Your search keyword '"Dalmazzone, D."' showing total 3 results

1. Characterisation of CO2 clathrate hydrate slurries for secondary refrigeration applications

Author

Mayoufi, N., Delahaye, Anthony, Fournaison, Laurence, Dalmazzone, D., Fürst, W., Génie des procédés frigorifiques (UR GPAN), Centre national du machinisme agricole, du génie rural, des eaux et forêts (CEMAGREF), École Nationale Supérieure de Techniques Avancées (ENSTA Paris), and Irstea Publications, Migration

Subjects

[SDE] Environmental Sciences, CO2 HYDRATE, RHEOLOGY, SLURRY, THERMODYNAMICS, [SDE]Environmental Sciences, QUATERNARY SALT

Abstract

International audience; The aim of this work is to study how additives can improve, formation conditions, thermal effi-ciency and flowing of clathrate hydrate slurries. In the case of PCM storage applications for refrig-eration, hydrates must have a high dissociation enthalpy. In addition, the stability conditions must be adapted, the temperature being consistent with the application (between 273.15 and 298.15) and the pressure being suitable for an industrial facility. In the present study, different quaternary salts are used to reduce the formation pressure of CO2 hydrate: TBACl (tetra-n-butylammonium chloride), TBANO3 (tetra-n-butylammonium nitrate), and TBPB (tetra-n-butylphosphonium bromide). Firstly the influence of additives on the thermodynam-ics properties of the CO2-H2O system is studied. Results acquired by Differential Scaning Calo-rimetry, DSC, on formation temperatures conditions and dissociations enthalpies show that each of the studied quaternary salts may form mixed hydrate with CO2. Theses mixed hydrates are more stable than without additives, resulting in a significant decrease of the CO2 pressure needed for the hydrate formation. They also reveal that mixed TBPB + CO2 hydrate has suitable (P, T) conditions and latent heat content and therefore seems very appropriate as PCM for cold storage applications. After the previous thermodynamic study, a preliminary rheological characterisation of the TBPB hydrate slurry was also investigated using a dynamic loop allowing pressure drop and flow rate measurements.

Published

2010

2. Thermodynamic Properties of THF + C02 Hydrates in Relation with Refrigeration Applications.

Author

Martínez, M. C., Dalmazzone, D., Fürst, W., Delahaye, A., and Fournaison, L.

Subjects

HYDRATES, CARBON dioxide, ORGANIC compounds, ENTHALPY, THERMODYNAMICS, CALORIMETRY, REFRIGERATION & refrigerating machinery

Abstract

The article presents a study of the Lw-H-V equilibrium conditions, the dissociation enthalpy and the CO2hydration number of a clathrate hydrate formed from THF/CO2/water mixtures using a differential scanning calorimetry (DSC) method. New equilibrium values have also been obtained in the present study together with hydrate dissociation enthalpy. It also compares the new equilibrium measurements with modeling results based on a model combining Van der Waals and Platteeuw approach with a predictive equation of state.

Published

2008

3. Experimental determination of stability conditions of methane hydrate in aqueous calcium chloride solutions using high pressure differential scanning calorimetry

Author

Kharrat, M. and Dalmazzone, D.

Subjects

*CALORIMETRY, *CALCIUM, *THERMODYNAMICS

Abstract

The validity of differential scanning calorimetry (d.s.c.) as an alternate method of determination of thermodynamic conditions of stability of gas hydrates in aqueous media was asserted by comparison to literature data, in the case of methane hydrate in pure water and in sodium chloride solutions. Requirements for thermodynamic validity of the equilibrium temperatures measured by this technique were investigated and are discussed in details. New equilibrium data of (methane hydrate + water + methane) in aqueous calcium chloride solutions, in the concentration range from x=8.47·10−3 to x=53.27·10−3, were determined using the same method, in the pressure range 5 MPa to 11 MPa. Experimental results were compared to data computed using a model that is presented, showing very good agreement over a wide range of salt concentration. These results confirm the interesting perspectives of application of this technique in the field of gas hydrate thermodynamics. [Copyright &y& Elsevier]

Published

2003