The effect of column height and width of annulus on the separation of liquids by thermal diffusion

Liberman, David S.

January 1948

M.S.

LD5655.V855 1948.L523

Diffusion

Packed towers

Separation (Technology)

Comparative investigation of copper knit-metal cloth and Raschig rings as absorption tower packings

Switzer, William Owen

January 1938

Gas absorption may be defined as the transfer from a gas to a liquid of one or more components of a gaseous mixture by means of solution in a liquid. This is accomplished by bringing the two phases together, with a large amount of interfacial surface, in an economical manner for commercial use. Much is lacking in knowledge of the theory of gas absorption. This lack of knowledge and the wide variety of purposes and specifications have caused many types of absorption equipment to be designed, built and used. The objective in all causes has been to increase the surface of contact between the gas and the liquid at low installation cost and with low operating costs. The most common type of absorption equipment is the packed tower. It consists, essentially, of a vertical shell filled with an inert packing material. Absorption is accomplished by countercurrent operation, the solvent being allowed to trickle down over the packing material while the gas passes up through the wetted packing. The tower packing is the fundamental consideration in improving the efficiency of the equipment. A packing material should have a low resistance to gas flow so as to give low maintenance costs, a high absorption capacity and low costs of installation. In any case, the packing that most completely fills the requirements should be used. It is the purpose of this investigation to make a study of the characteristics of operation of copper knit-metal cloth, in comparison to Raschig rings, when used absorption tower packings. / Master of Science

LD5655.V855 1938.S947

Copper -- Absorption and adsorption

Packed towers

Estudo do processo de absorção de CO2 em soluções de aminas empregando-se coluna recheada. / Study of CO2 process absorption into aqueous alkanolamines in packed tower.

Mello, Lilian Cardoso de

06 August 2013

Objetivo deste trabalho foi o de caracterizar e estudar o processo de transferência de massa da absorção de CO2 em soluções aquosas de aminas em coluna recheada operando em pressão atmosférica. Com este objetivo, construíram-se dois equipamentos, sendo um constituído de coluna em escala laboratório com recheio estruturado e outro de uma coluna em escala piloto com recheio randômico. Empregou-se a absorção de CO2, diluído em ar, em solução de NaOH, para a determinação da área interfacial efetiva. Os coeficientes globais de transferência de massa foram determinados para a absorção de CO2, diluído em ar, em diferentes soluções aquosas absorvedoras a base de aminas, a saber: 25% em massa de MEA, MEA-MDEA nas concentrações mássicas 5% MDEA 25% MEA, 10% MDEA 20% MEA e 15% MDEA 15% MEA. Constatou-se uma forte correlação entre a proporção da solução MDEA-MEA e o coeficiente global de transferência de massa. O planejamento dos ensaios em coluna piloto foi realizado com o emprego de simulador de processos, para a verificação hidrodinâmica da coluna e especificação das vazões de gás e de solução absorvente. Compararam-se, também, os resultados obtidos experimentalmente com os previstos pela simulação, no caso da absorção em MEA. / The aim of the present work was to characterize and study the mass transfer process of the CO2 absorption into single and blended alkanolamines in a packed column under atmospheric pressure. For this purpose, two systems were built, one of the columns is a laboratory structure packed column and the other is a pilot random packed column. The absorption of CO2 into NaOH was performed to determine the effective mass-transfer area and the overall mass-transfer coefficient. The absorption performance was evaluated in terms of the overall mass-transfer coefficient for the absorption of CO2 in air into single and blended alkanolamines: MEA 25% wt, and MEA-MDEA mixtures, MEA-MDEA (25% /5% wt), MEA-MDEA (20% /10% wt) and MEA-MDEA (15% /15% wt). The CO2 absorption performance of MEA-MDEA mixture has a high correlation with the proportion MEA-MDEA. Experimental series were designed employing a process simulator for the hydrodynamic checking and determination of gas and liq flow rates. Comparison of the experimental data and simulation results was made for the absorption into MEA.

Absorção de CO2

Alkanolamine solutions

CO2 absorption

Colunas recheadas

Mass transfer with chemical reaction

Packed towers

Soluções de aminas

Estudo do processo de absorção de CO2 em soluções de aminas empregando-se coluna recheada. / Study of CO2 process absorption into aqueous alkanolamines in packed tower.

Lilian Cardoso de Mello

06 August 2013

Objetivo deste trabalho foi o de caracterizar e estudar o processo de transferência de massa da absorção de CO2 em soluções aquosas de aminas em coluna recheada operando em pressão atmosférica. Com este objetivo, construíram-se dois equipamentos, sendo um constituído de coluna em escala laboratório com recheio estruturado e outro de uma coluna em escala piloto com recheio randômico. Empregou-se a absorção de CO2, diluído em ar, em solução de NaOH, para a determinação da área interfacial efetiva. Os coeficientes globais de transferência de massa foram determinados para a absorção de CO2, diluído em ar, em diferentes soluções aquosas absorvedoras a base de aminas, a saber: 25% em massa de MEA, MEA-MDEA nas concentrações mássicas 5% MDEA 25% MEA, 10% MDEA 20% MEA e 15% MDEA 15% MEA. Constatou-se uma forte correlação entre a proporção da solução MDEA-MEA e o coeficiente global de transferência de massa. O planejamento dos ensaios em coluna piloto foi realizado com o emprego de simulador de processos, para a verificação hidrodinâmica da coluna e especificação das vazões de gás e de solução absorvente. Compararam-se, também, os resultados obtidos experimentalmente com os previstos pela simulação, no caso da absorção em MEA. / The aim of the present work was to characterize and study the mass transfer process of the CO2 absorption into single and blended alkanolamines in a packed column under atmospheric pressure. For this purpose, two systems were built, one of the columns is a laboratory structure packed column and the other is a pilot random packed column. The absorption of CO2 into NaOH was performed to determine the effective mass-transfer area and the overall mass-transfer coefficient. The absorption performance was evaluated in terms of the overall mass-transfer coefficient for the absorption of CO2 in air into single and blended alkanolamines: MEA 25% wt, and MEA-MDEA mixtures, MEA-MDEA (25% /5% wt), MEA-MDEA (20% /10% wt) and MEA-MDEA (15% /15% wt). The CO2 absorption performance of MEA-MDEA mixture has a high correlation with the proportion MEA-MDEA. Experimental series were designed employing a process simulator for the hydrodynamic checking and determination of gas and liq flow rates. Comparison of the experimental data and simulation results was made for the absorption into MEA.

Absorção de CO2

Colunas recheadas

Soluções de aminas

Alkanolamine solutions

CO2 absorption

Mass transfer with chemical reaction

Packed towers