THE IMPLEMENTATION OF A 5KVA PURE SINE WAVE INVERTER, 2016
The purpose of this project is to create an alternative means of electrifying the department of E... more The purpose of this project is to create an alternative means of electrifying the department of Electrical and Electronic Engineering. The scarcity and the costly nature of fossil fuels coupled with their noise pollution was the problem we set out to solve whilst implementing the project. Also, the problem of unavailability of electricity and constant interruption of electric supply is what we addressed by embarking on this project. Our study is justified by the successful design and implementation of solar powered 5KVA pure sine wave Inverter for the Department of Electrical and Electronic Engineering, Federal University of Technology, Owerri. We presented a concise methodology in the design of our system – 5KVA solar Powered Inverter. This includes the component of the system, the theory, design procedures and calculations involved during the sizing, design and installation of the system. The installation procedures and the risk assessment of the PV system were elaborated meticulously. We observed some precautions in the course of our work which helped us present an error-free system. These precautions are well detailed in the report. With this information we were able to describe a well detailed manual for operation of the system. At the end of the project we were able to produce a pure sine wave 5KVA inverter with an AC output of 220v, 50hz with a tolerance of 5%. The standard distribution voltage of Nigeria is 240v at 50 hz and we from our design we achieved an AC output of 220v, 50hz with a tolerance of 5%.
THE IMPLEMENTATION OF A 5KVA PURE SINE WAVE INVERTER, 2016
The purpose of this project is to create an alternative means of electrifying the department of E... more The purpose of this project is to create an alternative means of electrifying the department of Electrical and Electronic Engineering. The scarcity and the costly nature of fossil fuels coupled with their noise pollution was the problem we set out to solve whilst implementing the project. Also, the problem of unavailability of electricity and constant interruption of electric supply is what we addressed by embarking on this project. Our study is justified by the successful design and implementation of solar powered 5KVA pure sine wave Inverter for the Department of Electrical and Electronic Engineering, Federal University of Technology, Owerri. We presented a concise methodology in the design of our system – 5KVA solar Powered Inverter. This includes the component of the system, the theory, design procedures and calculations involved during the sizing, design and installation of the system. The installation procedures and the risk assessment of the PV system were elaborated meticulously. We observed some precautions in the course of our work which helped us present an error-free system. These precautions are well detailed in the report. With this information we were able to describe a well detailed manual for operation of the system. At the end of the project we were able to produce a pure sine wave 5KVA inverter with an AC output of 220v, 50hz with a tolerance of 5%. The standard distribution voltage of Nigeria is 240v at 50 hz and we from our design we achieved an AC output of 220v, 50hz with a tolerance of 5%.
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Thesis Chapters by Ejiro Igogori
The scarcity and the costly nature of fossil fuels coupled with their noise pollution was the problem we set out to solve whilst implementing the project. Also, the problem of unavailability of electricity and constant interruption of electric supply is what we addressed by embarking on this project. Our study is justified by the successful design and implementation of solar powered 5KVA pure sine wave Inverter for the Department of Electrical and Electronic Engineering, Federal University of Technology, Owerri.
We presented a concise methodology in the design of our system – 5KVA solar Powered Inverter. This includes the component of the system, the theory, design procedures and calculations involved during the sizing, design and installation of the system. The installation procedures and the risk assessment of the PV system were elaborated meticulously. We observed some precautions in the course of our work which helped us present an error-free system. These precautions are well detailed in the report. With this information we were able to describe a well detailed manual for operation of the system.
At the end of the project we were able to produce a pure sine wave 5KVA inverter with an AC output of 220v, 50hz with a tolerance of 5%.
The standard distribution voltage of Nigeria is 240v at 50 hz and we from our design we achieved an AC output of 220v, 50hz with a tolerance of 5%.
The scarcity and the costly nature of fossil fuels coupled with their noise pollution was the problem we set out to solve whilst implementing the project. Also, the problem of unavailability of electricity and constant interruption of electric supply is what we addressed by embarking on this project. Our study is justified by the successful design and implementation of solar powered 5KVA pure sine wave Inverter for the Department of Electrical and Electronic Engineering, Federal University of Technology, Owerri.
We presented a concise methodology in the design of our system – 5KVA solar Powered Inverter. This includes the component of the system, the theory, design procedures and calculations involved during the sizing, design and installation of the system. The installation procedures and the risk assessment of the PV system were elaborated meticulously. We observed some precautions in the course of our work which helped us present an error-free system. These precautions are well detailed in the report. With this information we were able to describe a well detailed manual for operation of the system.
At the end of the project we were able to produce a pure sine wave 5KVA inverter with an AC output of 220v, 50hz with a tolerance of 5%.
The standard distribution voltage of Nigeria is 240v at 50 hz and we from our design we achieved an AC output of 220v, 50hz with a tolerance of 5%.