In the current global scenario, it’s pretty much evident that the renewable energy domain will be gaining immense of research interest as we are continuously depleting the non-renewable resources like petroleum, fossil fuels, coals, etc. As a matter of fact, from its name “renewable energy”, it is pretty much obvious to realize that these energy resources are naturally occurring ones, which can’t be exhausted over time. Various known renewable energy resources include the following:
Solar energy
Bio-Energy
Geo-thermal energy
Hydro energy
Wind energy
Tidal energy
Furthermore, as we people want to live in sustainable and cleaner surroundings, the technologies used in any renewable energy resources-based conversion systems like solar power generator, wind power generator, etc. need to be improvised over time. As a result, we might require immense expertise and understanding to improvise the techs of these renewable energy-based systems. In this article discussing about the renewable energy-based projects, we have curated and given the project pursuing students with the top 5 renewable projects ideas, which also discusses a few takeaways and expertise needed to execute these kinds of projects. We have majorly taken into account the solar energy-based and wind energy-based power production systems while we curating the top 5 renewable projects ideas for you.
Curating the Top 5 Renewable Projects Ideas to learn and gain expertise:
The below discussed projects will be able to make the students get to know all the prerequisites well before starting the actual project.
1. An Integrated Topology of Three-Port DC-DC Converter for PV-Battery Power Systems
The requirements of using converting devices are keep on increasing as we are continually looking to convert any kind of renewable energy into electrical energy (for acquiring power to do things) or some other usable energy forms.
An innovative TPC- Three Port DC to DC Converting device could be developed by making use of PWM- Phase Width Modulation for the sake of preserving the rate of load voltage when subjected to several kinds of hinderances.
As far as the renewable energy resources-based projects are concerned, it often indulges sophisticated, time consuming, and expensive establishment since we are attempting to replace the non-renewable energy resources with alternatives. So, any students who are doing their projects in this domain will be able to master the following: Problem-solving capability, team working, creativity, innovation, managerial expertise, solar-based systems, wind-based systems, power conversion, chemical engineering, electrical-based systems, etc.
2. Battery Supported Solar Water Pumping System with Adaptive Feed-Forward Current Estimation
In every solar powered system, the quantity of output power produced might be directly influenced by the quantity of the sunlight rays captured and stored in it. So, the power output might decrease considerably during less sunny day or rainy day. Hence, an advanced methodology is indeed needed to redress this issue.
The research might deal with the said issue, where in we have integrated several enhanced methods onto the SYRM- Synchronous Reluctance Motor to operate water pump system working based on the power from battery. In this research, position sensory devices-less vector administering approach could be deployed with the used SYRM to acquire uniform rate of power irrespective.
As far as the renewable energy resources-based projects are concerned, it often indulges sophisticated, time consuming, and expensive establishment since we are attempting to replace the non-renewable energy resources with alternatives. So, any students who are doing their projects in this domain will be able to master the following: Problem-solving capability, Pump systems, battery set-up, team working, creativity, innovation, managerial expertise, solar-based systems, wind-based systems, power conversion, chemical engineering, electrical-based systems, etc.
Must Read: Power System based Projects
As we keep on adopting the renewable energy resources-based power production systems, we need to concentrate on the improvements of the most critical components like battery, converters, quality of power delivered, filter deployments, etc.
In a PV-BSS- Photo Voltaic and Battery Storage System set up, the need for the deployment of filters could be totally nullified. Furthermore, generation of necessary switching pulses in the system are met to preserve the efficiency of the utilized converter device.
As far as the renewable energy resources-based projects are concerned, it often indulges sophisticated, time consuming, and expensive establishment since we are attempting to replace the non-renewable energy resources with alternatives. So, any students who are doing their projects in this domain will be able to master the following: Problem-solving capability, team working, creativity, innovation, managerial expertise, solar-based systems, wind-based systems, Micro-grids, energy storages, power conversion, chemical engineering, electrical-based systems, etc.
We are continuously keep on constructing wind mills and other wind energy-based generation systems in order to draw the electrical energy as the output. However, the obtained rates of the power output might not beneficial due to several challenges like unbalanced voltages prevailing in the grid of any taken WECS- Wind Energy-based Converting System.
The administering capability of any typical WECS could be improved with the deployment of MGI- Mixed Generalized Integrator. As the administering capability of the WECS gets improved, it results in yielding of better quality of power and contribute to better synchronization of grid in a DFIG- doubly-fed induction generator-based system, which in turn aids us to make use of obtained power in a beneficially way as desired. This effectiveness might preferably be validated with the help of MATLAB tool.
As far as the renewable energy resources-based projects are concerned, it often indulges sophisticated, time consuming, and expensive establishment since we are attempting to replace the non-renewable energy resources with alternatives. So, any students who are doing their projects in this domain will be able to master the following: Problem-solving capability, team working, creativity, innovation, managerial expertise, solar-based systems, wind-based systems, grid systems, controlling strategies, types and behaviour of generator devices, power conversion, chemical engineering, electrical-based systems, etc.
5. Enhanced Control and Power Management For A Renewable Energy-Based Water Pumping System
In every wind powered electrical generation system, the quantity of output power produced might be directly influenced by the quantity of the wind received. So, the power output might decrease considerably during less non-windy day. Hence, an advanced methodology is indeed needed to redress this issue with adequate controlling and power enhancement. For instance, in a water pumping system, the power and controlling strategies need to be apt for the sake of delivering uninterrupted and necessary power as output.
A typical wind energy resource-based water pumping set-up consisting of WT- Wind Turbine, battery, water pump, and PMSG- Permanent Magnet Synchronous Generator could be properly controlled and its power could be well-managed by deploying additional accumulating facility and devising applicable configuration controllers. Many benefits like lowered actuations, easiness of the system, reduced estimation volume, reduced current Total harmonic distortion (THD), etc. are resulted in this improvised control and power administering renewable energy resource-based pumping system.
As far as the renewable energy resources-based projects are concerned, it often indulges sophisticated, time consuming, and expensive establishment since we are attempting to replace the non-renewable energy resources with alternatives. So, any students who are doing their projects in this domain will be able to master the following: Problem-solving capability, team working, creativity, innovation, managerial expertise, solar-based systems, wind-based systems, power conversion, chemical engineering, electrical-based systems, etc.
Know more: Enhanced Control and Power Management For A Renewable Energy-Based Water Pumping System