500 Nm3/hr Biogas Upgrading Plant Hydron Energy’s INTRUPTor
500 Nm3/hr Biogas Upgrading Plant Hydron Energy’s INTRUPTor – Mid Plant vs. Commercial Membrane Plant
By Hydron Energy
Hydron Energy has developed and commercialized a novel, cost effective solution to upgrade biogas, specifically under ambient operating conditions. Hydron’s Intensified Regenerative Upgrading Platform Technology, known as the INTRUPTor™ module, upgrades biogas into RNG.
The module is equipped with sorbent beds that convert biogas into clean, carbon-negative Renewable Natural Gas (RNG). Hydron offers different plant capacities based on the feed biogas flow rate.
The process begins by feeding biogas at near-ambient pressures and temperatures into the INTRUPTor module, where the gas mixture undergoes purification within the novel nanoporous sorbent.
The INTRUPTor module is equipped with a series of structured sorbent beds and
and novel rotary valves that perform a rapid cycle process that distributes the gases among the beds.
The process consists of the following streams:
– Feed: The feed is pre-treated to remove contaminants such as H2S, VOC, and Siloxanes from landfill or digested gas, and flows through the sorbent bed. During this step, CO2 and N2 are removed by selective adsorption, as CH4 flows through the product line.
– Product: CH4 is collected in the product tank, dried, and compressed to meet the pipeline specifications.
– Regeneration: Vapour H2O is used in this stage to displace CO2 from the sorbent eds. Water vapour is mainly generated from waste heat.
– Exhaust: The displaced CO2 exits the bed at high purity. The high-quality CO2 can be exhausted or captured for various applications.
How the INTRUPTor System Saves on CAPEX and OPEX
The INTRUPTor™ saves between 20% to 50% in both capital and operational costs compared to existing commercial solutions. The elimination of the feed compressor, exhaust vacuum pump, feed gas dryer, and other unit operations and their ancillary instruments lower the installed equipment cost. Additionally, a simpler low-pressure plant design and construction has further reduced the capital cost by using lightweight composite material for fabrication.
The operational cost savings stem from the high efficiency of the INTRUPTor™ process and lower energy consumption for gas handling at lower operating pressures.
For more information, read our Canadian Biogas Magazine.
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