An Investigation of Heat Transfer Performance in an Agitated Vessel

Maha Mahir,Anas El Maakoul,Mohamed Bakhouya,Ismail Khay,Said Saadeddine

doi:10.3390/pr9030468

Maha Mahir, Anas El Maakoul + Show 3 more

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https://doi.org/10.3390/pr9030468

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Abstract

Agitated vessels (or mechanically stirred reactors) are heat exchange devices that are most widely used in many chemical and biochemical process industries, such as anaerobic digestion process. The mixing and heat transfer performances in these vessels are of crucial importance for increasing the energy efficiency in both batch and continuous processes. In this paper, a series of experiments were conducted to investigate heat transfer performance in agitated vessels for various configurations. In fact, this study examines the effects of heat transfer geometry (wall jacket and helical coils), heating power, and stirring speed, on the heating performance of two stirred fluids—water alone and a mixture of water and food waste. The experiments were conducted using a jacketed insulation tank with a helical coil and a propeller agitator. In each experiment, a transient method, based on measuring the temperature dependency on time, and solving the unsteady enthalpy balance, was used to determine the overall heat transfer coefficients between the agitated fluid and the heating surface. Finally, an extensive analysis of the reduced data was conducted based on temperature, heating time, heat transfer rate, heat transfer coefficient, and thermal resistance. The main finding was that the presence of food waste in agitated vessels reduces the heat rate of the agitated fluid with an average of 18.13% and 49.51%, respectively, for the case of JHX and CHX, and creates additional fouling, which further limits the heat transfer.

Highlights

The parameters considered in this study were mainly the flow rate of the fluid circulating in the heat exchanger, the speed of agitation, the type of fluid to be agitated, and the type of exchanger
Mixture were measured using the transient method, especially when the stirred liquid was heated by water passing through the coiled and jacketed heat exchangers
It was due to the adhesion of certain particles of food waste on the surface of the heat transfer, and on the other hand, it was due to low turbulence in the medium, which led to poor heat transfer

Summary

Introduction

Heat transfer represents one of the main operations that occur in bioreactors (i.e., agitated reactors) and could affect the anaerobic digestion (AD) process. This latter is a sequence of biological processes, in which microorganisms degrade the organic matter in the absence of oxygen (anaerobic). This process allows recovering energy in the form of biogas (a mixture of methane and carbon dioxide). This process is mainly affected by the temperature and the mixing mode. Continuously stirred tank reactor (CSTR) remains the most used type of bioreactors in the AD process [1,3,4]

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