At Takeoff Projects we are equipped with a dedicated department for renewable energy projects where solar power generation projects occupy the major share. Being the most common renewable energy source, the interest and demand for solar energy power generation projects have been high in these pa few years and this allowed us to design, implement and execute a wide variety of solar power generation projects for engineering students. From projects equipment, design and workflows, to project materials we own an extensive collection of infrastructure and tools that helps our engineering professionals to design and execute and deliver your solar power generation project within the given time.
Students can come up with their own solar power generation projects idea or they can check out and pick a project from our extensive library either way we provide comprehensive help and deliver successful projects within your time frame.
Project Code: TEPGPS830
Project Title:Grid-Forming Voltage-Source Inverter for Hybrid Wind-Solar Systems Interfacing Weak GridsWind Power Generation| AC-DC Converters
View DetailsProject Code: TEPGPS825
Project Title:Experimental Investigations on Photovoltaic Interface Neutral Point Clamped Multilevel Inverter-Based Shunt Active Power Filter to Enhance Grid Power QualityView DetailsProject Code: TEPGPS820
Project Title:Dual Fuzzy-Sugeno Method to Enhance Power Quality Performance using a Single-phase Dual UPQC-Dual PV Without DC-Link CapacitorView DetailsProject Code: TEPGPS818
Project Title:Integrated Three-Port Converter for Solar-Charged Electric Vehicle ApplicationsView DetailsProject Code: TEPGPS817
Project Title:Cascaded Interleaved DC–DC Converter for a Bidirectional Electric Vehicle Charging StationDC - DC Converters| Electrical Vehicles
View DetailsProject Code: TEPGPS816
Project Title:Multifunctional Onboard Charger for Electric Vehicles Integrating a Low-Voltage DC–DC Converter and Solar RoofDC - DC Converters| AC-DC Converters| Electrical Vehicles
View DetailsProject Code: TEPGPS814
Project Title:Advance Controller for Power Quality and Performance Improvement of Grid-Connected Single-Phase Rooftop PVSView DetailsProject Code: TEPGPS810
Project Title:Modelling and Coordinated Control of Grid Connected Photovoltaic, Wind Turbine Driven PMSG, and Energy Storage Device for a Hybrid DC-AC MicrogridHybrid Systems| Wind Power Generation| AC Drives
View DetailsProject Code: TEPGPS807
Project Title:Designing of a PSO-Based Adaptive SMC With a Multilevel Inverter for MPPT of PV Systems Under Rapidly Changing Weather ConditionsView DetailsProject Code: TEPGPS801
Project Title:Efficient Bidirectional Wireless Power Transfer System Control Using Dual Phase Shift PWM Technique for Electric Vehicle ApplicationsView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEPGPS830 | Grid-Forming Voltage-Source Inverter for Hybrid Wind-Solar Systems Int... | |
2 | TEPGPS825 | Experimental Investigations on Photovoltaic Interface Neutral Point Cl... | |
3 | TEPGPS820 | Dual Fuzzy-Sugeno Method to Enhance Power Quality Performance using a... | |
4 | TEPGPS818 | Integrated Three-Port Converter for Solar-Charged Electric Vehicle App... | |
5 | TEPGPS817 | Cascaded Interleaved DC–DC Converter for a Bidirectional Electric Vehi... | |
6 | TEPGPS816 | Multifunctional Onboard Charger for Electric Vehicles Integrating a Lo... | |
7 | TEPGPS814 | Advance Controller for Power Quality and Performance Improvement of Gr... | |
8 | TEPGPS810 | Modelling and Coordinated Control of Grid Connected Photovoltaic, Win... | |
9 | TEPGPS807 | Designing of a PSO-Based Adaptive SMC With a Multilevel Inverter for M... | |
10 | TEPGPS801 | Efficient Bidirectional Wireless Power Transfer System Control Using D... |
Project Code: TEPGPS830
Project Title:Grid-Forming Voltage-Source Inverter for Hybrid Wind-Solar Systems Interfacing Weak GridsWind Power Generation| AC-DC Converters
View DetailsProject Code: TEPGPS825
Project Title:Experimental Investigations on Photovoltaic Interface Neutral Point Clamped Multilevel Inverter-Based Shunt Active Power Filter to Enhance Grid Power QualityView DetailsProject Code: TEPGPS820
Project Title:Dual Fuzzy-Sugeno Method to Enhance Power Quality Performance using a Single-phase Dual UPQC-Dual PV Without DC-Link CapacitorView DetailsProject Code: TEPGPS818
Project Title:Integrated Three-Port Converter for Solar-Charged Electric Vehicle ApplicationsView DetailsProject Code: TEPGPS817
Project Title:Cascaded Interleaved DC–DC Converter for a Bidirectional Electric Vehicle Charging StationDC - DC Converters| Electrical Vehicles
View DetailsProject Code: TEPGPS816
Project Title:Multifunctional Onboard Charger for Electric Vehicles Integrating a Low-Voltage DC–DC Converter and Solar RoofDC - DC Converters| AC-DC Converters| Electrical Vehicles
View DetailsProject Code: TEPGPS814
Project Title:Advance Controller for Power Quality and Performance Improvement of Grid-Connected Single-Phase Rooftop PVSView DetailsProject Code: TEPGPS810
Project Title:Modelling and Coordinated Control of Grid Connected Photovoltaic, Wind Turbine Driven PMSG, and Energy Storage Device for a Hybrid DC-AC MicrogridHybrid Systems| Wind Power Generation| AC Drives
View DetailsProject Code: TEPGPS807
