Leakages are inherently associated with the heat transfer process in a rotary heat exchanger, owing to clearances brought about by construction difficulties and rotor-housing thermal distortions. The method proposed permits one to evaluate leakage distributions within steam boiler rotary regenerators. In principle, the method is based on a gas flow diagram of the regenerator, where gas streams are arranged into a network in which the corresponding mass flow rates are governed by pressure drops in the seals and matrix rotation. Moreover, energy and mass balances are taken into account where appropriate. On this basis, a nonlinear equation system modeling gas flows within the rotary regenerator is derived. Supplementing this system with data determined experimentally, one obtains a closed form of the gas flow problem, the solution of which gives particular gas mass flow rates within the regenerator and the leakage distribution resulting from it. On the basis of experiments carried out on real devices, the a...
[1]
T. Skiepko,et al.
Effect of reduction in seal clearances on leakages in a rotary heat exchanger
,
1989
.
[2]
T. Skiepko,et al.
Some Essential Principles for Adjustment of Seal Clearances in Rotary Regenerators
,
1993
.
[3]
M. DuffEJ,et al.
ユングストローム型空気予熱器の設計と運動 I シールと漏えい
,
1976
.
[4]
William H. Press,et al.
Numerical recipes
,
1990
.
[5]
Y. Çengel,et al.
Thermodynamics : An Engineering Approach
,
1989
.
[6]
Irreversibilities associated with a rotary regenerator and the efficiency of a steam power plant
,
1990
.
[7]
R. Shah,et al.
Compact Heat Exchangers
,
1990
.