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Giammarco-Vetrocoke

Three commercial processes that use these various hot carbonate flow arrangements are the promoted Benfield process, the Catacarb process, and the Giammarco-Vetrocoke process (26—29). Each uses an additive described as a promoter, activator, or catalyst, which increases the rates of absorption and desorption, improves removal efficiency, and reduces the energy requirement. The processes also use corrosion inhibitors, which aHow use of carbon—steel equipment. The Benfield and Catacarb processes do not specify additives. Vetrocoke uses boric acid, glycine, or arsenic trioxide, which is the most effective. [Pg.21]

Various processes attempt to improve on the basic potassium carbonate process by using activators to increase the rate of CO2 absorption such as the Catacarb, Benfield, and Giammarco—Vetrocoke processes. [Pg.192]

Giammarco-Vetrocoke Giammarco-Vetrocoke Hot potassium carbonate + promoter (arsenic trioxide)... [Pg.294]

Invented by H. E. Benson in 1952 and then developed with J. H. Field at the U.S. Bureau of Mines. First licensed by the Benfield Corporation of Pittsburgh, subsequently acquired by the Union Carbide Corporation, and now licensed by UOP. The current UOP version includes new solution activators and incorporates zeolites or membrane processes for complete separation of acid gases and minimal loss of product gases. More than 650 plants were operating in 1996. Variations include the Benfield HiPure process and the Benfield LoHeat process. See also Carsol, CATACARB, Giammarco-Vetrocoke, HiPure. [Pg.35]

Carbosolvan One of the several processes for absorbing carbon dioxide from gases, using hot potassium carbonate solution. See also Benfield, Carsol, CATACARB, Giammarco-Vetrocoke, Hi-Pure. [Pg.50]

CATACARB [Catalyzed removal of carbon dioxide] A process for removing carbon dioxide and hydrogen sulfide from gas streams by absorption in hot potassium carbonate solution containing a proprietary catalyst. Developed and licensed by Eickmeyer and Associates, KS, based on work at the U.S. Bureau of Mines in the 1950s. More than a hundred plants were operating in 1997. See also Benfield, Carsol, Hi-pure, Giammarco-Vetrocoke. [Pg.53]

HiPure A variation on the Benfield process, using two stages of scrubbing by hot potassium carbonate solution in order to reduce the carbon dioxide contents of gases to very low levels. See also Carsol, CATACARB, Giammarco-Vetrocoke. [Pg.128]

Some of the commercial processes comprising this group include Stretford, Takahex, Giammarco-Vetrocoke, Ferrox and others. [Pg.28]

RENEWABLE ENERGY RESOURCES] (Vol 21) Giammarco-Vetrocoke process... [Pg.440]

Giammarco-Vetrocoke Process Potassium Carbonate with Arsenite... [Pg.139]

Two processes are known by the Giammarco-Vetrocoke name. Both processes use an aqueous solution of sodium or potassium carbonate and arsenite to absorb acid gases. Some variations of the process use glycine instead of arsenite to activate the potassium carbonate solution. In one process, the solution is used to extract carbon dioxide from natural gas or synthesis gas. In the other, hydrogen sulfide is extracted from coke-oven or synthesis gas and yields elemental sulfur from a complex sequence of reactions. In 1992, more than 200 plants were operating1. [Pg.146]

Carsol A process for removing carbon dioxide from gas streams by scrubbing with aqueous potassium carbonate. See also Benfield, CATACARB, Giammarco-Vetrocoke, HiPure. [Pg.60]

G. Giammarco, "Giammarco-Vetrocoke in A. V Slack, G. Russel James (eds.) Ammonia, part II, Marcel Dekker Inc, New York 1974, p. 171-182. [Pg.270]

Giammarco-Vetrocoke K3ASO3 activated with arsenic h2s... [Pg.55]

Hot potassium carbonate Catacarb Benfield Giammarco-Vetrocoke ... [Pg.57]

Hot carbonates are well suited for the removal of C02 at moderate or high levels in the presence of little or no H2S. The process acquired its name from the use of elevated temperatures in both the absorber and the regenerator (110—115°C). Hot carbonates such as the Benfield and the Koppers Vacuum Carbonate utilize K2C03 to remove H2S, COS, and C02 from gas streams [35]. Their heat requirements and high solvent circulation make hot carbonates more expensive than other acid gas removal processes. Other hot carbonate processes, including the Catacarb and the Giammarco-Vetrocoke processes, use catalysts, corrosion inhibitors, and/or activators to enhance the removal of the acid gases. Hot carbonate-promoted systems are able to decrease the C02 level from 1% to 0.1%. Promoters include DEA, amine borates, and hindered amines [36]. [Pg.59]

See other pages where Giammarco-Vetrocoke is mentioned: [Pg.440]    [Pg.115]    [Pg.120]    [Pg.399]    [Pg.108]    [Pg.146]    [Pg.1020]    [Pg.1021]    [Pg.148]    [Pg.156]    [Pg.45]    [Pg.46]    [Pg.127]    [Pg.181]    [Pg.62]    [Pg.45]    [Pg.46]   
See also in sourсe #XX -- [ Pg.139 , Pg.146 ]

See also in sourсe #XX -- [ Pg.1021 ]



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Vetrocoke

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