S. Georgaki scite author profile

A hollow fibre (HF) polypropylene membrane gas absorber was investigated for the removal of hydrogen sulphide (H2S) from gas streams. Gas concentrations between 25-2010 ppmV were fed into the shell side of a membrane module whilst water-NaOH solutions flowed counter-currently in the fibre lumens. The process was effective at removing the H2S (96% at G:L ratios up to 50 and pH 13) from the gas phase in a single pass through the membrane at all the concentrations of HaS investigated. Analysis of the mass transfer process revealed the rate of transfer to be controlled by the gas phase transfer coefficient with a value between 1 and 25 x 10(-4) m.s(-1). The possible integration of a membrane absorber system into existing odour treatment strategies was assessed by comparing the membrane system, based on the experimentally determined mass transfer coefficient, with existing full scale biofiltration plants. The membrane system became economically favourable at gas flow rates lower than 1630 m(3) x h(-1).

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MEMBRANE GAS ABSORBERS FOR H₂S REMOVAL – DESIGN, OPERATION AND TECHNOLOGY INTEGRATION INTO EXISTING ODOUR TREATMENT STRATEGIES

Jefferson¹,

Nazareno²,

Parsons³

et al. 2002

proc water environ fed

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A hollow fibre (HF) polypropylene membrane gas absorber was investigated for the removal of hydrogen sulphide (H 2 S) from gas streams. Gas concentrations between 25-2010 ppmV were fed into the shell side of a membrane module whilst water-NaOH solutions flowed counter-currently in the fibre lumens. The process was effective at removing the H 2 S (96% at G:L ratios up to 50 and pH 13) from the gas phase in a single pass through the membrane at all the concentrations of H 2 S investigated. Analysis of the mass transfer process revealed the rate of transfer to be controlled by the gas phase transfer coefficient with a value between 1 and 25x10-4 m.s-1. The possible integration of a membrane absorber system into existing odour treatment strategies was assessed by comparing the membrane system, based on the experimentally determined mass transfer coefficient, with existing full scale biofiltration plants. The membrane system became economically favourable at gas flow rates lower than 1630 m 3 .h-1 .

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Membranes – The Answer to Biogas Clean-Up

Georgaki¹

2013

proc water environ fed

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S. Georgaki

Influence of pH on gas phase controlled mass transfer in a membrane contactor for hydrogen sulphide absorption

Membrane Gas Absorbers for H₂S Removal – Design, Operation and Technology Integration into Existing Odour Treatment Strategies

MEMBRANE GAS ABSORBERS FOR H₂S REMOVAL – DESIGN, OPERATION AND TECHNOLOGY INTEGRATION INTO EXISTING ODOUR TREATMENT STRATEGIES

Membranes – The Answer to Biogas Clean-Up

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S. Georgaki

Influence of pH on gas phase controlled mass transfer in a membrane contactor for hydrogen sulphide absorption

Membrane Gas Absorbers for H2S Removal – Design, Operation and Technology Integration into Existing Odour Treatment Strategies

MEMBRANE GAS ABSORBERS FOR H2S REMOVAL – DESIGN, OPERATION AND TECHNOLOGY INTEGRATION INTO EXISTING ODOUR TREATMENT STRATEGIES

Membranes – The Answer to Biogas Clean-Up

Contact Info

Product

Resources

About

Membrane Gas Absorbers for H₂S Removal – Design, Operation and Technology Integration into Existing Odour Treatment Strategies

MEMBRANE GAS ABSORBERS FOR H₂S REMOVAL – DESIGN, OPERATION AND TECHNOLOGY INTEGRATION INTO EXISTING ODOUR TREATMENT STRATEGIES