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Dual Product H2 and CO Production with CO Turndown

a technology of co-producing and h2 products, applied in the field of process and, can solve the problems of limited turn down of cryogenic separation units, difficult shutdown of co-producing trains, and difficulty in shutting down co-producing trains

Active Publication Date: 2020-03-12
AIR PROD & CHEM INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This approach enables efficient turndown of CO production without flaring or using CO as fuel, improving overall production efficiency by recycling CO-containing product back into the process and maintaining catalyst stability.

Problems solved by technology

The problem is that the turn down for cryogenic separation units is limited, for example to 30% to 45% of their design capacity.
Shutting down the CO producing train is problematic due to the long time required to start up the cryogenic separation unit and the CO2 removal unit.
Shutting down the CO producing train may also be problematic due to effects on heat transfer equipment that is integrated between H2-production train and the CO-production train.

Method used

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  • Dual Product H2 and CO Production with CO Turndown
  • Dual Product H2 and CO Production with CO Turndown

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0203]In example 1, the CO production train produces 35% of its design capacity for CO (i.e. a turndown case). Turn down to 35% corresponds to a typical minimum turndown capable for the CO production train.

[0204]Pressure swing adsorption tail gas is passed back to the catalytic steam-hydrocarbon reformer as fuel.

[0205]A portion (stream 183) of the CO that is produced is returned to the reformer as fuel. Another portion of the CO that is produced, stream 186, is flared. While some CO can be recycled back to the catalytic steam-hydrocarbon reformer as fuel, CO is a low heating value fuel, and there are limitations on the amount used as reformer fuel due to trim fuel constraints.

[0206]Table 1 provides a heat and material balance for the main process streams for example 1.

[0207]In this case the natural gas consumed for feed and (trim) fuel to the catalytic steam-hydrocarbon reformer is 585.8 GJ / h (HHV) to produce 1525.6 kmol / h H2. The resulting gross efficiency 384.0 MJ / kmol H2.

example 2

[0208]In example 2, the CO production train produces the same amount of CO as in example 1, (35% of the design capacity for the CO production train). The CO that is produced is passed to the shift reactor inlet as stream 189.

[0209]Pressure swing adsorption tail gas is passed back to the catalytic steam-hydrocarbon reformer as fuel.

[0210]Table 2 provides a heat and material balance for the main process streams for example 2.

[0211]In this case the natural gas consumed for feed and (trim) fuel to the catalytic steam-hydrocarbon reformer is 523.2 GJ / h (HHV) to produce 1388 kmol / h H2. The resulting gross efficiency 376.9 MJ / kmol H2.

TABLE 1Stream #115a199116226183186T (° C.)355355419384141P (MPa)3.253.253.204.51.71.70Flow2060206020601525.639.274.7(kmol / h)Mole fractionsH20.4840.4840.5461.0——CH40.0420.0420.042———N20.0010.0010.001—0.0060.006CO20.0520.0520.114———CO0.0940.0930.031—0.9940.994H2O0.3270.3270.265———

TABLE 2Stream #115a189227195209199116T (° C.)3574138260302343427P (MPa)3.251.703.45...

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Abstract

Process and apparatus for producing a H2-containing product and a CO-containing product with CO-containing product turndown capability. The H2-containing product is produced in a process train with a shift reactor and pressure swing adsorption unit. The CO-containing product is produced in a process train with a CO2 removal unit and a cryogenic separation unit. During the CO-containing product turndown mode, a portion or all of the CO-containing product is passed to the shift reactor in the H2-containing product train to form additional H2.

Description

BACKGROUND[0001]The present disclosure relates to a process and apparatus for the production of a H2-containing product and a CO-containing product with a CO-containing product turndown capability.[0002]H2 and CO can be produced from a common crude synthesis gas production unit using a first process train for producing the H2 and a second process train for producing CO. The H2 can be produced by passing a first portion of the crude synthesis gas to a shift reactor and passing the shifted and dewatered synthesis gas to a pressure swing adsorption unit. The CO can be produced by passing a second portion of crude synthesis gas to a CO2 removal unit and passing the CO2-depleted synthesis gas to a cryogenic separation unit.[0003]Each of the process trains are designed for a specific production rate of their respective products.[0004]When the requirement from the customer or downstream process for the CO is reduced or stopped (short or intermediate term), the flow rate of the crude synthe...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C01B3/50C01B3/48C01B3/56
CPCC01B2203/0283C01B3/506C01B3/56C01B2203/046C01B3/48C01B2203/042C01B3/38C01B2203/0233C01B3/348C01B2203/0816C01B2203/043C01B2203/0475C01B2203/141C01B2203/142
Inventor GENKIN, EUGENE S.FORESTER, KELLY ANN
Owner AIR PROD & CHEM INC