Study the Effect of the Flow on the Performance of a shell and Tube Type Heat Exchanger Using Experimental Design Technique

In the current research an experimental study was done to show the effect of pulse flow on the effectiveness of shell and tube type heat exchanger. the study was in the case of steady and pulse flows with a changing mass flow rate of hot water flowing inside the pipes of the heat exchanger for the r...

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Bibliographic Details
Main Authors: Zuher H. Abdullah, Saad S. Farhan, Thamer K. Salem
Format: Article
Language:English
Published: Tikrit University 2016-06-01
Series:Tikrit Journal of Engineering Sciences
Subjects:
Online Access:http://tj-es.com/vol23no2pa5/
Description
Summary:In the current research an experimental study was done to show the effect of pulse flow on the effectiveness of shell and tube type heat exchanger. the study was in the case of steady and pulse flows with a changing mass flow rate of hot water flowing inside the pipes of the heat exchanger for the range between (0.0273-0.0819 kg / s) at fix mass flow rate of cold water that flows through the shell and on the outer surface of the pipes when (0.0416 kg / s), to obtain pulsing a used was solenoid valve. The research aims to measure the percentage effect of independent factors which were presenting the mass flow rate of hot water, flow type and the surrounding environment conditions of the experimental side upon shell and tube type heat exchanger performance using experimental design technique at the significant level (0.05).The results derived from the experimental tests showed that pulse flow leads to increase internal heat transfer coefficient (hi) comparing with its value in the steady flow and the highest increase was by (9.75%) at a mass flow rate of hot water (0.0416 kg / s) and increases the overall heat transfer coefficient (U), where the highest percentage was by )4.68%) at a mass flow rate of hot water (0.0416kg/s). The results also showed increasing both the number of transmitted units (NTU) and the effectiveness of the shell and tube type heat exchanger () in the case of pulse flow of its value in the steady flow and the highest percentage of increase occurring was (4.75%) and (1.85%), respectively, and at the mass flow rate of hot water (0.0416 kg / s). Percentage effect of mass flow rate of hot water was (97%, 97.42%, 95.5%, 99.48%) and the percentage effect of each flow type and the errors were (2.8%, 2.25%, 2.44%, 0.4%) and (0. 2, 0.33%, 2.06%, 0.12) respectively.
ISSN:1813-162X