(210i) Significance of Magnetic Nanofluids in Energy Management and Transportation Using Gas Hydrates Technology

The process of clathration involves the progressive creation of host-guest complexes over the course of time, with several instances of lengthy inhibition steps occurring during the process. For a technology that would have a sluggish or intermittent development rate, it would not be feasible to employ resources that are based on the gas hydrates. One of the most important things that has to be done in order to overcome the issues that are brought about by the unpredictability of hydrate inhibition, nucleation, growth, and saturation is to bridge the gap that currently exists and design procedures that are dependable, efficient, and time-sensitive. Within this context, we are going to talk about the many elements of magnetic nanoparticles and the influence that they have on the promotion of gas hydrates. Increasing the efficiency of gas hydrate systems may be accomplished by the use of these materials, which can act as either kinetic or thermodynamic boosters. They enable for the reuse of the same hybrid material for up to 65 cycles, and they also provide improved control over the transmission of heat and mass. Various aspects and findings will be discussed.