Abstract
This paper gives an updated review of the bubble column evaporator (BCE) and its various new processes. These include recent work on helium gas desalination and high temperature inlet gas decomposition. The BCE process offers a continuously produced source of high gas-water interface and consequently provides high overall heat and mass transfer coefficients. Very different results have been obtained using nitrogen, oxygen, carbon dioxide and helium inlet gases. Although the bubbling process itself is both simple to use and apply, our understanding of the fundamental physical and chemical principles involved is surprisingly limited and there are many issues yet to be explained. Recently the process has been used to develop new methods for the precise determination of enthalpies of vaporisation of concentrated salt solutions, as an evaporative cooling system, a sub-boiling thermal desalination unit, for sub-boiling thermal sterilization, for low temperature thermal decomposition of different solutes in aqueous solution and for the inhibition of particle precipitation in supersaturated solutions. These novel applications can be very useful in many industrial practices, such as desalination, water/wastewater treatment, thermolysis of ammonium bicarbonate (NH4HCO3) for the regeneration in forward osmosis and refrigeration related industries. The background theories and models use to explain the BCE process are also reviewed and this fundamental knowledge is applied to the design of BCE systems and to explain recently explored applications, as well as potential improvements. Many other prospective applications of the BCE process are also reported in this paper.
Highlights
TO THE BUBBLE COLUMN EVAPORATOR (BCE)Double, double toil and trouble; Fire burn: and, cauldron, bubble
Advantages of bubble columns, using direct-contact heat transfer, compared to other multiphase reactors are several: (a) less maintenance required due to the absence of moving parts, (b) higher effective interfacial areas and overall mass transfer coefficients can be achieved, (c) higher heat transfer rates per unit volume of the reactors can be attained, (d) solids can be handled without any erosion or plugging problems, (e) less floor space is occupied and bubble column reactors are less costly, (f) slow reactions can be carried out due to high liquid residence time,[6] and (g) the product can be recovered from the reaction mixture without additional separation operations.[1]
Consideration of the steady state thermal energy balance within a bubble column evaporator (BCE), containing salt solutions can be used to explain the process whereby the heat supplied from the entering warm bubbles is balanced by the heat required for vaporisation, to reach the equilibrium water vapour pressure within these bubbles
Summary
Double toil and trouble; Fire burn: and, cauldron, bubble. The three witches of Shakespeare’s play McBeth: Act 1V, Scene 1 (1606) seem to be the first to have used hot bubble columns effectively. Advantages of bubble columns, using direct-contact heat transfer, compared to other multiphase reactors are several: (a) less maintenance required due to the absence of moving parts, (b) higher effective interfacial areas and overall mass transfer coefficients can be achieved, (c) higher heat transfer rates per unit volume of the reactors can be attained, (d) solids can be handled without any erosion or plugging problems, (e) less floor space is occupied and bubble column reactors are less costly, (f) slow reactions can be carried out due to high liquid residence time,[6] and (g) the product can be recovered from the reaction mixture without additional separation operations.[1] and a glaringly obvious technology still to be exploited, high temperature reactions can be carried out at the surface of bubbles whilst maintaining a relatively low temperature in the liquid column
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