STUDY AND DEVELOPMRNT OF

WATER PUMPING SYSTEM

USING WIND MILL

Submitted by

SENTHILKUMAR K (090111804060)

SHALIN M (090111804061)

SIVAKUMAR N (090111804062)

YUVARAJ K (090111804078)

Under guidance of…

Miss.E.JAMUNA

Asst.Professor

Department Of Mechanical Engineering

The Kavery Engineering College

CONTENTS

AIM

ABSTRACT

FOCUS OF THE PROJECT

EXISTING METHOD

LITERATURE REVIEW

METHODOLOGY

PROBLEM FINDIING

FABRICATON

RESULT

CONCLUSION

AIM

By using the feasibility of renewable energy source we are

going to pump the under ground water from 15-20 feet depth, by using

the water pumping system using windmill.

ABSTRACT

A detail investigation has been made to determine the feasibility of

using wind power for extracting underground water for irrigation

purposes in our local places.

Water supplies such as wells and dugouts can often be developed

on the open range. However, the availability of power supplies on the

open range is often limited, so some alternate form of energy is

required to convey water from the source to a point of consumption.

Wind energy is an abundant source of renewable energy that can be

exploited for pumping water.

So we are suggest, wind power is the more feasible and also

economical one to pump the underground water. In this by using rotary

vacuum pump we are going to pump the underground water.

In our project wind mill rotor and rotary vacuum pump connected

by connecting shaft. Whenever wind strike the rotor then the rotor

starts to rotate due to this rotor rotation pump also starts to rotate.

Due to the pump rotation vacuum created inside the pump then

water has been pump by the rotary vacuum pump and discharge of the

pump feasible for agriculture and irrigation purpose.

SOLAR POWER:

Solar energy is used mainly for pumping water for livestock or for

home use. It is seldom used for irrigation because of the amount of water

needed for crops.

However, solar pumps are economically feasible for irrigation that

uses very low heads or has very low lifting requirements, such as drip

irrigation, which uses less water than other types.

DISADVANTAGES:

1.Economically more cost,

2.High initial cost as compared to other methods,

3.The pump lasts less time,

EXISTING METHOD

LITERATURE REVIEW

STUDY AND DEVELOPMENT OF WIND ENERGY TO PUMPING

UNDERGROUND WATER:

-Dr Abdurrahman Al Ahmari, Dr Ahmet Bolat,

Dr Ahmet z.sahin, Dr Naif Al Abbadi.

USING RENEWABLE ENERGY SOURCE TO PUMP WATER

-Jaun enciso and Micheal mecke.

WIND POWERED PUMPING SYSTEM FOR LIVESTROKE

WATERING:

-Agriculture and Agri food Canada.

DYNAMIC MODELLING AND SIMULATION OF A WIND TURBINE

BASED WATER PUMPING SYSTEM:

-Md Alimuzzaman, M Tariq Iqbal.

METHODOLOGY

Generally the hydraulic energy is converted into electrical

energy or wind energy is converted into electrical energy, here we are

converting wind energy into hydraulic energy by using rotary vacuum

pump.

And also we are providing action to the rotary vacuum pump by

using the wind force to pump the water from underground.

PROBLEM FINDINGS

• Solar power system its initial cost is very high,

• It required more maintenance,

• In that pump last less time,

• Its not an abundant energy,

• It required more space to install the arrangement.

MAIN COMPONENTS

MAIN COMPONENTS OF PUMP SYSTEM

• Impeller

• Casing

• Suction pipe

• Delivery pipe

MAIN COMPONENTS OF WATER PUMPPING SYSTEM

• Rotor

• Rotor blades

• Rotary vacuum pump

• connecting shaft

• Wind mill tower.

RESULTS

GRAPHICAL PROCEDURE F

low

rate

/min

Wind power/Electric power(watts)

FUTURE EXTENSION

We contemplate the following future features which can be

incorporated into this project:

• Hybrid water pumping system, (combined wind & solar

energy).

• Water pumping system with gear arrangement.

ADVANTAGES

It is a renewable source of energy

Like all forms of solar energy, wind power systems are non-

polluting, so it has no adverse influence on the environment.

Wind energy systems avoid fuel provision and transport.

On a small-scale up to a few kilowatt system is less costly. On a

large-scale costs can be competitive with conventional electricity

and lower costs could be achieved by mass production.

The major advantage of this design is that the rotor blades can

accept the wind from any compass.

DISADVANTAGES

Wind energy available in dilute and fluctuating in nature.

Unlike water energy wind energy needs storage capacity because of

its irregularity.

Wind energy systems are noisy in operation; a large unit can be

heard may kilometres away.

Large areas are needed, typically, propellers 1 to 3 m in diameter,

deliver power in the 30 to 300 W ranges.

Present systems are neither maintenance free not-practically reliable.

CONCLUSION

If the former is almost on a par with the latter, the system is

clearly not a sustainable choice (environmentally or economically). In

terms of energy payback, wind farms do compare favourably with other

power generation systems.

Furthermore, there is significant potential for technological

development in wind energy particularly relative to other, more mature

systems which could further improve the cost-effectiveness and

performance of installations.