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HomeKey Engineering MaterialsKey Engineering Materials Vol. 519Research Progress on Technology of Adsorption and...

Research Progress on Technology of Adsorption and Store Gasoline by Reticular Polyurethane Foam

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Abstract:

With powerful security and reliability of storage, the SFAM that is visibly different from the technology of storage fuel oil by the empty container adsorbs storage fuel oil by the adsorption material. Using reticular polyurethane foam to adsorb gasoline, is the application of the SFAM technology. In order to promote the development of the SFAM technology, the article analyzes the research status of the basic theory and the related theory at home and abroad of the fuel oil adsorption storage.

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Materials for Energy Conversion and Storage

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Periodical:

Key Engineering Materials (Volume 519)

Pages:

261-264

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.519.261

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Cite this paper

Online since:

July 2012

Authors:

Jie Guo, Wei Guo Ren, Yang Jiang, Zhi Gang Lu

Keywords:

Adsorption Storage, Polyurethane (PU), Reticular Foam

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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[1] J. Guo. Adsorption and store liquid fuel technology research. The engineering college of CAPF journals, 2010.06:6-8.

[2] J.M. He. Polymer foam materials and technology. Chemical industry press, 2008 (5) : 214 ~ 215

[3] S. Wang, C.H. Chen, G.M. Chen, et al.. Reticular polyurethane foam application progress. Materials science and engineering journals, 2003.21 (2) : 298 ~ 301

[4] L.Y. Liang, B. Lee, B. Chen, et al.. Research progress of porous polymer hydrogen storage material. Polymer bulletin, 2008.10:6 to 12

[5] X. Lu, B. Bu. Aluminum- magnesium alloy blasting materials and suppression performance study. o Shenyang Project College Journal (natural science edition), 2006, 2 (2) : 176 ~ 178

[6] T. Shimizu, S. Koshiro, et al. Effect of cell structure on oil absorption of highly oil absorptive polyurethane foam for on-site use. Journal of Applied Polymer Science, 1997,65 (1) : 179 ~ 186

DOI: 10.1002/(sici)1097-4628(19970705)65:1<179::aid-app21>3.0.co;2-y

[7] Jarre1 U S 4237237, (1980)

[8] J. Guo. Adsorption explosion-proof oil sac. Patent no. 200820029736.1, 2009.3

[9] T. Tian, T. Bei. Multilayer JinGang form anti-inflammatory properties. Safety engineering paper set, 1989.5:279 ~ 284.

[10] L.G. Gvozdeva et al. Normal shock waves reflection on porous compressible materials. ATAA, 1986.106:155 ~ 165

[11] G. Dupre, et al. The Propagation of detonation waves in acoustic adsorbing walled tube. ATAA 1988.114:248 ~ 263

[12] Vasil 'ev A a. Near Limiting detonation in channels with porous walls. J Combustion Explosion and Shock Waves, 1994, 30:101 ~ 106

DOI: 10.1007/bf00787892

[13] A. Teodoreczyk et al. Detonation attenuation by foam and wire reticulares lining the walls. Shock Waves, 1994, 4

[14] MIL-B-87162 a. "Military Specification Baffle Material, Expanded, Aluminum Reticular, for Aircraft Fuel Tanks", (1994)

[15] National Aviation Facilities Experimental Center. Gunfire tests of F-15 No. 1 fuel tank explosion suppression foam configuratlon. Ailantie City, New Jersey, (1974)

[16] Z. Zhong, Y. Gao, M. Li, Reticular polyurethane foam plastics application in the fuel tank of air plane. Engineering plastics applications, 2002, 12 (6) : 26 to 29

[17] H. Tian, W. Gu, T. Tian, Compiled from the Ssfety with eXess ", eXess Produktions AG. Bernstrasse 299 A, 3627 Heimberg BE, Switzerland

[18] J. Guo, "folding solid storage box" technology research report, second prize of the CAPF science and technology progress prize, 2008.12