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Carbon capture at moderate pressures and temperatures Moderate pressures around 15 bar Moderate temperatures –Hydrate formation at 2-6 o C Not far below.

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Presentation on theme: "Carbon capture at moderate pressures and temperatures Moderate pressures around 15 bar Moderate temperatures –Hydrate formation at 2-6 o C Not far below."— Presentation transcript:

1 Carbon capture at moderate pressures and temperatures Moderate pressures around 15 bar Moderate temperatures –Hydrate formation at 2-6 o C Not far below cooling water temperatures in Nordic countries –CO2 release 20 – 40 o C Typical waste heat temperatures

2 Main concept overview A closed process involving cooling, heating, compression and decompression stages to form and melt CO2 hydrates Flue gas 99% CO2 1% N2 N2 Traces of CO2 15% CO2 85% N2 Hydrate promoter ( formation pressure) Seed particles (reaction kinetics) Electric power Cooling water Waste heat The separation is possible since CO2 forms hydrates more easily than N2.

3 The problem with hydrate processes There is usually a long induction time before hydrate production start –Seed must form and grow to a certain size before detectable gas absorption is observed –This takes a long time – hours and days in pure systems The hydrate forms first where the gas concentration is high –Thus a droplet gets a hydrate crust around a wet inside This hinders the transport of gas into the water phase And heat away from the reaction centre Speeding up the process – the IFE contribution and a possible breakthrough –Using heterogeneous seed particle to speed up hydrate formation – induction time reduced by a factor of 200

4 Comparing to chilled ammonia process From literature chilled ammonia process consumes energy in the range: –470 – 550 kWh/ton CO2 A first rough estimate for a hydrate process: –220 – 330 kW/ton CO2 (0.8 – 1.2 GJ)

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