Performance Estimation of a Solar Box Cooker by Approaching Taguchi Technique

Abhishek Saxena; Varun Goel; Amar Patnaik

doi:10.51983/ajeat-2012.1.1.2500

Authors

Abhishek Saxena Department of Mechanical Engineering, MIT Moradabad, Uttar Pradesh – 244 001, India
Varun Goel Department of Mechanical Engineering, NIT Hamirpur, Uttar Pradesh – 177 005, India
Amar Patnaik Department of Mechanical Engineering, NIT Hamirpur, Uttar Pradesh – 177 005, India

DOI:

https://doi.org/10.51983/ajeat-2012.1.1.2500

Keywords:

Box cooker, Performance, Solar energy, Taguchi

Abstract

Demand of energy is increasing day by day in this developing world in every sector of life. Many alternative energy sources are supporting us, in which, cooking by solar energy is pretty familiar to everyone. According to various International societies, promoting solar cookers, in progressively active mode, solar box cookers are very popular in the field of cooking due its economical and ecological benefits. An attempt is made to evaluate the performance of a solar box cooker by using Taguchi method. Among the important operating and system parameters, three parameters have been selected viz. ambient temperature (Tamb), solar radiation (H) and medium (particles spreaded). Based upon experiments their confirmatory equations have been developed and compared with the obtained experimental values for a good satisfaction.

References

J. D. Walton (Jr.), A. H. Roy, S. H. Bomar (Jr.), A State of the Art Survey of Solar Powered Irrigation Pumps, Solar Cookers and Wood Burning Stoves for Use in Sub-Sahara Africa, Engineering Experiment Station, Georgia Institute of Technology Atlanta, GA- 30332, U.S.A., 1978.

J. A. Duffle and W. A. Backman, Solar Energy Thermal Processes, Wiley publications, New York, 2006.

A.M. A. Khalifa, M. A. Taha and M. Akyurt, “Solar Cookers for Outdoors And Indoors”, Energy, Vol.10, No. 7, 1985, pp: 819-829.

S.A. Sulaiman and F.L. Inambao, “Development of a Thermal Energy Storage for the Integrated Solar Energy Project”, R & D Journal of the South African Institution of Mechanical Engineering, (© SAIMechE -All rights reserved), Vol-26, pp. 6-11, 2010.

A.A. El-Sebail, R. Dommanski, M. Jaworski, “Experimental and Theoretical Investigation of Box-Type Solar Cooker With Multi-Step Inner Reflectors”, Energy, Vol.19, 1994, pp. 1011–1021.

E.H. Amer E.H., “Theoretical and Experimental Assessment of A Double Exposure Solar Cooker”, Energy Convers Manage, Vol.44, No.16, 2003, pp. 2651–2663.

O.V. Ekechukwu, N.T. Ugwuoke, “Design and Measured Performance of a Plane Reflector Augmented Box-Type Solar Energy Cooker”, Renew Energy, Vol. 28, No.12, 2003, pp. 1935– 1952.

S.C. Mullick, T.C. Kandpal, S. Kumar, “Thermal Test Procedure for a Paraboloid Concentrator Solar Cooker”, Solar Energy, Vol.46, No.3, 1991, pp: 139–144.

A.V. Sonune, S.K. Philips, “Development of Domestic Concentrating Cooker”, Renew Energy, Vol-28, No.8, 2003, pp. 1225–1234.

D.I. Bushnell, M. Sohi M, “A Modular Phase Change Heat Exchanger for a Solar Oven”, Solar Energy, Vol.49, 1992, pp. 235– 244.

H. Suharta, K. Abdullah, A. Sayaigh, “The Solar Oven: Development and Field Testing of Users Made Designs in Indonesia”, Solar Energy, Vol. 64, No. 4/6, 1998, pp. 121–132.

S. Kumar, T.C. Kandpal, S.C. Mullick, “Solar Cooker Use in Delhi: Pilot Survey of Urban Households”, Int J Ambient Energy, Vol.18, No. 2, 1997, pp. 77–82.

Annual Report, Ministry of Non-Conventional Energy Sources (MNES), New Delhi: Government of India; 2003.

