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*Listed alphabetically by solute. **For example, monoethanolamine and diethanolamine. ***In addtion to dissolution (physical absorption), there is also the potential for chemical absorption by the occurrence of the reversible reaction: SO2 + H2O ↔ H2SO3

      Absorption is the process by which a gas is distributed throughout an absorbent (liquid); depends only on physical solubility and may include chemical reactions in the liquid phase (chemisorption). The process is generally used to separate a higher-boiling constituent from other components of a system of vapors and gases. The absorption medium is usually an oil in the range of gas oil. Absorption is widely employed in the gas clearing (gads processing) industry for recovery or removal of constituents from natural gas stream and from cured oil refinery streams of natural gasoline from well gas and of vapors given off by storage tanks. The reverse of this, i.e., the transfer of the absorbed constituents (the stripping process) is accomplished by contacting the absorbent (liquid or solid) liquid with an inert gas such as nitrogen or steam. With aqueous waste streams the stripping gas is usually air.

      Scrubbing is primarily concerned with the removal of particulate liquids or solids from gas streams by contacting the gas with a liquid scrubbing medium. That is, the particles are scrubbed out of the gas. However, if the gas also contains some soluble gaseous components, they can dissolve in the scrubber solution. Thus, the scrubber may also be an absorber, just as an absorber may also be a scrubber if the feed contains particulate matter as well as soluble components. Absorption and scrubbing are commonly used separation processes for preventing air pollution from industrial exhaust or stack gases. Stripping is used for both prevention of water pollution by treatment of wastewaters to remove soluble toxic gases and remediation of contaminated water at already existing hazardous waste sites.

Adsorption Absorption
Definition Accumulation at the surface the solid or liquid Accumulation in the bulk of solid or liquid
Characteristic A surface phenomenon A bulk phenomenon
Concentration Different at surface to bulk Same throughout
Reaction rate Increases to equilibrium Occurs at a uniform rate
Reaction type Exothermic process Endothermic process
Temperature Unaffected by temperature Not affected by temperature

      Chemical adsorption processes adsorb sulfur dioxide onto a carbon surface where it is oxidized (by oxygen in the flue gas) and absorbs moisture to give sulfuric acid impregnated into and on the adsorbent.

      Liquid absorption processes (which usually employ temperatures below 50°C (120°F) are classified either as physical solvent processes or chemical solvent processes. The former processes employ an organic solvent, and low temperatures, or high pressure, or both enhance absorption; regeneration of the solvent is often accomplished readily. In chemical solvent processes, absorption of the acid gases is achieved mainly by use of alkaline solutions such as amines or carbonates. Regeneration (desorption) can be achieved by the use of reduced pressures and/or high temperatures, whereby the acid gases are stripped from the solvent.

      If absorption is a physical process not accompanied by any other physical or chemical process, it usually follows the Nernst partition law in which the ratio of concentrations of solute species in two bulk phases in contact is constant for a given solute and bulk phases, i.e.:

      The value of constant KN, the partition coefficient, is dependent upon temperature and the value is valid if concentrations are not too large and if the species x does not change its chemical or physical form in either phase-1 or phase-2.

      In the case of gas absorption, the concentration a solute (c) in one of the phases can be calculated using the Ideal gas law (e.g., c = p/RT. Alternatively, partial pressure may be used instead of concentration.

      The absorption oil has an affinity for the natural gasoline constituents. As the gas stream is passed through an absorption tower, it is brought into contact with the (lean) absorption oil which soaks up a high proportion of the liquid hydrocarbons. The rich absorption oil now containing the hydrocarbons exits the absorption tower through the base after which it is fed into lean oil stills, where the mixture is heated to a temperature above the boiling point of the absorbed hydrocarbons but below that of the oil. This process allows for the recovery of approximately 75% v/v of butanes, and 85 to 90% v/v percent of pentanes and higher boiling hydrocarbons from the stream.

      The process above can be modified to improve its effectiveness, or to target the extraction of specific hydrocarbons. In the refrigerated oil absorption method, where the lean oil is cooled through refrigeration, propane recovery can be upwards of 90% v/v and around 40% v/v of any of ethane present in the gas stream. Extraction of higher molecular weight hydrocarbons approaches 100% v/v using this process.

      See also: Adsorption, Gas Cleaning, Gas Processing, Gas Treating.

      Absorption Cleaning

      The process involves a mass transfer of the component of the gas from the gas phase to the liquid phase in which the solute so transferred is absorbed by the liquid. In gas desorption (also known as stripping), the mass transfer is in the opposite direction, i.e., from the liquid phase to the gas phase. Typically, there is no chemical reaction involved in the absorption process and it operates under isothermal conditions. Common absorbing media used are water, aqueous amine solutions, caustic, sodium carbonate, and nonvolatile hydrocarbon oils, depending on the type of gas to be absorbed. Usually, the gas-liquid contactor designs which are employed are plate columns or packed beds.

      Chemical adsorption processes adsorb sulfur dioxide onto a carbon surface where it is oxidized (by oxygen in the flue gas) and absorbs moisture to give sulfuric acid impregnated into and on the adsorbent. When aqueous sodium hydroxide (a strong base) is used as the absorbent to dissolve an acid gas, absorption is accompanied by a rapid and irreversible neutralization reaction in the liquid phase and the process is referred to as chemical absorption or reactive absorption.

      More complex examples of chemical absorption are processes

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