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DESIGN AND DEVELOPMENT SOLAR-WIND HYBRID POWER SYSTEM

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Presentation on theme: "DESIGN AND DEVELOPMENT SOLAR-WIND HYBRID POWER SYSTEM"— Presentation transcript:

1 DESIGN AND DEVELOPMENT SOLAR-WIND HYBRID POWER SYSTEM
ABC INC

2 CONTENT Pollution from power plant Test Video Design stages
Resource analysis Various applications Test results Major benefit

3 Objective To generate continuous power from wind and solar energy. (day and night) To use VAWT instead of HAWT Design and manufacture a Prototype model

4 POLLUTION FROM POWER PLANTS

5 Edith Cowan University

6 SCHEMATIC DIAGRAM

7 Solar-wind hybrid power system
Edith Cowan University

8 Advantages of VAWT over HAWT
CHEAP Maintenance, No gear mechanism Bird and bat friendly Quiet in operation VAWT catches wind more efficiently, does not need to be as tall. Easier to permit in residential neighborhoods. Small profile Low height required More reliable Less expensive than HAWT (approx. 45%)

9 WA Wind observation

10 Applications

11 Road lighting Edith Cowan University

12 House lighting Edith Cowan University

13 LANDSCAPE LIGHTING Edith Cowan University

14 PUMP IRRIGATION Edith Cowan University

15 Telecommunication System

16 FISHING BOAT Edith Cowan University

17 YACHT Edith Cowan University

18 Various monitoring systems

19 Rural area Edith Cowan University

20 Technical details and data
SOLAR – WIND HYBRID POWER SYSTEM START WIND SPEED 5.6 Km/h Rated wind speed 36 km/h Rated voltage 12v Rated power 200w Wind turbine material Galvanized iron No. of wings 8 Fan diameter 60cm Safe wind speed 50 km/h Weight 25kg

21 Test Results Output power Wind speed (km/h) o/p (w) 7.2 1 14.4 1.2
25.2 50 28.8 70 32.4 120 wind Vs power.xlsx

22 Specifications of solar panel
TYPE Polycrystalline Rated Power 10 W Battery Charging Time (deep cycle) 20-50 hrs. Optimum Operating Voltage 17 v Optimum Operating Current 0.59 A Open Circuit Voltage 21 v Short Circuit Voltage 0.61 A Specifications of solar panel

23 Buy back scheme “ You can sell us power” –SYNERGY
We can export surplus energy into the gridlines and can reduce electricity bills or get credit amount back. Edith Cowan University

24 CHALLENGES FACED Very Low wind speed Time management
Material selection and cost Design decisions

25 LESSION LEARNT Planning Problem solving abilities Auto Cad Pro –E
Various machines real operations

26 More efficient Dynamometer
Future work Wind turbine design More efficient Dynamometer

27 CONCLUSION As we design for the 200 W output system but due to friction loss, slip loss and other losses we come up with 120 W power output system. Consequently, our design is successful due to major support and guidance from ECU staff, friends and relatives.

28 Special thanks DR. LAICHANG ZHANG DR. ALEX RASSAU DR. XIAOLI ZHOA
DR. DOUGLAS CHAI MR. K BAJARIA MR. MITVESH PATEL

29 Thank you

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