论文信息 - Effectiveness-ntu computation with a mathematical model for cross-flow heat exchangers

Effectiveness-ntu computation with a mathematical model for cross-flow heat exchangers

Abstract - Due to the wide range of design possibilities, simple manufactured, low maintenance and low cost, cross-flow heat exchangers are extensively used in the petroleum, petrochemical, air conditioning, food storage, and others industries. In this paper a mathematical model for cross-flow heat exchangers with complex flow arrangements for determining e-NTU relations is presented. The model is based on the tube element approach, according to which the heat exchanger outlet temperatures are obtained by discretizing the coil along the tube fluid path. In each cross section of the element, tube-side fluid temperature is assumed to be constant because the heat capacity rate ratio C*=C min /C max tends toward zero in the element. Thus temperature is controlled by effectiveness of a local element corresponding to an evaporator or a condenser-type element. The model is validated through comparison with theoretical algebraic relations for single-pass cross-flow arrangements with one or more rows. Very small relative errors are obtained showing the accuracy of the present model. e-NTU curves for several complex circuit arrangements are presented. The model developed represents a useful research tool for theoretical and experimental studies on heat exchangers performance.

Hélio Aparecido Navarro | Luben Cabezas-Gómez | H. A. Navarro | L. Cabezas-Gómez

[1] Pradeep Bansal,et al. An NTU-ε model for alternative refrigerants , 1998 .

[2] P. L. Dhar,et al. A new procedure for performance prediction of air conditioning coils , 1998 .

[3] Chi-Chuan Wang,et al. Heat transfer and friction correlation for compact louvered fin-and-tube heat exchangers , 1999 .

[4] Piotr A. Domanski,et al. Simulation of an Evaporator with Nonuniform One-Dimensional Air Distribution | NIST , 1991 .

[5] Frank P. Incropera,et al. Fundamentals of Heat and Mass Transfer , 1981 .

[6] A. London,et al. Compact heat exchangers , 1960 .

[7] Hélio Aparecido Navarro,et al. A new approach for thermal performance calculation of cross-flow heat exchangers , 2005 .

[8] S. Borg,et al. CYRANO: a computational model for the detailed design of plate-fin-and-tube heat exchangers using pure and mixed refrigerants , 1997 .

[9] José M. Corberán,et al. Modelling of plate finned tube evaporators and condensers working with R134A , 1998 .

[10] Chi-Chuan Wang,et al. Data reduction for air-side performance of fin-and-tube heat exchangers , 2000 .

[11] Chi-Chuan Wang,et al. An investigation of the airside performance of the slit fin-and-tube heat exchangers. , 1999 .

[12] Jiin-Yuh Jang,et al. The thermal-hydraulic characteristics of staggered circular finned-tube heat exchangers under dry and dehumidifying conditions , 1998 .