Student Name | School | Degree | Year | |
---|---|---|---|---|
Basalat Ali | Department of Electrical Engineering | Undergraduate | Fourth | [email protected] |
Muhammad Ali | Department of Electrical Engineering | Undergraduate | Fourth | [email protected] |
Noman Yasin | Department of Electrical Engineering | Undergraduate | Fourth | [email protected] |
Inter School Idea ? | No |
Do you need expertises from another area: | No |
If Yes please provide details of expertises you need: |
Idea Name: | Fast Charging station for Lead acid batteries |
Slogan: | Stay powered up. |
Supervisor Name: | Mr. Ali Ahmad |
Supervisor Designation: | Lecturer |
Supervisor School: | CAE |
Supervisor Department: | Electrical Engineering |
Contact number: | 03008104299 |
Email ID: | [email protected] |
Abstract: | |
Electric vehicles (EV) market is rapidly growing globally. The charging time of these EVs and costly batteries are major problems to address. Pakistani market is flooded with lead-acid batteries which are cheaper but they take huge charging time. In this project, a high spike-based pulse charger will be developed to reduce the charging time and increase the operating time of lead-acid batteries | |
What is the unmet need in society that your idea will fulfill ? | |
To reduce the charging time of lead acid batteries, to reduce the effects of sulfation, move from conventional charging method because of modern technology and to increase battery life | |
Who needs it ? How many would benefit ? | |
For lead acid battery users that are Inexpensive and simple to manufacture. Mature, reliable and well-understood technology when used correctly, lead-acid is durable and provides dependable service. The self-discharge is among the lowest of rechargeable battery systems. | |
How will the solution works | |
Design and Development of Pulse Charger, Monitoring of Battery Parameters, Controlled Operation of Pulse Charging. The batteries are charged rapidly by using sectional constant current charging and sectional high current. At this time, the high current will cause negative resistance breakdown dissolution of lead sulfate crystals. Sectional constant current charging divides the charging process into several constant current charging stages, and the current decreases step by step. | |
Who are your competitors ? How is your solution different | |
Competitors are of lead acid battery charging manufacturers but the existing lead-acid batteries will be used to change them fastly. Pulse charging mechanism is the novelty of the project. | |
Status: | new |
Entry Date & Time: | 2022-12-28 (0940) |