A Study of the Temperature Gradients of Gases Flowing Through Heated Porous Metal

Authors: O'Meara, Donald John; Andrews, Clyde Cecil

Year: 1947

Degree: Engineer's thesis

Advisor: Duwez, Pol E.

Committee Member: Unknown, Unknown

Option: Aeronautics

DOI: 10.7907/WNFK-V169

Abstract

Nitrogen and Hydrogen were passed through a pack of heated porous metal discs to obtain temperature distribution as a function of (1) mass flows and (2) temperatures at which metal was heated. An effort was made to obtain heat transfer per unit volume of porous metal as a function of (1) mass flows and (2) temperatures at which the metal was heated. By varying inlet gas pressures at various metal temperatures the effect of temperature on pressure drop was determined.

The results show that a cool gas flowing through a heated porous metal very quickly assumes the temperature of the metal. Heat transfer appears to increase linearly with mass flow up to a certain point above which the results were inconclusive. The variation of mass flow with pressure drop was determined to be linear for low pressure drop and to increase at a greater rate for higher pressure drops.

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• O'Meara_dj_1947.pdf (application/pdf)