H.P.Garg and J.Prakash, “Solar Energy fundamentals and Applications”, Tata McGraw hill Publications, Revised Edition, 2008.

G.N. Tiwari, and Sunija Sangeeta, “Solar Thermal Engineering Systems”, New Delhi: Narosa Publishing House, 1997.

Renewable Energy, “Akshay Urja”, India, Vol. 4, No. 2 & 3, December 2010.

Nandwani, and S Shyam, “Teaching Concepts of Physics, I- Applied to Solar CookeRS”, Lab. de Energía Solar, Departamento de Física, Universidad Nacional, Heredia, Costa Rica, 2000.

Dincer and Y. A. Cengel, “Energy, Entropy and Exergy Concepts and Their Roles in Thermal Engineering”, Entropy, Vol.3, 2001, pp. 116-149.

R. Petela. “Exergy Analysis of the Solar Cylindrical-Parabolic Cooker”, Solar Energy, Vol.79, 2004, pp. 221-233.

Testing and Reporting Solar Cooker Performance, ASAE S580, Jan 2003.

B. Sahin, K. Yakut, I. Kotiioglu, and C. Celik, “Optimum Design Parameters of a Heat Exchanger”, Applied Energy, Vol. 82, 2005, pp. 90-106.

K. Yakut, N. Almendaroglu, B. Sahin, and C. Celik, “Optimum Design Parameters of a Heat Exchanger Having Hexagonal Fins”, Applied Energy, Vol. 83, 2006, pp. 82-98.

S. Win, R.P. Gakkhar, and S.C. Jain, “Bhattacharya M. Investigation of Diesel Engine Operating and Injection System Parameters for Low Noise, Emissions and Fuel Consumption Using Taguchi Methods”, Proc I Mech E, Part D, J Automob Eng, Vol. 219, 2005, pp. 1237-1251.

T. Ganapathy, K. Murugesan, R.P. Gakkhar, “Performance Optimization of Jatropha Biodiesel Engine Model Using Taguchi Approach, Applied Energy, Vol. 86, 2009, pp. 2476-2486.

D. Proctor, “A Generalized Method for Testing All Classes of Solar Collectors-I: Attainable Accuracy”, Solar Energy, Vol. 32, No. 3, 1984, pp. 377-386.

D. Proctor, “A Generalized Method for Testing all Classes of Solar Collectors : Evaluation Of Collector Thermal Constants”, Solar Energy, Vol. 32, No. 3, 1984, pp: 385-394.

E. Mathioulakis, K. Voropoulos and V. Belessiotis, “Assessment of Uncertainty in Solar Collector Modeling and Testing”, Solar Energy, Vol. 66, No. 5, 1999, pp. 337-347.

Subhra Das, Bibek Bandyopadhyay, and Samir Kr. Saha, “Sensitivity Analysis of The Test Parameters of a Solar Flat Plate Collector for Performance Studies”, Advances in Energy Research (AER), 2006, pp. 515-520.

Subodh Kumar, “Thermal Performance Study of Box Type Solar Cooker From Heating Characteristic Curves”, Energy Conversion and Management, Vol. 45, 2004, pp. 127-139.

Subodh Kumar, “Technical Note-Estimation of Design Parameters for Thermal Performance Evaluation of Box-Type Solar Cooker”, Renewable Energy, Vol. 30, 2005, pp. 1117-1126.

U.S. Mirdha, S.R. Dhariwal, “Technical Note- Design Optimization of Solar Cooker”, Renewable Energy, Vol. 33, 2008, pp. 530-544.

Hüseyin Kurt, Kemal Atik, Mehmet Özkaymak, Ziyaddin Recebli, “Thermal Performance Parameters Estimation of Hot Box Type Solar Cooker by Using Artificial Neural Network”, International Journal of Thermal Sciences, Vol. 47, 2008, pp. 192-200.

S.C. Mullick, T.C. Kandpal, A.K. Saxena, “Thermal Test Procedure for Box-Type Solar Cookers”, Solar Energy, 1987, Vol. 39, No. 4, pp. 353-60.

