[{“box”:0,”content”:”[if 992 equals=”Open Access”]n
n
Open Access
nn
n
n[/if 992]n
n
n
n
n
n
Prasad Suryawanshi, Swapnil Jadhav, Wali Ahmed Shaikh, Shubham Sawant, Amol Bhagat
n
- n t
n
n
n[/foreach]
n
n[if 2099 not_equal=”Yes”]n
- [foreach 286] [if 1175 not_equal=””]n t
- Student, Student, Student, Student, Assistant Professor, Department of Mechanical Engineering, Saraswati college of Engineering Navi Mumbai, Department of Mechanical Engineering, Saraswati college of Engineering Navi Mumbai, Department of Mechanical Engineering, Saraswati college of Engineering Navi Mumbai, Department of Mechanical Engineering, Saraswati college of Engineering Navi Mumbai, Department of Mechanical Engineering, Saraswati college of Engineering Navi Mumbai, Maharashtra, Maharashtra, Maharashtra, Maharashtra, Maharashtra, India, India, India, India, India
n[/if 1175][/foreach]
n[/if 2099][if 2099 equals=”Yes”][/if 2099]n
Abstract
nThe need for renewable energy-based applications is rising in the modern world. The wind turbine is among the most practical energy sources. The best examples of using wind energy to
its fullest extent are windmills. One such use for wind energy harvesting is the Vertical Axis Wind Turbine project work. In this project, the possibility of producing electricity and
supplying it to bus stops, traffic lights, streetlights, etc. was investigated. This turbine would serve as a renewable energy source by producing high-velocity wind when it was erected next to motorways and flyovers. This turbine will use a Savonius blade to lessen air drag. Fibre is used to build blades, so they are lightweight and flexible. It has a DC motor and a spur gear system. This advancement makes producing electricity simple and affordable. As a result, a prototype for a workable arrangement has been created.
n
Keywords: Lift and drag coefficients, Wind Turbine, Wind Energy, Renewable Energy, Electricity Generation, Design of Blades, Efficiency of VAWT
n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Advanced Control and System Engineering(ijacse)]
n
n
n
n
n
nn
nn[if 992 equals=”Open Access”] Full Text PDF Download[/if 992] [if 379 not_equal=””]n
Browse Figures
n
n
n[/if 379]n
References
n[if 1104 equals=””]n
Ashwin Dhote, Prof. Vaibhav Bankar. “DESIGN, ANALYSIS AND FABRICATION OF SAVONIUS VERTICAL AXIS WIND TURBINE”. International Research Journal of
Engineering and Technology. Jun-2015; 2(3): 2048-2054.
2. Hau, E. Wind Turbines, Fundamentals, Technologies, Application, Economics, 2nd ed.; Springer: Berlin, Germany, 2006
3. Gagliano A, Nocera F, Patania F, Capizzi A. Assessment of micro-wind turbines performance in urban environments: an aided methodology through geographical information systems. International Journal of Energy and Environmental Engineering. 2013 Dec; 4:1-4.
4. DESHMUKH, Samir; CHARTHAL, Sagar. Design and Development of Vertical Axis Wind Turbine. IRA-International Journal of Technology & Engineering. [S.l.], p. 286-294, july 2017. Available at: doi:http://dx.doi.org/10.21013/jte.ICSESD201728.
5. Sukanta Roy, Ujjwal K. Saha. Review of the numerical investigations into the design and development of Savonius wind rotors. Renewable and Sustainable Energy Reviews. Volume 24, August 2013, Pages 73-83
6. Joshua Yen, Noor Ahmed. Improving Safety and Performance of Small-Scale Vertical Axis Wind Turbines. Procedia Engineering. Volume 49, 2012, Pages 99-106.
7. Sheldahl RE, Blackwell BF, Feltz LV. Wind tunnel performance data for two-and three-bucket Savonius rotors. Journal of Energy. 1978 May;2(3):160-4.
8. Manwell JF, McGowan JG, Rogers AL. Wind energy explained: theory, design and application; 2 nd Edition. John Wiley and Sons Ltd: Chichester, 2002.
9. Moutsoglou A, Weng Y. Performance tests of a Benesh wind turbine rotor and a Savonius rotor. Journal of Wind Engineering 1995; 19: 349-362
10. Karwa N, Barve SB. Design, modelling and analysis of savonius vertical axis wind turbine.International Journal of Engineering and Technology (IRJET). 2021;8(11):351-7.
nn[/if 1104][if 1104 not_equal=””]n
- [foreach 1102]n t
- [if 1106 equals=””], [/if 1106][if 1106 not_equal=””],[/if 1106]
n[/foreach]
n[/if 1104]
nn
nn[if 1114 equals=”Yes”]n
n[/if 1114]
n
n
n
International Journal of Advanced Control and System Engineering
n
n
n
n
n
n
Volume | 01 | |
[if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] | 02 | |
Received | February 13, 2024 | |
Accepted | April 2, 2024 | |
Published | May 7, 2024 |
n
n
n
n
n
n function myFunction2() {n var x = document.getElementById(“browsefigure”);n if (x.style.display === “block”) {n x.style.display = “none”;n }n else { x.style.display = “Block”; }n }n document.querySelector(“.prevBtn”).addEventListener(“click”, () => {n changeSlides(-1);n });n document.querySelector(“.nextBtn”).addEventListener(“click”, () => {n changeSlides(1);n });n var slideIndex = 1;n showSlides(slideIndex);n function changeSlides(n) {n showSlides((slideIndex += n));n }n function currentSlide(n) {n showSlides((slideIndex = n));n }n function showSlides(n) {n var i;n var slides = document.getElementsByClassName(“Slide”);n var dots = document.getElementsByClassName(“Navdot”);n if (n > slides.length) { slideIndex = 1; }n if (n (item.style.display = “none”));n Array.from(dots).forEach(n item => (item.className = item.className.replace(” selected”, “”))n );n slides[slideIndex – 1].style.display = “block”;n dots[slideIndex – 1].className += ” selected”;n }n”}]