Peer-Reviewed Journal Details
Mandatory Fields
Czyrnek-Deletre, MM;Ahern, EP;Murphy, JD
2016
March
Biofuels Bioproducts & Biorefining-Biofpr
Is small-scale upgrading of landfill gas to biomethane for use as a cellulosic transport biofuel economically viable?
Validated
Optional Fields
LIFE-CYCLE ASSESSMENT ORGANIC-COMPOUNDS ENERGY PROJECTS REMOVAL CAPTURE SITES AIR
10
139
149
Landfill gas (with methane content of 35-55%) adds significantly to global warming if released to the atmosphere. Under the EU Landfill Directive, all landfill sites are obliged to collect this gas if supplied with biodegradable municipal waste. Landfill gas (LFG) can be (i) flared, (ii) combusted to produce electricity, or (iii) upgraded to biomethane. The last scenario is of special interest. In the USA, LFG is now classified as a cellulosic biofuel; in the EU, there is a mandatory target of 10% share of renewables in transport by 2020. A significant challenge for upgrading LFG to biomethane is the high nitrogen content resulting from negative pressure in the landfill. Cost analyses were conducted to compare three technology solutions for LFG upgrading with accessible LFG flow of 250-500 m(3)/h. If injection to the transmission grid is considered, then a single-step pressure swing adsorption (PSA) system may be viable. The optimal solution suggested is an on-site service station; the cost of this system (including propane addition and service station) was assessed as e0.84/m(n)(3) LFG biomethane. This required a subsidy of e0.55/m(n)(3); this is available in Ireland under the Biofuel Obligation Certificate scheme. (c) 2016 Society of Chemical Industry and John Wiley & Sons, Ltd
HOBOKEN
1932-104X
10.1002/bbb.1627
Grant Details