Study of Heat and Mass Transfer Effectiveness During Cooling of Circulating Water in Evaporation Section of Three-Flow Cooling Tower

2022 ◽  
pp. 224-230
Author(s):  
I. Madyshev ◽  
V. Kharkov ◽  
I. Sannikov
Keyword(s):  
Mass Transfer ◽  
Heat And Mass Transfer ◽  
Cooling Tower ◽  
Circulating Water

scholarly journals ANALYSIS OF HEAT AND MASS TRANSFER ON COOLING TOWER FILL

2020 ◽  
Vol 14 (1) ◽  
pp. 25
Author(s):  
Abdul Aziz Rohman Hakim ◽  
Engkos Achmad Kosasih
Keyword(s):  
Heat Transfer ◽  
Mass Transfer ◽  
Relative Humidity ◽  
Heat And Mass Transfer ◽  
Cooling Tower ◽  
Stream Velocity ◽  
Design Data ◽  
Analogy Method ◽  
Ambient Relative Humidity ◽  
Air Stream

This paper discusses heat and mass transfer in cooling tower fill. In this research, dry bulb temperature at the bottom fill, ambient relative humidity, air stream velocity entering fill, dry bulb temperature leaving the fill, relative humidity of air leaving the fill, inlet and outlet water temperature of cooling tower were measured. Those data used in heat and mass transfer calculation in cooling tower fill. Then, do the heat and mass transfer calculation based on proposed approch. The results are compared with design data. The design and analogy method showed different  result. The parameter which influence the heat transfer at cooling tower are represented by coefficient of heat transfer hl and coefficient of mass transfer k­l. The differencies result between design and analogy method shows that there is important parameter which different. Deeply study needed for it.

AERODYNAMICS OF CERAMIC REGULAR SEDIMENTATION FOR HEAT AND MASS TRANSFER APPARATUSES OF ENVIRONMENTAL PROTECTION/KERAMINIŲ REGULIARIŲ ANTGALIŲ AERODINAMIKA ŠILUMOS IR MASĖS PERNAŠOS PROCESAMS APLINKOS APSAUGOS ĮRENGINIUOSE VYKDYTI/ АЭРОДИНАМИКА КЕРАМИЧЕСКИХ РЕГУЛЯРНЫХ НАСАДОК ДЛЯ ТЕПЛОМАССООБМЕННЫХ ПРОЦЕССОВ В АППАРАТАХ ЗАЩИТЫ ОКРУЖАЮЩЕЙ СРЕДЫ

2008 ◽  
Vol 16 (1) ◽  
pp. 30-37 ◽  
Author(s):  
Aleksandr Pushnov ◽  
Algirdas Sakalauskas
Keyword(s):  
Mass Transfer ◽  
Environmental Protection ◽  
Heat And Mass Transfer ◽  
Cooling Tower ◽  
Ceramic Foam ◽  
Test Facility ◽  
Test Results ◽  
Aerodynamic Test ◽  
Processing Techniques ◽  
Aerodynamic Investigation

A new efficient ceramic regular sedimentation for heat and mass transfer in apparatuses of environmental protection is proposed. A new sedimentation realization with isotropic properties of a structure is offered. The aerodynamic test results of the new sedimentation are shown. The paper describes a laboratory test facility designed for conducting aerodynamic investigation of cooling tower sedimentation. Measured parameters, data processing techniques and examples of the results obtained are discussed. The tested sedimentation is a porous layer of ceramic foam manufactured by special technology. Santrauka Siūloma nauja keraminių reguliarių antgalių dinamika šilumos ir masės pernašos procesams aplinkos apsaugos įrenginiuose vykdyti. Siūlomas antgalis leis realizuoti poringojo sluoksnio izotopinę struktūrą. Pateikti naujo antgalio aerodinaminių bandymų rezultatai. Резюме Предложена новая эффективная керамическая регулярная насадка для осуществления процессов тепло- и массообмена в аппаратах газоочистки. Предлагаемая насадка позволяет реализовать изотропную структуру зернистого слоя. Приведены результаты аэродинамических испытаний новой насадки.

scholarly journals New explicit analytical solutions of equations for heat and mass transfer in a cooling tower energy system

2019 ◽  
Vol 11 (12) ◽  
pp. 168781401989614
Author(s):  
Qianjian Guo ◽  
Xiaoni Qi ◽  
Peng Sun ◽  
Pengjiang Guo
Keyword(s):  
Mass Transfer ◽  
Heat And Mass Transfer ◽  
Analytical Solutions ◽  
Cooling Tower ◽  
Mass Transfer Process ◽  
Energy System ◽  
Transfer Model ◽  
Elementary Functions ◽  
Solutions Of Equations ◽  
The One

The aim of this article is to develop an accurate and fast analytical method for heat and mass transfer model in a cooling tower energy system. Some algebraic explicit analytical solutions of the one-dimensional differential equation sets describing the coupled heat and mass transfer process in a cooling tower are derived. The explicit solutions have not yet been published before. The explicit equations of heat and mass transfer are expressed in elementary functions. By solving these differential equations in a cooling tower, the temperature distribution of liquid and gas, the moisture content in the air can be obtained in each section over the vertical height of the tower. A comparison of analytical and experimental results was given in this article, and good agreements were shown for the typical cases studied. The analytical solutions can serve as a benchmark to check the results of numerical calculation.

scholarly journals The use of non-metal materials in the filler units of cooling towers with circulating water supply system

2020 ◽  
Vol 315 ◽  
pp. 03002 ◽  
Author(s):  
Andrey V. Dmitriev ◽  
Ilnur N. Madyshev ◽  
Aliya I. Khafizova
Keyword(s):  
Mass Transfer ◽  
Heat Mass Transfer ◽  
Cooling Tower ◽  
Experimental Studies ◽  
Transfer Efficiency ◽  
Efficiency Coefficient ◽  
Gas Phases ◽  
Circulating Water ◽  
Mass Transfer Efficiency ◽  
Metal Materials

The design of cooling tower`s filler unit, consisting of inclined-corrugated contact elements, and made of polymer material, is developed and described in this research paper. The experimental studies were conducted to determine the efficiency of cooling the circulating water in the proposed cooling tower. The authors obtained the results of evaluating the heat-mass transfer efficiency coefficient of cooling tower, when changing the mass flow rates of liquid and gas phases. The research results showed that the highest efficiency of cooling the circulating water is observed at relatively low irrigation densities equal to 15-25 m3/(m2·h), while the heat-mass transfer efficiency of cooling tower achieves 72%.The use of non-metal materials as the main elements of cooling tower allows to abandon the use of chemical reagents against bacteria and microorganisms in favor of circulating water ozonation method.

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