Experimental Analysis of the Pool Boiling Phenomenon of Sugarcane Juice-Reference-Cited by-同舟云学术

Experimental Analysis of the Pool Boiling Phenomenon of Sugarcane Juice

Published:2015-09 Issue: Volume:789-790 Page:489-495
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Marcelo Daniel¹,Yacila Paul Villar¹,La Madrid Olivares Raúl¹

Affiliation:

1. Universidad de Piura

Abstract

In Peru, jaggery making process has low energy efficiency and it is due to low heat transfer coefficients for natural convection linked to the sugar cane movement generated by the heat exchange between the sugarcane juice and the combustion gases. This low heat transfer coefficients are caused by improper heat exchangers designs. In this work, is performed an experimental analysis that consist in supplie heat to a pot containing sugarcane juice using a hot plate of constant electrical power. This study consist in identify boiling regimes and estimate the heat transfer coefficients linked to natural convection boiling, measuring: (i) the temperature at the bottom of the pot (ii) the temperature at the bottom level of sugarcane juice (iii) the temperature at middle level of sugarcane juice (iv) the temperature at free surface of sugarcane juice (v) rate of water evaporated. The method of linear regression and the correlation of Rohsenow were used for obtaining the values of the heat transfer coefficients ranging from 4088.6 W/m2°C to 12592.8 W/m2°C with power input ranging from 700W to 1300W.

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.789-790.489.pdf

Reference15 articles.

1. Md. Saimon Islam, Khadija TaslimaHaque. Shuman Chandra Saha, An experimental investigation of pool boiling at atmospheric pressure, Journal of Science and Technology vol 6, pp.80-85, 2011. Daffodil International University – Bangladesh.

2. I. L. Pioro, Experimental evaluation of constants for the Rohsenow pool boiling correlation, International Journal of Heat and Mass Transfer 42, p.2003-(2013).

3. M. Kumar, K.S. Kasana, S. Kumar, O. Prakash, Experimental evaluation of constants for the Rohsenow pool boiling correlation for khoa, Journal of Physical Sciences, Engineering and Technology vol. 2, pp.21-26, (2011).

4. G. N. Tiwari, O. Prakash, S. Kumar, Evaluation of convective heat and mass transfer for pool boiling of sugarcane juice, Energy and Management vol. 45, pp.171-179, (2004).

5. P. K. Arya, S. Kumar, U. K. Jaiswal, Design based improvement in a three pan Jaggerymaking plant for rural India, International Journal of Engineering Research vol. 2, pp.264-268, (2013).

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