GUJARAT TECHNOLOGICAL UNIVERSITY Chandkheda

GUJARAT TECHNOLOGICAL UNIVERSITY
Chandkheda, Ahmedabad
Affiliated
Shree Swami Atmanand Saraswati Institute of Technology
A Project Report on
“To increase the performance of wind turbine with use of combined blades.”
Under
Subject of
PROJECT – I
(2170001)
B. E. IV, Semester – VII
(Mechanical Engineering)
Prepared By
Name Enroll. No.

Morkar Kavish V. 150760119063
Patel Divyesh A. 150760119079
Patel Krunal G. 150760119082
Patel Mitesh K. 150760119084
Patel Vinit M. 150760119088
Under the guidance by
PROF.MANISH C. BHATT
Assistant Professor
Mechanical Engineering Department
S.S.A.S.I.T
Surat
Surat-395006
Academic year
2018-19
center375306Certificate
This is to certify that Research work embodied in this reported titled “To increase the performance of wind turbine with use of combined blades” was carried at Shree Swami Atmanand Saraswati Institute of Technology, Surat for partial fulfillment for the award of Bachelor of Degree in Mechanical Engineering by Gujarat Technological University. This research work has been carried out under our guidance & super vision and is upto our satisfaction.

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Date: _____/_____/_____
Place: ___________________
Prepared by
Name Enroll. No.

Morkar Kavish V. 150760119063
Patel Divyesh A. 150760119079
Patel Krunal G. 150760119082
Patel Mitesh K. 150760119084
Patel Vinit M. 150760119088
Signature of Guide
Signature of Internal Examiner Signature of HOD

Signature of External Examiner
AcknowledgementWith read pleasure & deep sense of gratitude I would like to extent out since thanks to almighty God for his peace and blessings for granting me the chance and the ability to successfully complete this study.

We express since thanks to Dr. Kishore N. Mistry Principal, S.S.A.S.I.T, Prof. Jignesh G. Vaghasiya HOD, Mechanical Engineering Department, S.S.A.S.I.T, Surat for granting to undertake the studies under this topic and for guiding and motivating.

We would like to give special thanks to your guide Prof. MANISH C. BHATT Assistant Professor, mechanical Engineering Department, S.S.A.S.I.T, Surat. Whose timely and persistent guidance has played a key role in making work success.

We thank to our family for their everlasting love and financial support throughout my number our academic years.

We would also like to thank our classmates who have directly or indirectly provided their unerring support throughout the course of this seminar work.

We would like to thanks all teaching and non-teaching staff member of Mechanical Engineering department who directly or indirectly helped us for completion of report of the project.
Morkar Kavish V. Patel Divyesh A. Patel Krunal G. Patel Mitesh K. Patel Vinit M.
INDEX
CERTIFICATE 2
ACKNOWLEDGEMENT 3
INDEX 4
ABSTRACT 5
CHAPTER 1: INTRODUCTION
1.1 Aim of Project 6
1.2 Main Objectives 6
1.3 Main Components 6
CHAPTER 2: Literature Review
Summary of Literature Review 8
Why are three blades use?8
CHAPTER 3: About Project
3.1 Power Source10
3.2 Wind Turbine10
3.3 Classification of wind turbine11
3.4 Disadvantage of Horizontal Wind Turbine11
3.5 Advantage of Vertical Wind Turbine 11
3.6 Darrieus Blade Wind Turbine12
3.7 Savonius Blade Wind Turbine 12
3.8 Combined Blade Wind Turbine13
3.9 Concept13
CHAPTER 4: Design Engineering Canvas
4.1 AEIOU Summary14
4.2 Empathy Canvas15
4.3 Ideation Canvas16
4.4 Product Development Canvas17
CHAPTER 5: Design17
CHAPTER 6: Conclusion18
CHAPTER 7: Reference18
ABSTRACT
The use of wind energy for energy generation is one of the oldest methods for harnessing renewable energy. Use of renewable energy is an essential ingredient of socio-economic development and economic growth. Renewable energy sources such as wind energy, tidal energy etc. is abundant and can help in reducing the dependency on fossil fuels. With increased concern for environment now days led to the research for more environment friendly sources of energy and with this considerations wind energy can be considered as a viable option in this regard. Different configurations of wind turbines such as horizontal axis wind turbine and vertical axis wind turbines are mainly used for energy extraction. Horizontal axis mainly used in large scale applications and thus its implementation is generally a concern due to huge instalment setup and initial cost; whereas vertical axis wind turbines offer promising solution for smaller ruler areas or medium sized residential spaces. Energy generation from wind turbines will surely be affected by geometry of bade it is using and its orientation in turbine. For effective use of turbine both parameters should be optimally set and determined. This review work focuses on various stages for design and development of optimized vertical axis wind turbine which will studies various parameters such as general wind energy scenario, different available energy extraction methods, design and aerodynamic performance analysis of vertical axis wind turbines. Project work will include Optimization of design parameters of vertical axis turbine blades considering different parameters such as geometry orientation in assembly.

