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Research Journal of Applied Sciences, Engineering and Technology

Abstract


2012(Vol.4, Issue:10)

Article Information: Experimental Layout for Investigating Temperature Dependednce of the Vibration Plane Rotation in Some Identified Mineral and Vegetable Oils Eric Mucunguzi-Rugwebe, E.A. Hammer and Y. Kaahwa Corresponding Author: Eric Mucunguzi-Rugwebe Submitted: January 11, 2011 Accepted: September 25, 2011 Published: May 15, 2012
Abstract:
This study presents results of a recent study done in Norway from Bergen University, to determine temperature dependence of linear birefringence in mineral oil and linear and induced birefringence in vegetable oils. The study was done between the temperature range of 6 and 45ºC in magnetic field up to 140 mT. It found the intrinsic birefringences responsible for optical activity in vegetable oils with impurities and all mineral oils. The results of optical activity in both oils obeyed the equation f = A + a_w (1) where a_w is the angle at which minimum irradiance I_min occurs in water and other substances which are optically inactive. Heavy oils like red diesel, Esso diesel and Fina diesel No. 2 rotate more the vibration plane and they possess more intrinsic birefringences than light diesel. The research team found that the temperature effect on rotation in both mineral and vegetable oils with impurities, yielded results that obeyed the equation f₁ = A - bT (3) where b is positive. In vegetable oils for human consumption, application of magnetic field causes induced birefringences responsible for f given by f₂ = VHL + a_w (4) where V is Verdet’s constant in rad T^-1m^-1 and H is the magnetic field intensity in Am-1. Also the temperature dependence on rotation in vegetable oils free from impurities obeyed the relationship given by equation = VHL–bT (5). This method can be used to determine the level of refinement of mineral and vegetable oils. Key words: Birefringences, irradiance, optical activity, vegetable oils, vibration plane, ,
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Cite this Reference: Eric Mucunguzi-Rugwebe, E.A. Hammer and Y. Kaahwa, . Experimental Layout for Investigating Temperature Dependednce of the Vibration Plane Rotation in Some Identified Mineral and Vegetable Oils. Research Journal of Applied Sciences, Engineering and Technology, (10): 1225-1229.

ISSN (Online): 2040-7467
ISSN (Print): 2040-7459

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