A. Saxena, “To Enhance The Thermal Efficiency (Cooking Performance) of a Solar Box Cooker With Analysis of Heat Curves”, M. Tech thesis (unpublished), UP Technical University, Lucknow, India, 2009.

Sabatelli, D. Maranno, G. Braccio, V. K. Sharma, “Efficiency Test of Solar Collectors: Uncertainty in the Estimation of Regression Parameters and Sensitivity Analysis”, Energy Conversion and Management, Vol. 43, 2002, pp. 2287-2295.

Ishan Purohit, Pallav Purohit, “Instrumentation Error Analysis of a Box-Type Solar Cooker”, Energy Conversion and Management, Vol.50, 2009, pp: 365-375.

Ishan Purohit , “Testing of Solar Cookers and Evaluation of Instrumentation Error”, Renewable Energy, 2010, pp. 1-12.

Geoff Beaumont, Time Eiloart, Paul Robinson, “Ultra Low Cost Solar Cookers: Design Details and Field Trials in Tanzania”, Renewable Energy, Vol. 10, No. 4, 1997, pp. 635-640.

M.A. Al-Saad, B.A. Jubran, “The Performance of a Low Cost Clay Solar Cooker”, Renewable Energy, Vol.1, No. 5/6, 1991, pp. 617-621.

Michael Grupp, Pierre Montagne, and Mathis Wackernagel, “A Novel Advanced Box-Type Solar Cooker”, Solar Energy, Vol. 47, No. 2, 1991, pp. 107-13.

Ranjit Roy, A Primer on the Taguchi Method, Van Nostrand Reinhold, USA, 1990.

G. Taguchi, “Taguchi on Robust Technology Development: Bringing Quality Engineering Upstream”, ASME Press, New York, 1993.

N. Kevin Otto, and K. Erik Antonsson, “Extensions to the Taguchi Method of Product Design”, ASME Journal of Mechanical Design, 1991.

Ross, P.J, Taguchi Techniques for Quality Engineering: Loss Function Orthogonal Experiments, Parameter and Tolerance Design, published by McGraw-Hill, New York, 1998.

S. Maghsoodloo, G. Ozdemir, V. Jordan, and C.H. Huang, “Strengths and limitations Taguchi’s Contributions to Quality, Manufacturing and Process Engineering”, J. Manufacturing Systems, Vol. 23, No.2, 2004, pp. 73-126.

Nazan Danacioglu and F.Zehra Muluk, “Taguchi Techniques for 2k Fractional Factorial ExperimentS”, Hacettepe Journal of Mathematics and Statistics, Vol. 34, 2005, pp. 83-93.

Li, Ming-Hsien Caleb and Al-Refaie, Abbas, “The alpha error of the Taguchi method with L16 array for the LTB Response Variable Using Simulation”, Journal of Statistical Computation and Simulation, Vol.79, No. 5, 2009, pp. 645-656.

P. Angelopoulos, and C. Koukouvinos, “Some Robust Parameter Designs from Orthogonal Arrays”, Journal of Applied Statistics, Vol. 35, No. 12, 2008, pp. 1399-1408.

Wei Chen, J.K.Allen, Kwok-Leung Tsui, F. Mistree, “A Procedure for Robust Design: Minimizing Variations Caused by Noise Factors and Control Factors”, Transactions of the ASME, Vol.118, 1996, pp. 478- 485.

K. Hafeez, H. Rowlands, G. Kanji and S. Iqbal, “Design Optimization Using ANOVA”, Journal of Applied Statistics, Vol. 29, No. 6, 2002, pp. 895-906.

Houcem Eddine Mechri, Alfonso Capozzoli, Vincenzo Corrado, “Use of the ANOVA Approach for Sensitive Building Energy Design”, Applied Energy, Vol. 87, 2010, pp. 3073-3083.

Issa Bass, Six Sigma Statistics with Excel and Minitab, McGraw- Hill Companies, United States of America, 2007.

D.C. Montgomery, Design and Analysis of Experiments, John Wiley & Sons, Inc., 2005, pp. 363-382.

Performance Estimation of a Solar Box Cooker by Approaching Taguchi Technique

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

Open Access

Abstracting and Indexing

Join as Reviewer

Make a Submission

Information