Studies on temperature characteristics and initial formation interface during cyclopentane-methane hydrate formation in large-scale equipment with bubbling

In this work, temperature characteristics during hydrate formation were investigated in the cyclopentane-methane system using large-scale equipment with bubbling. The volume in each experiment was increased by a factor of 80 compared with previous work. A group of scaled-up experiments, under the op...

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Bibliographic Details
Published in:Applied Energy
Main Authors: Cai, Jing, Lv, Tao, Zhang, Yu, von Solms, Nicolas, Xu, Chun-Gang, Chen, Zhao-Yang, Li, Xiao-Sen
Format: Report
Language:English
Published: ELSEVIER SCI LTD 2020
Subjects:
Temperature characteristics
Heat
Cyclopentane
Hydrate formation interface
PRE-COMBUSTION CAPTURE
CLATHRATE HYDRATE
FLUE-GAS
DISSOCIATION ENTHALPIES
THERMAL-STIMULATION
FORMATION KINETICS
DEPRESSURIZATION
OPTIMIZATION
REPLACEMENT
SEPARATION
Energy & Fuels
Engineering
Chemical
Methane hydrate
Online Access:http://ir.giec.ac.cn/handle/344007/26327
https://doi.org/10.1016/j.apenergy.2019.114076
Description
Summary:In this work, temperature characteristics during hydrate formation were investigated in the cyclopentane-methane system using large-scale equipment with bubbling. The volume in each experiment was increased by a factor of 80 compared with previous work. A group of scaled-up experiments, under the optimal condition based on experiments in the smaller crystallizer, was carried out to verify the scale-up potential of hydrate-based thermal fluid production process. Another group of scaled-up experiments were performed with different variables (volume ratio of cyclopentane to water, gas/liquid ratio and pressure) to figure out the initial hydrate formation interface and optimize the temperature of the thermal fluid. Experimental results illustrate that hydrate-based thermal fluid production process can be scaled up by a factor of 80, however, the temperature of the thermal fluid needs to be optimized by adjusting variables accordingly. Moreover, the liquid cyclopentane/water interface more than the gas/liquid interface affects hydrate formation and hydrate accumulation. In particular, the hydrate formation interface initially occurs on the water side near the liquid cyclopentane/water interface. A large amount of hydrate accumulates in the bulk liquid cyclopentane phase, forming new hydrate formation interfaces. Thermal fluid with a specific temperature range can be produced based on the heat released and conducted from the hydrate formation interfaces.

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