Process of elimination of fumes with high co2 content for conversion to bicarbonate using rejection brines (Machine-translation by Google Translate, not legally binding)

Process of elimination of fumes with high co2 content for conversion to bicarbonate using rejection brines (Machine-translation by Google Translate, not legally binding)

Process of elimination of fumes with a high content of co2 for their conversion to bicarbonate using rejection brines, for the elimination of co2 emissions into the atmosphere, from of industrial processes, to combat climate change. The absorption tank (4) absorbs ammonia nh3 (3) on brine (2), which...

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Bibliographische Detailangaben
Hauptverfasser: PORCAR VIVES, Javier, ROS PEREZ, Rafael, DE JULIAN ORTIZ, Jesús Vicente, MAGRANER PARDO, Lorena
Format: Patent
Sprache:eng ; spa
Schlagworte:
PERFORMING OPERATIONS
PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
SEPARATION
TRANSPORTING
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Zusammenfassung:Process of elimination of fumes with a high content of co2 for their conversion to bicarbonate using rejection brines, for the elimination of co2 emissions into the atmosphere, from of industrial processes, to combat climate change. The absorption tank (4) absorbs ammonia nh3 (3) on brine (2), which is introduced into reactor (6). The emissions (1), once cooled (5) are introduced into the reactor (6). Instantaneous reaction occurs in contact with the brine and ammonia and precipitates sodium bicarbonate. The ammonium chloride solution nh4 cl (7) is concentrated, produces desalinated water (11), passes through nebulization (8) and water is collected in a condenser (10) and goes to the tank (eleven). Nh4 cl crystallized by nebulization goes to the reactor, and decomposes by heat (9) in hcl and nh3, which are separated by reaction with a metal halide. (Machine-translation by Google Translate, not legally binding) Proceso de eliminación de los humos con alto contenido en CO2 para su conversión a bicarbonato utilizando salmueras de rechazo, para la eliminación de las emisiones de CO2 a la atmósfera, procedentes de procesos industriales, para combatir el cambio climático. El depósito de absorción (4) absorbe amoniaco NH3 (3) sobre salmuera (2), que se introduce en reactor (6). Las emisiones (1), una vez enfriadas (5) se introducen en el reactor (6). Se produce reacción instantánea en contacto con la salmuera y amoniaco y precipita bicarbonato sódico. La disolución de cloruro amónico NH4Cl (7) se concentra, produce agua desalada (11), y pasa por nebulización (8) y el agua se recoge en un condensador (10) y va al depósito (11). NH4Cl cristalizado por nebulización va al reactor, y se descompone por calor (9) en HCl y NH3, que se separan mediante reacción con un haluro metálico.