Solar Powered Irrigation System Design with Venturimeter for Utilizing Natural Resources

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Year : December 4, 2023 | Volume : 01 | Issue : 01 | Page : 29-35

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    Vivek Viswanadha, P.H.J. Venkatesh, Sura Srinivasa Rao

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  1. Student, Professor, Student, Department of Electrical, Electronics and Communication Engineering, GITAM Deemed to be University, Visakhapatnam, Department of Mechanical Engineering, VIgnan’s Institute of Information Technology (A) Visakhapatnam, Department of Electrical, Electronics and Communication Engineering, GITAM Deemed to be University, Visakhapatnam, Andhra Pradesh, Andhra Pradesh, Andhra Pradesh, India, India, India

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Abstract

nThis research focuses on enhancing crop productivity in agriculture by ensuring high quality and quantity of crops. Crops needs to be given adequate nutrients in an efficient and timely fashion as a way to accomplish this.. Thus, liquid-based fertilizers are selected for this purpose. However, farmers often face challenges in supplying fertilizers with the required quantity and precision. To address this issue, we propose a solution that leverages solar energy to power a submersible pump, enabling the supply of stored rainwater and liquid fertilizer to each plant. To ensure a uniform rate of flow for both the liquid fertilizer and water, we design a venturimeter throat diameter optimized for strawberry plantations. This approach aims to minimize effort and optimize the utilization of natural resources such as rainwater and solar energy for sustainable and effective agriculture practices.

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Keywords: Submersible pump, solar energy, venturimeter throat diameter, uniform rate of flow, strawberry plantation, and sustainable agriculture.

n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Energy and Thermal Applications(ijeta)]

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[/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue under section in International Journal of Energy and Thermal Applications(ijeta)][/if 424][if 424 equals=”Conference”]This article belongs to Conference [/if 424]

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How to cite this article: Vivek Viswanadha, P.H.J. Venkatesh, Sura Srinivasa Rao Solar Powered Irrigation System Design with Venturimeter for Utilizing Natural Resources ijeta December 4, 2023; 01:29-35

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How to cite this URL: Vivek Viswanadha, P.H.J. Venkatesh, Sura Srinivasa Rao Solar Powered Irrigation System Design with Venturimeter for Utilizing Natural Resources ijeta December 4, 2023 {cited December 4, 2023};01:29-35. Available from: https://journals.stmjournals.com/ijeta/article=December 4, 2023/view=0/

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References

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  1. Kumar, J. Singh, H. Kansal, G. S. Narula, P. Singh (2014), “CFD Analysis of Flow Through Venturi”, International Journal of Research in Mechanical Engineering & Technology. 4(2):,
    214– 217.
  2. Rashmi Kumbhaj, Dr. Dharmendra Kumar Singh, DurgaSharma, “A Review: Designing of Solar Power Supply System for Different HP Motors in Irrigation System for Rural Area of Chhattisgarh”, International Journal of Science, Engineering and Technology,2017, Volume 5 Issue
  3. Kamel, K. and Dahl, C, “The economics of hybrid power systems for sustainable desert agriculture in Egypt”, Solar Energy [2005], pp. 1271–1281.
  4. Cuadros, F., Lopez-Rodriguez, F., Marcos, A. and Coello, “J.A. procedure to size solar-powered irrigation [photo irrigation] schemes”, Solar Energy 76 [2004], pp. 465–473.
  5. Tom grill & Mark Niblack, (May 2009), “Flow Measurement with Long-Throated Flumes under Uncertain Submergence‖”, A journal of U.S. department of Irrigation, III, Page No. 56–60.
  6. Chandel J.S, Badiyala, “Performance of some strawberry cultivars in foothills of Himachal Pradesh”, Annals of Agricultural Research, 2017, 17(4): 375–378.
  1. Bansal R. K. Venturimeter (2008), A textbook of fluid Mechanics&Hydraulic Machines, Laxmi Publications Ltd, Bangalore, Page No 265 to 267.
  2. Rajput K. (2005) Differential Pressure Head, Textbook of Fluid Mechanics, S. Chand Publication New Delhi, Page No. 189 to 190.
  3. R. Sanghani, D. C. Jayani, N. R. Jadvani, H. N. Dobariya, K.R. Jasoliya (2016) “Effect of Geometrical Parameters of Venturimeter on Pressure Drop”, IJSRSET, Volume 2, Issue 2 print ISSN: 2395-1990, Online ISSN: 2394-4099
  4. Elperin, A. Fominykh, M. Klochko (2002), “Performance of a Venturi meter in gas–liquid flow in the presence of dissolved gases”, Flow Measurement and Instrumentation. 13:, 13–16.
  5. Harlan H. Bergsten, (1999) “Venturi & Orifice flow meter”, A Technical Magazine of Sun cam Educational course, Vol. 4, Page No 12–15

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Regular Issue Subscription Review Article

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Volume 01
Issue 01
Received September 12, 2023
Accepted September 29, 2023
Published December 4, 2023

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Views: 34

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