Chapter 1: Introduction
Aim of project:
To generate power with the use of combination of two blades (Darrieus and Savonius) wind turbine for residential use.

1.2 Main Objective:-
Our project COMBINE BLADE TURBINE focuses on the utilization of wind energy as a renewable source.
The main goal of this project is that the combined Savonius-Darrieus rotor is used in order to increase the wind turbine performance in low wind speed.

It will work hence wind is flowing through any direction.

1.3Main Component:-
Mixed (Darrieus-Savonius) Wind blades
Stand
Main shaft
Strips
Chapter:-2 Literature review
SR. NO. RESEARCH PAPER NAME PUBLISHER NO. OF PAGES
1 COMBINE VAWT IJIRSET 7
2 DESIGN AND DEVELOPMENT OF VAWT IJERA 6
3 SAVONIUS TWO OR THREE BLADES AT LOW WIND SPEED IJMER 9
4 MIXED WIND TURBINE USING A CLUTCH MECHANISM ICMTE 11
5 DESIGN ANALYSIS OF SAVONIUS WIND TURBINE BLADES IJERA 4
6 WIND TURBINE BLADE DESIGN ISSN 25
7 STUDY OF SAVONIUS-DARRIEUS WIND MACHINE NIT, ASSAM 11
8 BLADE EFFICIENCY AND POWER CALCULATION WITH ELECTRICAL ANALOGY IJSRP 5
2.1 Summary of Literature Review
The various parameters involved in the performance testing of the turbine are listed below:
1. Swept area.

2. Power and power co-efficient.

3. Tip speed ratio.

4. Blade chord
5. No. of blades
Swept area: The swept area is the section of air that encloses the turbine in its movement.

Power and power co-efficient: The power the turbine takes from wind is calculated using the power coefficient.

Tip speed ratio: It is defined as the ratio between the tangential speed at blade tip and the actual wind speed.

tip speed ratio= tip speed of bladewind speed Blade chord: The chord is the length between leading edge and trailing edge of the blade profile.
Why are three blades use?
The three blades wind turbine produces higher rotational speed and tip speed ratio than that two and four blades. The highest tip speed ratio is 0.555 for wind speed of 7m/s. Wind turbine rotor with four blades has high torque compared with two or three blades wind rotor.

Four blades wind turbine has good performance at lower tip speed ratio, but three blades wind turbine has the best performance at higher tip speed ratio Results of the experiments indicated the relationships between wind speeds and tip speed ratio or actual torque as shown. It shows that the three blades wind turbine model has the highest tip speed ratio. In general the three wind turbine models have significant tip speed ratio at lower wind speed and more stable at wind speed of 7 m/s

Chapter 3:- About Project
3.1 Power Source:-
Convectional energy
Nuclear power
Hydro-electric power
Non-convectional energy
Wind power
Solar power
Geothermal power
Biomass power
Our motto is to convert non-convectional energy (wind energy) into electric power sources.

3.2 wind turbine:-
A wind turbine is a device that converts the wind’s kinetic energy into electrical energy.

Wind turbines are manufactured in a wide range of vertical and horizontal axis.

Wind turbines can rotate about either a horizontal or a vertical axis, the former being both older and more common.

3.3 Classification of wind turbine:-
Horizontal Axis Wind Turbine
Horizontal-axis wind turbines (HAWT) have the main rotor shaft and electrical generator at the top of a tower.
Vertical Axis Wind Turbine
Vertical Axis Wind Turbine (or VAWTs) have the main rotor shaft arranged vertically.
Mostly two types of wind turbines are used in vertical axis turbine, which are as follows.

Savonius Wind Turbine
Darrieus Wind Turbine
3.4 Disadvantage of horizontal wind turbine:-
Taller masts and blades are more difficult to transport and install. Transportation and installation can now cost 20% of equipment costs.

