Abstract
This work has become possible due to financial and organizational support within the frames of the state budget research project under the auspices of the Ministry of Education and Science of Ukraine “Application of gas hydrate technology in the development of traditionaland gas hydrate gas deposits” No.0113U00857, “Research of influence of thermodynamic parameters of phase transitions in systems with gas hydrates on the efficiency of gas hydrate technology” No.0115U002420.
Highlights
Growing global energy demands brought about the necessity to develop new oil and gas fields (Giavarini & Hester, 2011; Lu, 2016) unconventional hydrocarbon deposits (Mykhailov, 2016) as well as conventional primary energy resources (Petlovanyi, Lozynskyi, Saik, & Sai, 2018)
Mechanism of the alternative energy sources use for the production of gas hydrates, as the most energy-consuming process in technology of transporting gases in the form of gas hydrates, was grounded
We considered the dynamics of the heat transfer process in a vertical pipe-reactor for 7 days (168 hours)
Summary
Growing global energy demands brought about the necessity to develop new oil and gas fields (Giavarini & Hester, 2011; Lu, 2016) unconventional hydrocarbon deposits (Mykhailov, 2016) as well as conventional primary energy resources (Petlovanyi, Lozynskyi, Saik, & Sai, 2018). Nearly half of that amount is assumed to be stranded and associated gas that is not economical for market delivery because of its remoteness from potential markets and lack of transportation infrastructure. First of all it concerns offshore deposits, though their share is growing rapidly with each passing year. The demand for natural gas from offshore fields is continuously increasing. Traditional technologies for its transportation often turn ineffective, especially in the case of remote offshore deposits with small gas reserves. Construction of pipelines to such deposits is unprofitable
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