Optimizing Amine Process Design Using Liquid Phase Turbochargers

Krish, Prem; Gains-Germain, Andrea; Thorp, Joseph; Martin, Jeremy; Shirazi, Max

doi:10.1115/gt2015-42774

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(2 citation statements)

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“…For example, by applying the rotary hydraulic pumping device in the state-of-the-art upgrading plant in configuration B the power requirement for pumping water to the pressurised scrubber can be reduced by about 0.036 kWh/Nm 3 raw biogas. This turbocharger transfers energy from the high pressure CO 2 loaded water to the low pressure regenerated water with efficiency of about 70% [49].…”

Section: Discussionmentioning

confidence: 99%

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Power requirements of biogas upgrading by water scrubbing and biomethane compression: Comparative analysis of various plant configurations

Budzianowski

Wylock

Marciniak

2017

Energy Conversion and Management

109

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Biogas upgrading by water scrubbing followed by biomethane compression is an environmentally benign process. It may be achieved using various plant configurations characterised by various power requirements with associated effects on biomethane sustainability. Therefore, the current study has been undertaken to systematically investigate the power requirements of a range of water scrubbing options. Two groups of water scrubbing are analysed: (1) high pressure water scrubbing (HPWS) and (2) near-atmospheric pressure water scrubbing (NAPWS). A water scrubbing plant model is constructed, experimentally validated and simulated for seven upgrading plant configurations. Simulation results show that the power requirement of biogas upgrading in HPWS plants is mainly associated with biogas compression while in NAPWS plants a significant power is required for water *Manuscript Click here to view linked References pumping. Biomethane compression to 20 MPa also contributes remarkably. It isobserved that the lowest specific power requirement can be obtained for a NAPWS plant without water regeneration (0.24 kWh/Nm 3 raw biogas) but this plant requires cheap water supply, e.g. outlet water from a sewage treatment plant or river. The second is HPWS without flash (0.29 kWh/Nm 3 raw biogas). All other HPWS with flash and NAPWS with water regeneration plants have specific power requirements between 0.30 and 0.33 kWh/Nm 3 raw biogas. Biogas compression without upgrading requires about 0.29 kWh/Nm 3 raw biogas. The thermodynamic efficiency of biogas upgrading is between 2.2 and 9.8% depending on the plant configuration while biomethane compression efficiency is higher, about 55%. This result implies that the upgrading process has a remarkable potential for improvement whereas compression is very close to its thermodynamic limit. The potential for minimising energy dissipation in the state-of-the-art HPWS upgrading plant with flash by applying a rotary hydraulic pumping device is evaluated at about 0.036 kWh/Nm 3 raw biogas meaning the specific power requirement reduction of 10%.

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Section: Discussionmentioning

confidence: 99%

“…To assess the impact of the RHPD on the upgrading plant performance we adopt its energy transfer efficiency reported in [49]…”

Section: Potential Of a Rotary Hydraulic Pumping Device For Decreasinmentioning

confidence: 99%

Power requirements of biogas upgrading by water scrubbing and biomethane compression: Comparative analysis of various plant configurations

Budzianowski

Wylock

Marciniak

2017

Energy Conversion and Management

109

View full text Add to dashboard Cite

show abstract

Optimizing Amine Process Design Using Liquid Phase Turbochargers

Cited by 1 publication

References 1 publication

Power requirements of biogas upgrading by water scrubbing and biomethane compression: Comparative analysis of various plant configurations

Power requirements of biogas upgrading by water scrubbing and biomethane compression: Comparative analysis of various plant configurations

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