

We proposed a Grid-Connected Wind-Solar PV system technology in this work and it overcomes several previous technology issues. The proposed technique metrics are compared with the various existing technologies and it verifies that our proposed techniques give the best findings. The proposed technique is implemented by using the operating system Windows 10.

Grid-Tie Wind & Solar Hybrid System Research Ideas :

Succeeding are the research topics that are relevant to our proposed Wind-solar assisted PV technique. These topics give assistance when we have to overview the concepts or any other additional details about it.

1. Enhancing Harmonic Reduction of Grid Connected Wind-Solar PV Charging Station using Neural Network Controller
2. Solar PV-Wind Turbine Integration in Hydrogen Production to Generate Electricity through Fuel Cell
3. Economic Feasibility Study on Solar PV-Wind Hybrid Power System in Telkom University
4. Mitigating Uncertainty Problems of Renewable Energy Resources Through Efficient Integration of Hybrid Solar PV/Wind Systems Into Power Networks
5. Optimal allocation of solar PV and wind energy power for radial distribution system using spider monkey optimization
6. Investigating the impact of solar PV and wind energy systems on the strength of a longitudinal power grid
7. Breakthrough inventions in solar PV and wind technologies: The role of scientific discoveries
8. SOWISP—A retrospective high spatial and temporal resolution database of the installed wind and solar PV power in Spain
9. Off-grid solar PV–wind power–battery–water electrolyzer plant: Simultaneous optimization of component capacities and system control
10. Performance analysis of three-phase solar PV, BESS, and Wind integrated UPQC for power quality improvement
11. Identification of surface defects on solar PV panels and wind turbine blades using attention based deep learning model
12. Environmental studies of green hydrogen production by electrolytic process: A comparison of the use of electricity from solar PV, wind energy, and hydroelectric plants
13. Hybrid solar PV-wind-battery system bidding optimisation: A case study for the Iberian and Italian liberalised electricity markets
14. Influence of public policies on the diffusion of wind and solar PV sources in Brazil and the possible effects of COVID-19
15. Two-level planning approach to analyze techno-economic feasibility of hybrid offshore wind-solar pv power plants
16. Assessment of wind and solar PV local complementarity for the hybridization of the wind power plants installed in Portugal
17. A study of a solar PV and wind-based residential DC NanoGrid with dual energy storage system under islanded/ interconnected/grid-tied modes
18. Electrification and performance analysis of hybrid PV solar/wind energy system for remote and hilly area of Uttarakhand (India)
19. How much solar PV, wind and biomass energy could be implemented in short-term? A multi-criteria GIS-based approach applied to the province of Jaén, Spain
20. SOLETE, a 15-month long holistic dataset including: Meteorology, co-located wind and solar PV power from Denmark with various resolutions
21. Hybridized off-grid fuel cell/wind/solar PV /battery for energy generation in a small household: A multi-criteria perspective
22. Levelized cost of hydrogen for refueling stations with solar PV and wind in Sweden: On-grid or off-grid?
23. A novel grid-connected solar PV-thermal/wind integrated system for simultaneous electricity and heat generation in single family buildings
24. Surrogate optimization of coupled energy sources in a desalination microgrid based on solar PV and wind energy
25. An enhanced turbulent flow of water-based optimization for optimal power flow of power system integrated wind turbine and solar photovoltaic generators
26. A hybrid metaheuristic assisted collateral fractional-order controller for three-phase solar PV, BESS, and wind- integrated UPQC
27. An all-Africa dataset of energy model “supply regions” for solar photovoltaic and wind power
28. Potential of using floating solar photovoltaic and wind farms for sustainable energy generation in an existing hydropower station in Nigeria
29. Comparative assessment of solar photovoltaic-wind hybrid energy systems: A case for Philippine off-grid islands
30. How do solar photovoltaic and wind power promote the joint poverty alleviation and clean energy development: An evolutionary game theoretic study
31. Capacity-operation collaborative optimization of the system integrated with wind power/photovoltaic/concentrating solar power with S-CO2 Brayton cycle
32. Comparative analyses of solar photovoltaic, wind turbine, and solar photovoltaic and wind turbine hybrid systems: Case study of Thailand
33. Performance Investigation of Multifunctional Hybrid Wind-Solar PV-BES-DEGS Based Microgrid System with EAF and SOGI Based Control
34. Potentials and opportunities of solar PV and wind energy sources in Saudi Arabia: Land suitability, techno-socio-economic feasibility, and future variability
35. Waiting to generate: An analysis of onshore wind and solar PV project development lead-times in Australia
36. Assessment and determination of 2030 onshore wind and solar PV energy targets of Türkiye considering several investment and cost scenarios
37. Recent developments and future research recommendations of control strategies for wind and solar PV energy systems
38. Fuzzy-based prediction of solar PV and wind power generation for microgrid modeling using particle swarm optimization
39. The capacity planning method for a hydro-wind-PV-battery complementary system considering the characteristics of multi-energy integration into power grid
40. An energy-economic analysis of a hybrid PV/wind/battery energy-driven hydrogen generation system in rural regions of Egypt
41. Efficiency estimation and hardware implementation of solar PV module system assisted by using surface plasmon resonance sensor
42. Application of graphene and graphene derivatives in cooling of photovoltaic (PV) solar panels: A review
43. Novel approach for optimizing wind-PV hybrid system for RO desalination using differential evolution algorithm
44. Enabling the circular economy of solar PV through the 10Rs of sustainability: Critical review, conceptualization, barriers, and role in achieving SDGs
45. Control and optimization of a hybrid solar PV – Hydro power system for off-grid applications using particle swarm optimization (PSO) and differential evolution (DE)
46. Reliability and dispatchability improvement of a hybrid system consisting of PV, wind, and bio-energy connected to pumped hydropower energy storage
47. Capacity optimization and performance analysis of wind power-photovoltaic-concentrating solar power generation system integrating different S-CO2 Brayton cycle layouts
48. 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
49. 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
50. 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