A 1:3 RATIO OF NITROGEN AND HYDROGEN REACT CATALYTICALLY AT HIGH TEMPERATURE AND PRESSURE TO PRODUCE AMMONIA. THE NITROGEN SOURCE IS AIR AND THE SOURCE OF HYDROGEN IS FUEL OIL, NATURAL GAS, ETC. THE N2-H2 MIXTURE IS COMPRESSED AND SENT TO THE REACTOR. AT THE INLET OF THE COMPRESSOR, THE FRESH FEED IS JOINED BY A RECYCLE STREAM OF UNCONVERTED NITROGEN AND HYDROGEN. THE GASES LEAVING THE REACTOR ARE COOLED AND SOME AMMONIA LIQUEFIES AND IS REMOVED BY A SEPARATOR. PART OF THE GAS IS PURGED TO PREVENT ACCUMULATION OF INERT GASES. THE REMAINING GAS IS RECYCLED. THE OVERALL YIELD OF AMMONIA IS 85%. ONLY 80% OF THE AMMONIA FROM THE REACTOR IS LIQUEFIED; THE REST GOES WITH THE RECYCLED GAS. THE PURGE GAS CONTAINS 11.5% INERTS WHILE THE FRESH H2-N2 FEED CONTAINS 2.3%. ON A BASIS OF 1000 KG OF AMMONIA PRODUCT, CALCULATE THE AMOUNT AND COMPOSITION OF ALL STREAMS. CALCULATE THE SINGLE-PASS CONVERSION IN THE REACTOR.
A 1:3 RATIO OF NITROGEN AND HYDROGEN REACT CATALYTICALLY AT HIGH TEMPERATURE AND PRESSURE TO PRODUCE AMMONIA. THE NITROGEN SOURCE IS AIR AND THE SOURCE OF HYDROGEN IS FUEL OIL, NATURAL GAS, ETC. THE N2-H2 MIXTURE IS COMPRESSED AND SENT TO THE REACTOR. AT THE INLET OF THE COMPRESSOR, THE FRESH FEED IS JOINED BY A RECYCLE STREAM OF UNCONVERTED NITROGEN AND HYDROGEN. THE GASES LEAVING THE REACTOR ARE COOLED AND SOME AMMONIA LIQUEFIES AND IS REMOVED BY A SEPARATOR. PART OF THE GAS IS PURGED TO PREVENT ACCUMULATION OF INERT GASES. THE REMAINING GAS IS RECYCLED. THE OVERALL YIELD OF AMMONIA IS 85%. ONLY 80% OF THE AMMONIA FROM THE REACTOR IS LIQUEFIED; THE REST GOES WITH THE RECYCLED GAS. THE PURGE GAS CONTAINS 11.5% INERTS WHILE THE FRESH H2-N2 FEED CONTAINS 2.3%. ON A BASIS OF 1000 KG OF AMMONIA PRODUCT, CALCULATE THE AMOUNT AND COMPOSITION OF ALL STREAMS. CALCULATE THE SINGLE-PASS CONVERSION IN THE REACTOR.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
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