PSA Technology for H2 Separation

Grande, Carlos A.

doi:10.1002/9783527674268.ch21

Cited by 9 publications

(12 citation statements)

References 53 publications

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“…Molecular sieves such as zeolites are used to remove nitrogen and carbon monoxide, which are the most concerning contaminants . Nevertheless, alumina (AA) and activated carbon (AC) layers must be placed before the molecular sieve to remove water vapor, methane, and carbon dioxide since their strong interaction with zeolites leads to high energy consumption in the desorption stage. , Figure shows a schematic representation of the PSA separation technology.…”

Section: Hydrogen Recovery From Coke Oven Gasmentioning

confidence: 99%

Hydrogen Recovery from Coke Oven Gas. Comparative Analysis of Technical Alternatives

Moral

Ortiz-Imedio

Ortiz

et al. 2022

Ind. Eng. Chem. Res.

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The recovery of energy and valuable compounds from exhaust gases in the iron and steel industry deserves special attention due to the large power consumption and CO 2 emissions of the sector. In this sense, the hydrogen content of coke oven gas (COG) has positioned it as a promising source toward a hydrogen-based economy which could lead to economic and environmental benefits in the iron and steel industry. COG is presently used for heating purposes in coke batteries or furnaces, while in high production rate periods, surplus COG is burnt in flares and discharged into the atmosphere. Thus, the recovery of the valuable compounds of surplus COG, with a special focus on hydrogen, will increase the efficiency in the iron and steel industry compared to the conventional thermal use of COG. Different routes have been explored for the recovery of hydrogen from COG so far: i) separation/purification processes with pressure swing adsorption or membrane technology, ii) conversion routes that provide additional hydrogen from the chemical transformation of the methane contained in COG, and iii) direct use of COG as fuel for internal combustion engines or gas turbines with the aim of power generation. In this study, the strengths and bottlenecks of the main hydrogen recovery routes from COG are reviewed and discussed.

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Section: Hydrogen Recovery From Coke Oven Gasmentioning

confidence: 99%

Hydrogen Recovery from Coke Oven Gas. Comparative Analysis of Technical Alternatives

Moral

Ortiz-Imedio

Ortiz

et al. 2022

Ind. Eng. Chem. Res.

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“…Adsorbent poisoning is also very rare since syngas streams do not contain volatile organic compounds (VOCs) or high molecular weight hydrocarbons while hydrogen sulphide (H2S) concentration is in the range of 5 10 and 40 60 ppmv for natural gas-and coal-based feedstock, respectively (DOE, 2002;IEA, 2017). As a result, the adsorbents of industrial PSA units can last more than 10 years without replacement (Wiessner, 1988;Dobladez et al, 2021;Xebec, 2021) and up to 30 years for hydrogen purification applications (Grande, 2016;UOP, 2016;Air Products, 2018b).…”

Section: Psa For Hydrogen Purificationmentioning

confidence: 99%

“…Historically, steam reforming of light hydrocarbons, such as natural gas, LPG and light naphtha, has been the dominant technology for the production of syngas, and, hence, of hydrogen. Although the syngas has hydrogen as its major component, it also contains CO, CO2, some unreacted CH4, and other minor impurities such as N2, O2, Ar, H2S, NH3, etc., the presence of which depends on the feedstock and operating conditions (Grande, 2016). Since the 1980s Polybed PSA systems have been applied to the H2-rich streams to purify hydrogen in order to meet the stringent purity requirements of the processes where hydrogen is used as feedstock.…”

Section: Feed Sourcesmentioning

confidence: 99%

Review of Polybed pressure swing adsorption for hydrogen purification

Luberti

Ahn

2022

International Journal of Hydrogen Energy

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“…Hydrogen can be further purified from methane by pressure swing adsorption, low temperature distillation, and membrane separation . Membrane separation has the advantages of high separation efficiency, low energy consumption, and continuous operation compared with other two methods, and it is promising for molecular separations − including hydrogen purification. ,, …”

Section: Introductionmentioning

confidence: 99%

“…4 Membrane separation has the advantages of high separation efficiency, low energy consumption, and continuous operation compared with other two methods, and it is promising for molecular separations 5−9 including hydrogen purification. 5,6,9 Crystalline zeolite and metal organic framework (MOF) membranes can separate molecules with high flux and high selectivity by molecular sieving and preferential adsorption mechanisms. Huang et al 10 developed a new type of twolayered ZIF-8@GO membrane with a H 2 /CH 4 separation factor of 139.1 and H 2 permeance of 1.3 × 10 −7 mol/(m 2 s Pa) at 523 K. Caro et al 11 prepared a high c-oriented NH 2 -MIL-125 MOF film on porous α-alumina substrate; the membrane showed a H 2 /CH 4 ideal selectivity of 11.2 and H 2 permeance of 4.375 × 10 −8 mol/(m 2 s Pa) at 298 K and 0.1 MPa.…”

Section: Introductionmentioning

confidence: 99%

Separation Performance of Si-CHA Zeolite Membrane for a Binary H₂/CH₄ Mixture and Ternary and Quaternary Mixtures Containing Impurities

Shu

Liu

et al. 2020

Energy Fuels

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The separation of H2/CH4 mixtures is very common in the natural gas and petrochemical industries. There are some higher C2–C4 hydrocarbons and water vapor that are used as impurity gases. Si-CHA zeolite membranes display a high H2 permeance of 1.44 × 10–6 mol/(m2 s Pa) (permeability of 10800 barrers) and H2/CH4 selectivity of 85 for an equimolar H2/CH4 mixture at 298 K and 0.2 MPa pressure drop. A third gas decreased H2 permeance and H2/CH4 selectivity of the membrane. Hydrogen permeance was reduced in an order similar to the adsorption amount in zeolite: H2O > C3H8 > n-butane > ethane. The effects of temperature, pressure, and feed concentration were studied on separation performances of the membrane in the binary and ternary mixtures. A simple model was built up to predict the reduction of permeance and selectivity when multi impurities were contained, and the predicted value agreed well with the tested one. A stable performance was obtained within several hours in all the tests. The separation performance of the membrane was recovered to the original level when the impurity gas was removed.

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PSA Technology for H2 Separation

Cited by 9 publications

References 53 publications

Hydrogen Recovery from Coke Oven Gas. Comparative Analysis of Technical Alternatives

Hydrogen Recovery from Coke Oven Gas. Comparative Analysis of Technical Alternatives

Review of Polybed pressure swing adsorption for hydrogen purification

Separation Performance of Si-CHA Zeolite Membrane for a Binary H₂/CH₄ Mixture and Ternary and Quaternary Mixtures Containing Impurities

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PSA Technology for H2 Separation

Cited by 9 publications

References 53 publications

Hydrogen Recovery from Coke Oven Gas. Comparative Analysis of Technical Alternatives

Hydrogen Recovery from Coke Oven Gas. Comparative Analysis of Technical Alternatives

Review of Polybed pressure swing adsorption for hydrogen purification

Separation Performance of Si-CHA Zeolite Membrane for a Binary H2/CH4 Mixture and Ternary and Quaternary Mixtures Containing Impurities

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Product

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Separation Performance of Si-CHA Zeolite Membrane for a Binary H₂/CH₄ Mixture and Ternary and Quaternary Mixtures Containing Impurities