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Effects of Zeolite Structure and Si/...

Janda, Amber Leigh.

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Effects of Zeolite Structure and Si/Al Ratio on Adsorption Thermodynamics and Intrinsic Kinetics of Monomolecular Cracking and Dehydrogenation of Alkanes over Bronsted Acid Sites.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Effects of Zeolite Structure and Si/Al Ratio on Adsorption Thermodynamics and Intrinsic Kinetics of Monomolecular Cracking and Dehydrogenation of Alkanes over Bronsted Acid Sites./
作者:	Janda, Amber Leigh.
出版者:	Ann Arbor : ProQuest Dissertations & Theses, : 2015,
面頁冊數:	193 p.
附註:	Source: Dissertation Abstracts International, Volume: 77-08(E), Section: B.
Contained By:	Dissertation Abstracts International77-08B(E).
標題:	Chemical engineering. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=10086092
ISBN:	9781339592251

Effects of Zeolite Structure and Si/Al Ratio on Adsorption Thermodynamics and Intrinsic Kinetics of Monomolecular Cracking and Dehydrogenation of Alkanes over Bronsted Acid Sites.
Janda, Amber Leigh.

Effects of Zeolite Structure and Si/Al Ratio on Adsorption Thermodynamics and Intrinsic Kinetics of Monomolecular Cracking and Dehydrogenation of Alkanes over Bronsted Acid Sites. - Ann Arbor : ProQuest Dissertations & Theses, 2015 - 193 p.

Source: Dissertation Abstracts International, Volume: 77-08(E), Section: B.

Thesis (Ph.D.)--University of California, Berkeley, 2015.

It is well known that the efficacy of acidic zeolite catalysts for the cracking of hydrocarbons originates from the shape and size of the zeolite pores. However, the mechanisms by which changes in pore structure influence cracking kinetics are not well understood or exploited. The aim of this dissertation is to use experiments and simulations to shed light on the ways by which zeolite structure and acid site location affect the apparent and intrinsic kinetics of n-alkane monomolecular cracking and dehydrogenation. In the rate-determining step of these processes, C-C or C-H bonds are cleaved catalytically by Bronsted protons. Thus, the kinetics of monomolecular activation reactions are useful for characterizing the influence of active site structural environment on catalysis.

ISBN: 9781339592251Subjects--Topical Terms:

560457
Chemical engineering.

Effects of Zeolite Structure and Si/Al Ratio on Adsorption Thermodynamics and Intrinsic Kinetics of Monomolecular Cracking and Dehydrogenation of Alkanes over Bronsted Acid Sites.
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245 1 0 $a Effects of Zeolite Structure and Si/Al Ratio on Adsorption Thermodynamics and Intrinsic Kinetics of Monomolecular Cracking and Dehydrogenation of Alkanes over Bronsted Acid Sites.
260 1 $a Ann Arbor : $b ProQuest Dissertations & Theses, $c 2015
300 $a 193 p.
500 $a Source: Dissertation Abstracts International, Volume: 77-08(E), Section: B.
500 $a Adviser: Alexis T. Bell.
502 $a Thesis (Ph.D.)--University of California, Berkeley, 2015.
520 $a It is well known that the efficacy of acidic zeolite catalysts for the cracking of hydrocarbons originates from the shape and size of the zeolite pores. However, the mechanisms by which changes in pore structure influence cracking kinetics are not well understood or exploited. The aim of this dissertation is to use experiments and simulations to shed light on the ways by which zeolite structure and acid site location affect the apparent and intrinsic kinetics of n-alkane monomolecular cracking and dehydrogenation. In the rate-determining step of these processes, C-C or C-H bonds are cleaved catalytically by Bronsted protons. Thus, the kinetics of monomolecular activation reactions are useful for characterizing the influence of active site structural environment on catalysis.
520 $a In Chapter 2, the effects of active site distribution on n-butane monomolecular activation kinetics are investigated for commercial samples of MFI having a range of the Si/Al ratio. Based on UV-visible spectroscopic analyses of (Co,Na)-MFI, it is inferred that, with increasing Al concentration, the fraction of Co---and, by extension, Bronsted protons in H-MFI---located at channel intersections increases relative to the fraction located at channels. Concurrently, the first-order rate coefficients (kapp) for cracking and dehydrogenation, the selectivity to terminal cracking versus central cracking, and the selectivity to dehydrogenation versus cracking increase. The stronger dependence of the selectivity to dehydrogenation on Al content is attributed to a product-like transition state, the stability of which is more sensitive to confinement than the stabilities of cracking transition states, which occur earlier along the reaction coordinate. For terminal cracking and dehydrogenation, the intrinsic activation entropy (DeltaS&Dagger;int ) increases with Al content, consistent with the larger dimensions of intersections relative to channels. Surprisingly, the rate of dehydrogenation is inhibited by butene products. Theoretical calculations suggest that this effect originates from the adsorption of isobutene at channel intersections, indicating that dehydrogenation occurs with stronger preference for these locations than does cracking.
520 $a In order to analyze the effects of zeolite structure on monomolecular alkane activation reactions, it is necessary to separate the contributions of the adsorption and reaction steps to observed kinetics. A method is developed in Chapter 3 for obtaining the enthalpy and entropy changes for adsorption of n-alkanes from the gas phase onto Bronsted protons (DeltaH ads·H+ and DeltaSads·H+) using configurational-bias Monte Carlo (CBMC) simulations.
520 $a In Chapter 4 the effects of zeolite structural confinement on n-butane cracking and dehydrogenation are characterized for zeolites that differ predominately in the size and abundance of cavities. Values of DeltaHads·H+ and DeltaSads·H+ are obtained from CBMC simulations and used to extract intrinsic rates and activation parameters. As DeltaS ads·H+ (a proxy for confinement) becomes more negative, DeltaH &Dagger;int and DeltaS&Dagger;int decrease for terminal cracking and dehydrogenation when the channel topology (e.g., straight, sinusoidal) is fixed. This observation, as well as positive values for DeltaS&Dagger;int, indicate that the transition states for these reactions resemble the products.
520 $a Finally, in Chapter 5 the influence of channel and cage topology on n-alkane adsorption are characterized for zeolites and zeotypes with one-dimensional pore systems. When cages are not present, DeltaHads·H+ and DeltaSads·H+ at fixed pore-limiting diameter (PLD; the diameter of the largest sphere that can traverse the pores) decrease in magnitude as the ratio of the smallest to largest channel diameter decreases and the pore become less circular. The higher entropy of alkanes in non-circular pores is attributed to greater freedom of movement and can cause the free energy to be lower in these environments relative to circular pores. In zeolites that lack cages, the selectivity to adsorption via a central C-C bond vs. a terminal bond exhibits a minimum at PLDs near the length of the alkane. When cages are present, the selectivity to adsorption via a central bond exhibits a minimum with respect to cage size, occurring at a diameter larger than that observed in the absence of cages. This result is attributed to a greater ability of cages to stabilize configurations in which the alkane backbone is oriented perpendicular to the cage wall. (Abstract shortened by ProQuest.).
590 $a School code: 0028.
650 4 $a Chemical engineering. $3 560457
650 4 $a Energy. $3 876794
650 4 $a Inorganic chemistry. $3 3173556
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710 2 $a University of California, Berkeley. $b Chemical Engineering. $3 1043685
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