Stronger tower construction is required to support the heavy blades, gearbox, and generator.

Reflections from tall HAWTs may affect side lobes of radar installations creating signal clutter, although filtering can suppress it.

Mast height can make them obtrusively visible across large areas, disrupting the appearance of the landscape and sometimes creating local opposition.

Downwind variants suffer from fatigue and structural failure caused by turbulence when a blade passes through the tower’s wind shadow (for this reason, the majority of HAWTs use an upwind design, with the rotor facing the wind in front of the tower).

3.5 advantages of vertical Wind turbine:-
They can produce electricity in any wind direction.
Strong supporting tower in not needed because generator, gearbox and other components are placed on the ground.
Low production cost as compared to horizontal axis wind turbine.
Easy installation as compared to other wind turbine.
Easy to transport from one place to other.
Low maintenance cost.
Low risk for human and birds because blades moves at relatively low speed.
3.6 Darrieus Blade wind Turbine:-
The Darrieus wind turbine is a type of vertical axis wind turbine (VAWT) used to generate electricity from the energy carried in the wind. The turbine consists of a number of curved aerofoil blades mounted on a vertical rotating shaft or framework. The curvature of the blades allows the blade to be stressed only in tension at high rotating speeds. There are several closely related wind turbines that use straight blades.

Darrieus Wind Turbine
3.7 Savonius blade Wind turbine
The Savonius turbine is one of the simplest turbines.
Aerodynamically, it is a drag-type device, consisting of two or three scoops. Looking down on the rotor from above, a two-scoop machine would look like an “S” shape in cross section.
Because of the curvature, the scoops experience less drag when moving against the wind than when moving with the wind. The differential drag causes the Savonius turbine to spin.
Because they are drag-type devices, Savonius turbines extract much less of the wind’s power than other similarly-sized lift-type turbines.

Much of the swept area of a Savonius rotor may be near the ground, if it has a small mount without an extended post, making the overall energy extraction less effective due to the lower wind speeds found at lower heights.

Savonius Wind Turbine
3.8 Combined Blade Wind Turbine
The combined Savonius-Darrieus hybrid wind turbine is small in size and due to its Vertical axis nature therefore it is possible to obtain output regardless of the wind direction.
This wind turbine is a combination wind turbine with a lift-type Darrieus rotor which is providing main power, and a drag-type Savonius rotor which is providing starting power.
The combined Savonius-Darrieus hybrid wind turbine generator has been investigated by many scientists and its output characteristics related to the number of the Darrieus blade have been obtained.

3.9 Concept

Chapter 6: Conclusion:-
Our project COMBINE BLADE TURBINE focuses on the utilization of wind energy as a renewable source. We’ve designed the turbine to work very well in low winds, and operate at much safer speed than some of its counterparts. A COMBINE BLADE TURBINE can be located nearer to the ground, making it easier to maintain the moving parts so it’s suitable and give a best performance for domestic application. Now we are starting to purchase of Raw Material.

Chapter 7: References:-
1 A Review on Combined Vertical Axis- Wind Turbine International Journal of Innovative Research in Science, Engineering and Technology (An ISO 3297: 2007 Certified Organization) Vol. 5, Issue 4, April 2016
2 Turbine Blade Efficiency and Power Calculation with Electrical Analogy – International Journal of Scientific and Research Publications, Volume 2, Issue 2, February 2012 1 ISSN 2250-3153 www.ijsrp.org
3 Non conventional energy by B.L.Singhal
4 Design And Analysis of Savonius Wind Turbine Blades-Kshitija .M. Deshmukh et al. Int. Journal of Engineering Research and Applications www.ijera.com ISSN: 2248-9622, Vol. 5, Issue 11, (Part – 5) November 2015, pp.100-103 www.ijera.com
5 Selection of Material for Wind Turbine Blade by Analytic Hierarchy Process (AHP) Method Lahu P. Maskepatil, A.U. Gandigude, S.A. Kale, Dnyanganga College of Engineering, Pune, Maharashtra, India
6 Design and Analysis of Savonius Wind Turbine Blades-Kshitija .M. Deshmukh et al. Int. Journal of Engineering Research and Applications www.ijera.com ISSN: 2248-9622, Vol. 5, Issue 11, (Part – 5) November 2015, pp.100-103 www.ijera.com