Project Title:Designing of a PSO-Based Adaptive SMC With a Multilevel Inverter for MPPT of PV Systems Under Rapidly Changing Weather ConditionsView DetailsProject Code: TEPGPS801
Project Title:Efficient Bidirectional Wireless Power Transfer System Control Using Dual Phase Shift PWM Technique for Electric Vehicle ApplicationsView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEPGPS830 | Grid-Forming Voltage-Source Inverter for Hybrid Wind-Solar Systems Int... | |
2 | TEPGPS825 | Experimental Investigations on Photovoltaic Interface Neutral Point Cl... | |
3 | TEPGPS820 | Dual Fuzzy-Sugeno Method to Enhance Power Quality Performance using a... | |
4 | TEPGPS818 | Integrated Three-Port Converter for Solar-Charged Electric Vehicle App... | |
5 | TEPGPS817 | Cascaded Interleaved DC–DC Converter for a Bidirectional Electric Vehi... | |
6 | TEPGPS816 | Multifunctional Onboard Charger for Electric Vehicles Integrating a Lo... | |
7 | TEPGPS814 | Advance Controller for Power Quality and Performance Improvement of Gr... | |
8 | TEPGPS810 | Modelling and Coordinated Control of Grid Connected Photovoltaic, Win... | |
9 | TEPGPS807 | Designing of a PSO-Based Adaptive SMC With a Multilevel Inverter for M... | |
10 | TEPGPS801 | Efficient Bidirectional Wireless Power Transfer System Control Using D... |
Project Code: TEPGPS830
Project Title:Grid-Forming Voltage-Source Inverter for Hybrid Wind-Solar Systems Interfacing Weak GridsWind Power Generation| AC-DC Converters
View DetailsProject Code: TEPGPS825
Project Title:Experimental Investigations on Photovoltaic Interface Neutral Point Clamped Multilevel Inverter-Based Shunt Active Power Filter to Enhance Grid Power QualityView DetailsProject Code: TEPGPS820
Project Title:Dual Fuzzy-Sugeno Method to Enhance Power Quality Performance using a Single-phase Dual UPQC-Dual PV Without DC-Link CapacitorView DetailsProject Code: TEPGPS818
Project Title:Integrated Three-Port Converter for Solar-Charged Electric Vehicle ApplicationsView DetailsProject Code: TEPGPS817
Project Title:Cascaded Interleaved DC–DC Converter for a Bidirectional Electric Vehicle Charging StationDC - DC Converters| Electrical Vehicles
View DetailsProject Code: TEPGPS816
Project Title:Multifunctional Onboard Charger for Electric Vehicles Integrating a Low-Voltage DC–DC Converter and Solar RoofDC - DC Converters| AC-DC Converters| Electrical Vehicles
View DetailsProject Code: TEPGPS814
Project Title:Advance Controller for Power Quality and Performance Improvement of Grid-Connected Single-Phase Rooftop PVSView DetailsProject Code: TEPGPS810
Project Title:Modelling and Coordinated Control of Grid Connected Photovoltaic, Wind Turbine Driven PMSG, and Energy Storage Device for a Hybrid DC-AC MicrogridHybrid Systems| Wind Power Generation| AC Drives
View DetailsProject Code: TEPGPS807
Project Title:Designing of a PSO-Based Adaptive SMC With a Multilevel Inverter for MPPT of PV Systems Under Rapidly Changing Weather ConditionsView DetailsProject Code: TEPGPS801
Project Title:Efficient Bidirectional Wireless Power Transfer System Control Using Dual Phase Shift PWM Technique for Electric Vehicle ApplicationsView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TEPGPS830 | Grid-Forming Voltage-Source Inverter for Hybrid Wind-Solar Systems Int... | |
2 | TEPGPS825 | Experimental Investigations on Photovoltaic Interface Neutral Point Cl... | |
3 | TEPGPS820 | Dual Fuzzy-Sugeno Method to Enhance Power Quality Performance using a... | |
4 | TEPGPS818 | Integrated Three-Port Converter for Solar-Charged Electric Vehicle App... | |
5 | TEPGPS817 | Cascaded Interleaved DC–DC Converter for a Bidirectional Electric Vehi... | |
6 | TEPGPS816 | Multifunctional Onboard Charger for Electric Vehicles Integrating a Lo... | |
7 | TEPGPS814 | Advance Controller for Power Quality and Performance Improvement of Gr... | |
8 | TEPGPS810 | Modelling and Coordinated Control of Grid Connected Photovoltaic, Win... | |
9 | TEPGPS807 | Designing of a PSO-Based Adaptive SMC With a Multilevel Inverter for M... | |
10 | TEPGPS801 | Efficient Bidirectional Wireless Power Transfer System Control Using D... |
The future is bright for solar and even brighter for engineering professionals who pick the solar energy sector. If you are an engineering student choosing a solar power generation project can build a solid foundation and gives you an excellent opportunity to expand your employability chances in the future.
The ubiquitous importance of electricity in our day to day life makes solar energy the most exciting replacement. Every electrical appliance can now be made solar powered and this gives an extraordinary scope for engineering students to come up with new applications in our day to day life. Solar-powered domestic lighting systems, wireless power charging stations, solar power based battery projects, solar inverter projects, solar-powered drones, and robots – every solar project leverages solar power generation.
So choosing solar power generation projects where solar energy is captured and stored for power generation forms the basic building block of every solar project. However, solar power generation projects are mired with umpteen challenges that may thwart project completion. If you are an engineering student with an interest to work on projects you will need help from our experts at Takeoff Projects.