Title: TEMPERATURE VARIATION IN INSULATED MATERIALS
Authors: Taiwo Oluwasesan Oni, Samson Ibukun Odunola, Joseph Odolomerun,
Stanley Chinonso Obisirike
Taiwo Oluwasesan Oni, Samson Ibukun Odunola, Joseph Odolomerun,
Stanley Chinonso Obisirike Department of Mechanical Engineering, Ekiti State University
P. M. B. 5363, Ado-Ekiti, Nigeria
MLA 8 Oni, Taiwo Oluwasesan, et al. "TEMPERATURE VARIATION IN INSULATED MATERIALS." IJETSI, vol. 3, no. 2, Mar.-Apr. 2018, pp. 122-130, ijetsi.org/more2018.php?id=10. Accessed 2018.
APA Oni, T., Odunola, S., Odolomerun, J., & Obisirike, S. (2018, March/April). TEMPERATURE VARIATION IN INSULATED MATERIALS. IJETSI, 3(2), 122-130. Retrieved from ijetsi.org/more2018.php?id=10
Chicago Oni, Taiwo Oluwasesan, Samson Ibukun Odunola, Joseph Odolomerun, and Stanley Chinonso Obisirike. "TEMPERATURE VARIATION IN INSULATED MATERIALS." IJETSI 3, no. 2 (March/April 2018), 122-130. Accessed , 2018. ijetsi.org/more2018.php?id=10.
. J. P. Holman, Heat Transfer, 10th ed.,
McGraw-Hill, New York, 2009.
. T. O. Oni, M. C. Paul, Numerical
Investigation of Heat Transfer and Fluid
Flow of Water through a Circular Tube
Induced with Divers' Tape Inserts, Applied
Therm. Eng. 98 (2016) 157-168.
. A. Aziz, Conduction Heat Transfer, in:
Bejan, A. and A. D. Kraus (Eds.), Heat
Transfer Handbook, John Wiley and Sons,
Inc., New Jersey, 2003, pp. 161-260.
. Y. A. Cengel, Heat Transfer - a Practical
Approach, 2nd ed., McGraw-Hill Co. Inc.,
New York, 2003.
. F. P. Incropera, D. P. Dewitt, T. L.
Bergman, A. S. Lavine, Fundermentals of
Heat and Mass Transfer, 6th ed., John Wiley
and sons, USA, 2007.
Abstract: In this work, the variations in temperature of insulated materials were examined. A steel-made material without insulation and another four sets of steel-made material with cement mortalmade insulation of thickness (sigma) of 10mm?sigma?40mm were used as samples. A highest value of 493K and 453K were obtained as the initial temperature and exit temperature, respectively, in the uninsulated sample, but a lowest value of 405K and 340K were obtained as the initial temperature and exit temperature, respectively, in the sample with insulation thickness of 40mm. Furthermore, the sample with insulation thickness of 40mm yielded the maximum value of temperature difference, being 76K, whereas the sample without insulation yielded a minimum value of 37K as temperature difference.
The International Journal of Engineering Technology and Scientific Innovation Inviting Papers/Articles for Current Issue Volume 3 Issue 4 September-October 2018.
Submit your Paper through Online Submission System. Authors also can Send Paper to email@example.com ....... Impact Factor for IJETSI is 2.512