FABRICATION OF COLD STORAGE FOR THE FISHING


EOI: 10.11242/viva-tech.01.05.028

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Citation

Ms. Kaustubh Rane, Ms. Suyash Salunkhe, Ms. Siddhesh Sawant, Tejas Tade, "FABRICATION OF COLD STORAGE FOR THE FISHING ", VIVA-IJRI Volume 1, Issue 6, Article 1, pp. 1-5, 2023. Published by Computer Engineering Department, VIVA Institute of Technology, Virar, India.

Abstract

The results of this study inform the comparison of cycle performance including heat rejection rate,cooling capacity, COP, and pressure-enthalpy diagram. The main conclusion is that type of refrigerant that are simulated can produce high COP which is useful for handling the cooling load that is later available. The report on this study will be used further to design a fish-storage box. This paper gives overview of cold storage, its history, how it works, advantages and disadvantages, and its implementation. Cold storage is an important technology which is basically used for maintaining the quality of the produce and avoid the deterioration of the same. Nowadays cold storage is gaining importance because of its positive result of avoiding spoilage of harvested produce. This paper focuses on the compact design of the cold storage which will be helpful for the local fisherman’s on small scale. It’s basically designed for the fisherman’s who can minimize the total weight of ice blocks in the fishing boat and instead of that afford initial investment in refrigeration system and wants to store more mass of seafood and to gain profit from it. Cold storage consist of direct evaporative cooling system and supplemental refrigeration is air conditioning unit..

Keywords

Cooling Heat, Refrigeration, Seafood, Storage.

References

  1. Rogtam et. al (2015), Field Measurements of Supermarket Refrigeration Systems, ISBN 10(2015), pp.52.
  2. Finn K, et al. (2012), Eukaryotic DNA damage checkpoint activation in response to double-strand breaks, ISBN 10(2012), pp.69
  3. N. Yusoff and M. Ramasamy(2010), Selection of RGP Optimization variables using Taguchi Method, Journal of Applied Science 10(24)3313-3318,(2010) ISSN 1812- 5654.
  4. Mashud Ahmed, Oliver Meade, Mario A. Medina(2009) Reducing heat transfer across the insulated walls of refrigerated truck trailers by the application of phase change materials, Energy Conservation and Management 51 (2010) 383-392.
  5. Winkler et. al. (2008), Simulation and Validation of a R404A/CO2Cascade Refrigeration System, ISBN 10(2008), pp.942.
  6. Merrick Burden, Gilbert Sylvia, Edward Kolbe(2004) Optimal storage temperature Design for Frozen Food Seafood inventories:Application to Pacific Whiting surimi, IIFET, Japan Proceeding, ISBN 10(2004), pp.271.
  7. Yamasaki et. al. (2004) Introduction of Transcritical Refrigeration Cycle Utilizing CO2 as Working Fluid, ISBN 10(2004), pp.1632.
  8. Shan K. Wang, ―Handbook of air conditioning and refrigeration‖, Vol.2, (2001) ISBN-10, pp 123.
  9. M.S.Soylemez, M.Unsal(1997) Optimum Insulation Thickness for Refrigerant applications, Energy Conservation and Management 40(1997) (13-21).
  10. Cerepnalkovski (1991), I. Modern Refrigerating Machines. Elsevier Science Publishing, Vol.4, (1991), pp126.
  11. Marbach, William D. "Now, An Icebox That's Cool for the Environment." Business Week. July 22, (1991), pp. 65
  12. Stoecker, W. F. and J. W. Jones. Refrigeration & Air Conditioning. McGraw-Hill, ISBN 10(1982), pp.84.