“Design and Development of Wind Powered Water lifting Pump Mechanism –A Practical Approach for Rural Development” The Project Report Submitted for the Partial Fulfillment of Award of the Degree Bachelor of Mechanical Engineering By PAWAR AJINKYA RAMAKANT BORUDE PRAVIN BABAN KULKARNI NEETA VILASRAO KAMBLE SUPRIYA RAJESH In the Supervision of DR. S. V. KARMARE
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
“Design and Development of Wind Powered Water lifting Pump
Mechanism –A Practical Approach for Rural Development”
The Project Report Submitted for thePartial Fulfillment of Award of the Degree
Bachelor of Mechanical Engineering
By
PAWAR AJINKYA RAMAKANT
BORUDE PRAVIN BABAN
KULKARNI NEETA VILASRAO
KAMBLE SUPRIYA RAJESH
In the Supervision of
DR. S. V. KARMARE
Department of Mechanical EngineeringGOVERNMENT COLLEGE OF ENGINEERING AND RESEARCH, AWASARI,
PUNE – 412 405Maharashtra, India
2013-14
CERTIFICATE
This is to certify that the seminar entitled “Design and Development of Wind Powered Water lifting Pump Mechanism –A Practical Approach for Rural Development”, submitted by
PAWAR AJINKYA RAMAKANT
BORUDE PRAVIN BABAN
KULKARNI NEETA VILASRAO
KAMBLE SUPRIYA RAJESH
is the bonafied work completed under my supervision and guidance in partial fulfillment for the project of final year in Bachelor of Mechanical Engineering at Government College of Engineering and Research, Awasari(kd), Pune for University of Pune (M. S.).
Place: Awasari(kd), Pune
Date: 24/03/2014
Dr. S. V. Karmare
GuideGovernment College of Engineering,
and Research, Awasari, Pune
Dr. S. V. KarmareHead, Mechanical Engineering,
Government College of Engineering, and Research, Awasari, Pune
Prof. S. V. JoshiPrincipal
Government College of Engineering,and Research, Awasari
ACKNOWLEDGEMENT
“Completing a task is never a one man’s effort. Several prominent people in
production, academics, and administrative field have helped in the present work. Their
collective support has led in presentation of this report. To name them all is impossible.”
I am thankful to colleagues, at, Government College of Engineering, Awasari,
Pune, and various other institutions for cooperation provided by them. Special thanks to
the Principal and teaching staff of GCOEAR, Awasari, for needful support and
encouragement throughout the last four years of study.
I am indebted to the Hon. Principal, Prof. S. V. Joshi, for causal achievement to
the wellbeing of students of the institute beyond expectations.
It is immense pleasure to me in expressing sincere and deep appreciation towards
Dr. S. V. Karmare as being our guide and Head of Department for their priceless
execution of steering this contribution all the way through this work with soft
suggestions, embedded supervision and invariable advocacy. Also immenseful thanks to,
Prof. S. R. Kewate, and for giving us valuable guidance at various conditions.
PAWAR AJINKYA RAMAKANT
BORUDE PRAVIN BABAN
KULKARNI NEETA VILASRAO
KAMBLE SUPRIYA RAJESH
Mechanical Engineering
CONTENTSSr. Illustration Page No.i List of figuresii List of tablesiii Abstract1 Introduction
1.1 Need of wind pump1.2 Types of wind mill
a) Horizontal axisb) Vertical axis
1.3 Comparison between HAWM and VAWM1.4 Site selection1.5 Application of wind mill1.6 Summary1.7 Problem definition1.8 Objectives1.9 History
1 1 2 2 3 4 5 5 6 6 7 7 8 8
2 Literature Review2.1 Basic water pumping theory
10
3 Principles 164 Construction and Working 175 System Development
5.1 System design5.2 Mechanical design5.3 List of component5.4 Design of part 5.4.1 Design of first central bearing 5.4.2 Design of second outer bearing 5.4.3 Friction losses 5.4.4 Design of Bolt 5.4.5 Design of reciprocating pump
23 23 23 24 25 26 27 27 27 28
6 Process and operation sheet 6.1 Process 6.2 Tools used
29
7 Cost Estimate 7.1 Cost of purchased parts 7.2 Machining cost 7.3 Miscellaneous costs
31
8 Advantages , Disadvantages , Application 329 Result and Conclusion 3610 Future scope 3711 References 38