22-03-2011, 03:58 PM
PRESENTED BY
VENKATESWARA SARMA K
JOSE R.S
TINTU G.M
HEMANTH B
[attachment=10764]
INTRODUCTION
We do a project “SOLAR ENERGY CART”
which can solve problems of fuel unavailability.
Electric vehicle powered by solar energy not produced commercially because of power reliability and high production costs
Origin
Greg Johanson and Joel Davidson set for a 100% solar powered car. In 1984 the solar electric vehicle was retired and taken apart, but the solar array is still producing electricity for an off-grid home.
Solar array-Having hundreds of photovoltaic solar cells converting sunlight to electricity
When sunlight (photons) strike PV cells, they excite electrons and allow them to flow, creating an electrical current. PV cells are made of semiconductor materials such as silicon and alloys of indium, gallium and nitrogen. Silicon is the most common material used and has an efficiency rate of 15-20%.These electric charges are stored in the battery to run the vehicle
SOLAR ENERGY VEHICLES
ADVANTAGES OF SOLAR ENERGY
Saves Money
Environmental friendly
Independent
No maintenance required
DISADVANTAGES OF SOLAR ENERGY
Requires large area of installation for achieving high efficiency
Efficiency of the system relies on the location of the sun
Production of solar energy is influenced by presence of clouds or pollution in air
High initial cost
working model of solar energy vehicle
1 It do not need high maintenance
2 With the help of solar energy , wind energy and electricity we can run the vehicle.
3 we analysed how productive the solar energy cart would be in future
OUR PROJECT DETAILS
COMPONENTS REQUIRED
Frame-3 wheeler
Solar panel
Motor
Steering
Charging system
Battery
SOLAR PANEL
A solar panel is a device that collects photons of sunlight, which are very small packets of electromagnetic radiation energy, and converts them into electrical current that can be used to power electrical loads.
WORKING OF SOLAR PANEL
MOTOR
HUB MOTOR
High flexibility
Compact size,can support high loads
Hub motors negate the need for a heavy transmission, driveline, differential, and axles.
Hub motors generate high torque at low rpm,helps to improve efficiency.
Hub motors can be used as breaks by acting as a generator rather than motor.
DC MOTOR
Requires high maintenance
Have a low life span
Cannot support high loads
So usually hub motors are preferred over DC motors
FABRICATION
Chassis
Mild steel pipe of 1.5inch diameter
Thickness of 4 to 5mm
Steering
M-800 Rack and pinion steering gear box Battery
Battery pack each of 12V
Are connected in series as shown
four batteries in series comprise to total of 48V and power 75W
Accelaration can be done by adjusting rheostat
COMMERCIAL CHANCES
The Future of Solar Electric Vehicles looks bright. With the increase in fuel prices we are approaching cost effectiveness at rs 154 per gallon(3.8litres). With the rise of the Hybrid vehicles it looks like a great chance for additional energy inputs such as solar energy. It may not be only source of energy but today it can be 10-20%, tomorrow 20-40% and as oil and fuels become harder to recover and more costly .
DESCRIPTION
CHASE - 15 KG
WHEEL - 18 KG
BATTERY - 10 KG
PANEL - 10 KG
TOTAL WEIGHT CARRYING CAPACITY - 140 KG
SPECIFICATIONS
HUB MOTOR - 600W
BATTERY - 48V,20A
PANEL - 75W,12V,5A
DESIGNING
3 WHEELER VEHICLE
FRONT HAVING 2 WHEELS
BACK WHEEL ACT AS DRIVING WHEEL
MOTOR IS FIXED TO HUB OF THE WHEEL
PANEL IS GIVEN TO BATTERY
STEERING IS GIVEN TO FRONT WHEEL
PROJECT ESTIMATION
HUB MOTOR (INCLUDING CONTROLLER)- 10000
CHASSIS – 20000
BATTERY - 10000
SOLAR PANEL -12000
ADDITIONAL EXPENSE- 3000
TOTAL EXPENSE ESTIMATED - 55000
PROJECT PROGRESS
WE MADE THE DESIGN OF THE VEHICLE AND WE MADE THE SPECIFICATIONS OF
EQUIPMENTS NEEDED FOR OUR WORKAND ESTIMATED THE EXPENSE(55000)WE PURCHASED MOTOR FROM COIMBATOREAND ALSO PURCHASED 3 WHEELS WITH MATERIALS REQUIRED TO PRODUCE CHASSIS WORK FOR THE CHASSIS IS IN PROGRESS REMAINING WORK
CHASSIS WORK WILL BE COMPLETED IN A WEEK WE WILL PURCHASE SOLAR PANEL AND BATTERY BY 3 DAYS WE HAVE TO ASSEMBLE ALL THESE,OUR WORK WILL BE COMPLETED IN 30 DAYS