Formation and Dissociation of Methane Hydrates from Seawater in Consolidated Sand: Mimicking Methane Hydrate Dynamics beneath the Seafloor

Kerkar, Prasad B.; Horvat, Kristine; Mahajan, Devinder; Jones, Keith

doi:10.3390/en6126225

Cited by 19 publications

(12 citation statements)

References 24 publications

(27 reference statements)

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“…This method is the easier and simpler method to estimate the enthalpy of dissociation. Using the Clausius-Clapeyron equation which is stated below [14]:…”

Section: Measurement Methods Of Clathrate Hydrate Dissociation Enthalmentioning

confidence: 99%

Study the Dissociation Enthalpies for R134a Clathrate Hydrate in Binary and Ternary Systems

Mukhtar

Hemeri

Mahmood

2018

alkej

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In the present work the clathrate hydrate dissociation enthalpies of refrigerant R134a+ water system, and R134a + water + salt system were determined. The heat of dissociation of three types of aqueous salts solutions of NaCl, KBr and NaF at three concentrations (0.09, 0.17and 0.26) mol·kg−1 for each salt type, were enthalpy measured. The Clapeyron equation was used tocalculate heat of dissociation of experimental data for binary and ternary system.In order to find the effect of compressibility factor on heat dissociation enthalpy, the study was conducted by using equation of state proposed by Peng and Robinson Stryjek-Vera (PRSV). The obtained results of dissociation enthalpy for binary system were (143.8) kJ.mol-1 without gas compressibility factor (z) and (136.08) kJ.mol-1 with z where the variation between two values was (5.3%). For ternary system (R134a+ water +NaCl) at three concentrations of this salt, the calculated values were in the range of (146.7 - 154.1) kJ.mol-1without z and (138.02-145.14) kJ.mol-1with z where the variation rang between two values was (5.8-5.7) %. The other two types of salts given similar results within (0.886 - 0.129) % deviation rang about NaCl results without z and (0.818-0.149) % deviation rang with z values.

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“…This method is the easier and simpler method to estimate the enthalpy of dissociation. Using the Clausius-Clapeyron equation which is stated below [14]:…”

Section: Measurement Methods Of Clathrate Hydrate Dissociation Enthalmentioning

confidence: 99%

Study the Dissociation Enthalpies for R134a Clathrate Hydrate in Binary and Ternary Systems

Mukhtar

Hemeri

Mahmood

2018

alkej

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“…1, 2019 transfer for the formation of hydrate and dissociation [4]. The more commonly studies of hydrates guest molecules are for the light hydrocarbons like propane and isobutene and most low molecular weight gases, including hydrogen, CO2, hydrogen sulfide and nitrogen [5]. Refrigerant hydrates can be formed at lower temperature and under low pressures and can be considered in the desalination process, also favorable materials for energy storage, and that considered favorable in air conditioning systems.…”

Section: Engineering and Technology Journalmentioning

confidence: 99%

Thermodynamic and Kinetic Investigation of Desalination by Refrigerant Clathrate Hydrate Formation

AL-Hemeri¹,

Almukhtar²,

Mahmood³

2019

ETJ

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“…Prasad et al studied the kinetics of dissociation of methane hydrates by stepwise depressurization at a set bath temperature. 23 Researching methane hydrate dissociated under backpressures that were varied from 2.8 to 2.2 MPa, Wang et al 24 found that the dissociation rate of a hydrate that was dissociated by a continuous depressurization was higher than that dissociated by a constant backpressure, and the impact of the initial backpressure difference on the hydrate dissociation rate was almost negligible for continuous backpressure. However, during the decomposition of hydrate, the rate of gas hydrate is slower and slower as time progresses, which is not cost saving.…”

Section: Introductionmentioning

confidence: 99%

Enhanced Gas Production from Hydrate Reservoirs with Underlying Water Layer

Shi

et al. 2021

Energy Fuels

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The recovery of natural gas from a marine hydrate reservoir is a complicated geological process, involving heat and mass transfer inside hydrate-bearing sediments as well between the overburden and underlying layers. Yet, most attention has been paid merely to the evolution of the hydrate reservoir itself. The idea has been proposed to consider as a whole the hydrate layer together with the overburden and underlying layers. In this work, the enhanced gas production behavior from the hydrate reservoir with an underlying water layer was specifically studied. It is found that the initial pressure propagation from the hydrate layer to the free water layer was very difficult; this thereby dominated the early stage of hydrate dissociation. The following dissociation of hydrate was majorly controlled by the heat supply from the sensible heat of the water layer and the resulting temperature distribution. A stepwise depressurization could significantly help enable a stable production rate, and the accumulative water yield depended strongly on the overall pressure drop, regardless of the process of depressurizing. Injecting heat was limited by the low efficiency of horizontal heat transfer resulting from the long distance and low thermal conductivity. The results are helpful in terms of providing guidance to field tests where there is commonly an underlying water layer and water production is frequently encountered.

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Formation and Dissociation of Methane Hydrates from Seawater in Consolidated Sand: Mimicking Methane Hydrate Dynamics beneath the Seafloor

Cited by 19 publications

References 24 publications

Study the Dissociation Enthalpies for R134a Clathrate Hydrate in Binary and Ternary Systems

Study the Dissociation Enthalpies for R134a Clathrate Hydrate in Binary and Ternary Systems

Thermodynamic and Kinetic Investigation of Desalination by Refrigerant Clathrate Hydrate Formation

Enhanced Gas Production from Hydrate Reservoirs with Underlying Water Layer

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