Download presentation

Published byKiana Showell Modified over 2 years ago

1
**840 MW of Green Electric generated per Day in 10 Acres of land**

CANAL c drop CASCADING HYDRO ELECTRIC GENERATION 840 MW of Green Electric generated per Day in 10 Acres of land

2
THE CASCADE DESIGN Canal NECK 2MW Power House .5m dia P1 :-- OUTLET P2:- INLET Water flows from one canal to another wherein both canals have the same identical diameter. Both canals are connected in between by another c drop canal having a smaller diameter. The neck formed as a result helps in accelerating the flow rate of water when it travels between the two connected canals.

3
THE CASCADE DESIGN T 2MW .5 m dia outlet P1:--canal OUTLET P2:--canal INTLET B NECK The accelerated flow rate of the liquid can be used to generate electricity by introducing a Horizontal Blade rotating round turbine, in the neck region of the C drop canal design. T: Horizontal Rotating Turbine ( Round Turbine) B: Turbine Blades are Horizontal in rotation

4
**THE CASCADE DESIGN Developing total SIX series,**

connected network of inter connecting cascading box type with turbines fixed on the Outlet C drop canal outside helps generate maximum electrical power at each single canal outlet. By Diagonal flow mechanism, gravity aids in the downward flow of water which results in the creation of individual hydraulic heads in each c drop section thereby producing maximum thrust at the neck region helps in gravity fed power generation on C drop canal.

5
Generation CONCEPT Power Plant Design with total 6 2 MW at each box like canal outlet RESERVOIR lit Storage P1: m3/sec water P2:-- 2 MW to P 6 :-- 2 MW FLOW CYCLE 1.5MW PUMP 4000 numbers BASE WATER RESERVOIR always full of water

6
**Power Plant Design 30 m 1 m SCHEMATIC P, Pipe P1 to P6 , total 6 pipes**

P = h X f X g X e = KW Pump Type: Concrete Volute pump RESERVOIR canal 4 m wide T 20m3/sec 100 m P1 30 m P2 to 2 MW Power P6 1.5 MW PUMP 1 m BASE WATER RESERVOIR (700 m long always full of water)

7
**Power Plant Design 30 m 1 m SCHEMATIC From each sector:**

Total Number of C drop canals: 6 Total Number of Turbine: 6 Power from Each Turbine: 2.2 MW 2 x 6 = 12 MW Power to Run Pump: 1.5 MW Usable Power: 10 MW / Hour canal Dia.5 m RESERVOIR Dia .5 m 100 m P1 30 m P2 to 2 MW Power P6 1.5 MW PUMP 1 m WATER RESERVOIR ( 700 m long full of water )

8
**Design: 840 MW Total 30 m 1m Land: 10 Acres (divided into 5 sectors)**

Each Sector: 6 Power Generating Turbines Total Number of Turbines: 6 Output of Each Turbine: 2 MW / Hour Output of Each Sector: 12MW / Hour Output of 5 Sectors: 60MW / Hour Pump Consumption: 20MW / Hour Usable Power: 40MW / Hour RESERVOIR lit storage 100 m P1 Total 30 m P2 to 2 MW Power P6 PUMP. 1 HP each 4000 pumps 1m WATER RESERVOIR (700 m long full of water)

9
**INVESTMENT & RETURNS Cost of Set Up**

Rs. 75 Rs. 15 Crore per Sector Earnings Projection KW per day x Rs. 4/KW = Rs. 33,60,000/day Earning in One Year = Rs. 122 Crore Return On Investment 2 Years

10
Thank You

Similar presentations

Presentation is loading. Please wait....

OK

Fluid Mechanics 07.

Fluid Mechanics 07.

© 2018 SlidePlayer.com Inc.

All rights reserved.

Ads by Google

Ppt on landing gear system for trailers Ppt on obesity and nutrition Ppt on anti parkinson drugs Ppt on acid-base indicators worksheets Ppt on next generation 2-stroke engine Ppt on pi in maths what is median Ppt on views in dbms definition Ppt on transportation in animals for class 10 Ppt on db2 introduction letter Best way to show ppt on ipad