An experimental study on carbon dioxide hydrate formation using a gas-inducing agitated reactor

“…Various ‘agitated reactors’ with a stirred‐vessel configuration for better hydrate conversion have been presented in the literature . They improved gas / water contact and, as a result, the gas uptake during hydrate formation increased significantly.…”

“…A high gas uptake and separation factor could be achieved through mechanical agitation to renew the contact surface area continuously. In our laboratory, we also investigated a series of experiments on CO 2 hydrate formation, which was efficiently enhanced through mechanical agitation and gas recycling . However, the power consumption associated with mechanical agitation is too high, raising the cost again, which makes it infeasible to scale up the large industrial separation.…”

“…Various 'agitated reactors' with a stirred-vessel configuration for better hydrate conversion have been presented in the literature. 32,40,99 They improved gas / water contact and, as a result, the gas uptake during hydrate formation increased significantly. An agitated gas-inducing crystallizer was reported by Linga et al 40 A high gas uptake and separation factor could be achieved through mechanical agitation to renew the contact surface area continuously.…”

“…In our laboratory, we also investigated a series of experiments on CO 2 hydrate formation, which was efficiently enhanced through mechanical agitation and gas recycling. 99 However, the power consumption associated with mechanical agitation is too high, raising the cost again, which makes it infeasible to scale up the large industrial separation. From the equipment design perspective, the proper use of a high-pressure flue gas stream to produce the agitation could mitigate the power input, taking into account that flue gas itself is a feeding stream in hydrate formation.…”

High‐efficiency CO₂ capture and separation based on hydrate technology: A review

“…Various ‘agitated reactors’ with a stirred‐vessel configuration for better hydrate conversion have been presented in the literature . They improved gas / water contact and, as a result, the gas uptake during hydrate formation increased significantly.…”

“…A high gas uptake and separation factor could be achieved through mechanical agitation to renew the contact surface area continuously. In our laboratory, we also investigated a series of experiments on CO 2 hydrate formation, which was efficiently enhanced through mechanical agitation and gas recycling . However, the power consumption associated with mechanical agitation is too high, raising the cost again, which makes it infeasible to scale up the large industrial separation.…”

“…Various 'agitated reactors' with a stirred-vessel configuration for better hydrate conversion have been presented in the literature. 32,40,99 They improved gas / water contact and, as a result, the gas uptake during hydrate formation increased significantly. An agitated gas-inducing crystallizer was reported by Linga et al 40 A high gas uptake and separation factor could be achieved through mechanical agitation to renew the contact surface area continuously.…”

“…In our laboratory, we also investigated a series of experiments on CO 2 hydrate formation, which was efficiently enhanced through mechanical agitation and gas recycling. 99 However, the power consumption associated with mechanical agitation is too high, raising the cost again, which makes it infeasible to scale up the large industrial separation. From the equipment design perspective, the proper use of a high-pressure flue gas stream to produce the agitation could mitigate the power input, taking into account that flue gas itself is a feeding stream in hydrate formation.…”

High‐efficiency CO₂ capture and separation based on hydrate technology: A review

“…A correlation was also used to calculate the order of nucleation [18]. Li et al (2017) investigated carbon dioxide hydrate formation using a gasinducing agitated reactor. The results showed that the induction time was greatly shortened from 261 to 24 min as the rotation speed increased from 0 to 800 rpm.…”

Effect of TBAB and SDS surfactants on the interfacial tension of CO2 Hydrate in water

Modeling of CO ₂ storage as hydrate in vacated natural gas hydrate formation