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Journal Article 3

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2020 1

2008 1

2006 1

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AACH 1

ammonium carbonate 1

azeotropic 1

calcination temperature 1

carbonate hydroxide 1

extractive heterogeneous-azeotropic distillation 1

heat integration 1

heat release rate 1

hydrophilic pervaporation 1

modelling 1

non-ideal mixture 1

overpressure 1

pool fire 1

spherical 1

water mist 1

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Preparation of ultrafine α-AlO using precipitation-azeotropic distillation method

XIAO Jin, QIN Qi, ZHOU Feng, CHEN Yanbin, WAN Ye

Frontiers of Mechanical Engineering 2008, Volume 3, Issue 2,   Pages 226-231 doi: 10.1007/s11465-008-0029-y

Abstract: Ammonium aluminum carbonate hydroxide (AACH) was prepared by a precipitation-azeotropic distillationammonium carbonate, proper amount of PEG1000 is added as the dispersant, and the product is treated by azeotropic

Keywords: calcination temperature     spherical     AACH     carbonate hydroxide     ammonium carbonate    

Combining extractive heterogeneous-azeotropic distillation and hydrophilic pervaporation for enhanced

Eniko Haaz, Botond Szilagyi, Daniel Fozer, Andras Jozsef Toth

Frontiers of Chemical Science and Engineering 2020, Volume 14, Issue 5,   Pages 913-927 doi: 10.1007/s11705-019-1877-1

Abstract: A new method which combines extractive heterogeneous-azeotropic distillation (EHAD) and hydrophilic pervaporationThis improved distillation method combines the benefits of heterogeneous-azeotropic and extractive distillations

Keywords: hydrophilic pervaporation     non-ideal mixture     modelling     extractive heterogeneous-azeotropic distillation    

Investigation of Fire Enhancement in Pool Fire by Water Mist

Lu Qiang,Li Gai,Liao Guangxuan,Huan Gxin,Zhu Wei

Strategic Study of CAE 2006, Volume 8, Issue 7,   Pages 78-82

Abstract:

In the process of water mist fire suppression the phenomenon of fire expansion may be found initially. Experiments and theoretic study show that evaporation of mist on the surface of fuel plays a crucial role in the fire expansion. In experiments of varied conditions, it is found that volatility of fuel and characteristics of water mist determine the degree of fire intensification. It is found that water in the bottom of tray will make fuel surface temperature and fire heat release rate descend. And with increase of water quantity, fire intensification will be weakened, extinguishing time also be shortened. So further research on change of fire heat release rate owing to water pouring is necessary to ensure the reliability of experiment data.

Keywords: water mist     pool fire     azeotropic     overpressure     heat release rate    

Title Author Date Type Operation

Preparation of ultrafine α-AlO using precipitation-azeotropic distillation method

XIAO Jin, QIN Qi, ZHOU Feng, CHEN Yanbin, WAN Ye

Journal Article

Combining extractive heterogeneous-azeotropic distillation and hydrophilic pervaporation for enhanced

Eniko Haaz, Botond Szilagyi, Daniel Fozer, Andras Jozsef Toth

Journal Article

Investigation of Fire Enhancement in Pool Fire by Water Mist

Lu Qiang,Li Gai,Liao Guangxuan,Huan Gxin,Zhu Wei

Journal Article