Absorption chillers to improve the performance of small‐scale biomethane liquefaction plants

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Abstract

Biomethane liquefaction may help decarbonization in heavy transportation and other hard‐to‐abate sectors. Small‐scale liquefaction plants (<10 ton/day) are suitable for small biogas plants located near farms and other agricultural activities. “Internal refrigerant” refrigeration cycles (e.g., Kapitza cycle) are often proposed for small‐scale natural gas liquefaction due to their simplicity. An optimized Kapitza‐based cycle is modeled and simulated, and then several modifications were studied to evaluate their influence on the energetic and economic performances. Results showed a specific consumption ranging between 0.65 kWh/kg and 0.54 kWh/kg of bio‐LNG with no significant improvements by increasing cycle complexity. Instead, a reduction of 17% was achieved with the implementation of absorption chillers, that effectively turn waste heat into useful cooling energy. An economic assessment was finally carried showing that the Levelized Cost of Liquefation is more affected by electricity cost than additional CapEx.

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APA

Ciambellotti, A., Pasini, G., Baccioli, A., Ferrari, L., & Barsali, S. (2022). Absorption chillers to improve the performance of small‐scale biomethane liquefaction plants. Energies, 15(1). https://doi.org/10.3390/en15010092

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