Difference between revisions of "Projects:2018s1-180 Development and Control of a Standalone Power Source for Residential Dwellings and Small Businesses"
(→Content) |
|||
| Line 2: | Line 2: | ||
== Content == | == Content == | ||
1.Introduction | 1.Introduction | ||
| + | 1.1 Motivation and Aim | ||
| + | 1.2 Background | ||
| + | |||
| + | 2. Hybrid system configuration | ||
| + | |||
| + | 3. System at a glance | ||
| − | |||
| − | |||
| − | + | 6. Members | |
| − | + | 6.1 Group Members | |
| − | + | 6.2 Supervisor | |
'''1.Introduction''' | '''1.Introduction''' | ||
| Line 22: | Line 26: | ||
cost effective power/energy source, for residential and/or small business application. | cost effective power/energy source, for residential and/or small business application. | ||
| − | + | 1.2 Background | |
| + | Due to the increasing cost of non-renewable energy and extension of power grid, and to reduce green house gas emissions, development of hybrid power system with a mix of various energy sources presents a very viable alternative. Consumers would greatly benefit from the use of these hybrid power systems that are reliable and cost effective.Distributed energy resources entities such as solar photovoltaic units, wind-generating units and battery storage unlike centralised energy resources like power plants have the advantage of providing cheaper, more reliable and greener energy. It also provides more controlled for the consumer over the power generated. | ||
| − | '''2. Members''' | + | A nanogrid is a standalone hybrid generation system, which utilizes distributed renewable and non-renewable energy resources with or without energy storage, and is used to supply power to a single user. |
| + | |||
| + | '''2. Hybrid system configuration''' | ||
| + | '''3. System at a glance''' | ||
| + | |||
| + | '''6. Members''' | ||
------------------ | ------------------ | ||
| − | + | 6.1 Group Members | |
Bikram Thapa | Bikram Thapa | ||
| Line 35: | Line 45: | ||
Yihan Cao | Yihan Cao | ||
| − | + | 6.2 Supervisor | |
| − | |||
Assoc. Professor Nesimi Ertugrul | Assoc. Professor Nesimi Ertugrul | ||
| − | |||
---------------------- | ---------------------- | ||
[[File:thumbnail.jpg]] | [[File:thumbnail.jpg]] | ||
Revision as of 19:07, 19 October 2018
Content
1.Introduction 1.1 Motivation and Aim 1.2 Background
2. Hybrid system configuration
3. System at a glance
6. Members
6.1 Group Members
6.2 Supervisor
1.Introduction
1.1 Motivation and Aim
Obvious to say that most of us do not like power outage as it causes discomfort and financial losses as was witness in the recent case of South Australia, where some areas were without power for days. As a consumer what we want is a cost effective reliable power and hence the project aims to design, develop and implement a Nano-grid level reliable and cost effective power/energy source, for residential and/or small business application.
1.2 Background
Due to the increasing cost of non-renewable energy and extension of power grid, and to reduce green house gas emissions, development of hybrid power system with a mix of various energy sources presents a very viable alternative. Consumers would greatly benefit from the use of these hybrid power systems that are reliable and cost effective.Distributed energy resources entities such as solar photovoltaic units, wind-generating units and battery storage unlike centralised energy resources like power plants have the advantage of providing cheaper, more reliable and greener energy. It also provides more controlled for the consumer over the power generated.
A nanogrid is a standalone hybrid generation system, which utilizes distributed renewable and non-renewable energy resources with or without energy storage, and is used to supply power to a single user.
2. Hybrid system configuration 3. System at a glance
6. Members
6.1 Group Members
Bikram Thapa
Mo Tao
Yihan Cao
6.2 Supervisor Assoc. Professor Nesimi Ertugrul
