Environmental Engineering Reference
In-Depth Information
5. Bučko, T., Benco, L., Hafner, J., Ángyán, J.G. Monomolecular cracking of propane over
acidic chabazite: An ab initio molecular dynamics and transition path sampling study.
Journal of Catalysis
,
2011
,
279
(1), 220-228.
6. (a) Babitz, S.M., Williams, B.A., Miller, J.T., Snurr, R.Q., Haag, W.O., Kung, H.H.
Monomolecular cracking of n-hexane on Y, MOR, and ZSM-5 zeolites.
Applied Catalysis
A: General
,
1999
,
179
(1-2), 71-86; (b) Chang, F.X., Wei, Y.X., Liu, X.B., Zhao, Y.F.,
Xu, L., Sun, Y., Zhang, D.Z., He, Y.L., Liu, Z.M. A mechanistic investigation of the
coupled reaction of n-hexane and methanol over HZSM-5.
Applied Catalysis A: General
,
2007
,
328
(2), 163-173.
7. Kotrel, S., Knozinger, H., Gates, B.C. The Haag-Dessau mechanism of protolytic crack-
ing of alkanes.
Microporous and Mesoporous Materials
,
2000
,
35-36
, 11-20.
8. He, K., Zhang, S., Mi, J., Chen, J., Cheng, L. Mechanism of catalytic hydropyrolysis of
sedimentary organic matter with MoS
2
.
Petroleum Science
,
2011
,
8
(2), 134-142.
9. Ramachandran, R., Menon, R.K. An overview of industrial uses of hydrogen.
Interna-
tional Journal of Hydrogen Energy
,
1998
,
23
(7), 593-598.
10. Appl, M.,
Ammonia, 1. Introduction
, Wiley Publication, 2011.
11. Howard, F., James, H.
Chemical Reactor Design: For Process Plants
. In
Case Study 106:
Ammonia Synthesis
, Austin, TX, John Wiley & Sons, 1977.
12. Lindlar, H., Dubuis, R. Palladium catalyst for partial reduction of acetylenes.
Organic
Syntheses
,
1973
,
5
, 880.
13. Freeman, I.P.
Margarines and Shortenings
, Wiley Publication, 2000.
14. Breck, G., Bhatia, S.
Handbook of Industrial Oil and Fat Products
, CBS Publication,
Delhi, 2008.
15. Luidold, S., Antrekowitsch, H. Hydrogen as a reducing agent: State-of-the-art science
and technology.
Jom
,
2007
,
59
(6), 20-26.
16. Wiley-VCH,
Ullmann's Encyclopedia of Industrial Chemistry
, 6th ed., Wiley Publication,
Weinheim,
2003
, Vol. 37.
17. Schulmeyer, W.V., Ortner, H.M. Mechanisms of the hydrogen reduction of molybdenum
oxides.
International Journal of Refractory Metals & Hard Materials
,
2002
,
20
(4),
261-269.
18. Suban, M., Tusek, J., Uran, M. Use of hydrogen in welding engineering in former times
and today.
Journal of Materials Processing Technology
,
2001
,
119
(1-3), 193-198.
19. Tusek, J., Suban, M. Experimental research of the effect of hydrogen in argon as a shield-
ing gas in arc welding of high-alloy stainless steel.
International Journal of Hydrogen
Energy
,
2000
,
25
(4), 369-376.
20. Nagano, S. Development of world's largest hydrogen-cooled turbine generator.
Power
Engineering Society Summer Meeting, IEEE
,
2002
,
2
, 657-663.
21. Ahmed, Z., Ahmet, Z., Amro, M. Cooling Aerospace plane using hydrogen, ammonia and
krypton. In
32nd Thermophysics Conference
, American Institute of Aeronautics and
Astronaulics, Inc., 1997.
22. Algarni, A.Z., Sahin, A.Z., Yilbas, B.S., Ahmed, S.A. Cooling of Aerospace Plane Using
Liquid-Hydrogen and Methane.
Journal of Aircraft
,
1995
,
32
(3), 539-546.
Search WWH ::
Custom Search