Zeolite Supported Pt for Depolymerization of Polyethylene by Induction Heating

Bernard Whajah; Joseph N. Heil; Cameron L. Roman; James A. Dorman; Kerry M. Dooley

doi:10.1021/acs.iecr.2c04568

Zeolite Supported Pt for Depolymerization of Polyethylene by Induction Heating

Bernard Whajah
, Joseph N. Heil
, Cameron L. Roman
, James A. Dorman
, Kerry M. Dooley

Applied Catalysis&Emissions Res. Group

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

We demonstrate that for polyethylene depolymerization with induction heating (IH), using a bifunctional (Pt- or Pt− Sn-containing zeolite) hydrocracking catalyst, we can obtain high hydrocarbon product yields (up to 95 wt % in 2 h) at a relatively low surface temperature (375 °C) and with a tunable product distribution ranging from light gas products to gasoline- to diesel-range hydrocarbons. Four zeolite types [MFI, LTL, CHA(SSZ-13), and TON] were chosen as the supports due to their varying pore sizes and structures. These depolymerization results are obtained at atmospheric pressure and without the use of H₂ and result in an alkane/alkene mixture with virtually no methane, aromatics, or coke formation. We also demonstrate how IH helps overcome diffusional resistances associated with conventional thermal heating and thereby shortens reaction times.(Figure Presented).

Original language	English
Pages (from-to)	8635-8643
Number of pages	9
Journal	Industrial and Engineering Chemistry Research
Volume	62
Issue number	22
DOIs	https://doi.org/10.1021/acs.iecr.2c04568
State	Published - Jun 7 2023

Funding

We acknowledge financial support from the State of Louisiana Board of Regents [contract LEQSF(2018-21)-RD-B-02], the LSU LIFT Fund, grant AG-2020-004, and NSF, grant CBET-1805785. J.N.H. acknowledges support from NSF-REU, grant EEC 1852544.

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10.1021/acs.iecr.2c04568

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title = "Zeolite Supported Pt for Depolymerization of Polyethylene by Induction Heating",

abstract = "We demonstrate that for polyethylene depolymerization with induction heating (IH), using a bifunctional (Pt- or Pt− Sn-containing zeolite) hydrocracking catalyst, we can obtain high hydrocarbon product yields (up to 95 wt \% in 2 h) at a relatively low surface temperature (375 °C) and with a tunable product distribution ranging from light gas products to gasoline- to diesel-range hydrocarbons. Four zeolite types [MFI, LTL, CHA(SSZ-13), and TON] were chosen as the supports due to their varying pore sizes and structures. These depolymerization results are obtained at atmospheric pressure and without the use of H2 and result in an alkane/alkene mixture with virtually no methane, aromatics, or coke formation. We also demonstrate how IH helps overcome diffusional resistances associated with conventional thermal heating and thereby shortens reaction times.(Figure Presented).",

author = "Bernard Whajah and Heil, \{Joseph N.\} and Roman, \{Cameron L.\} and Dorman, \{James A.\} and Dooley, \{Kerry M.\}",

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T1 - Zeolite Supported Pt for Depolymerization of Polyethylene by Induction Heating

AU - Whajah, Bernard

AU - Heil, Joseph N.

AU - Roman, Cameron L.

AU - Dorman, James A.

AU - Dooley, Kerry M.

PY - 2023/6/7

Y1 - 2023/6/7

N2 - We demonstrate that for polyethylene depolymerization with induction heating (IH), using a bifunctional (Pt- or Pt− Sn-containing zeolite) hydrocracking catalyst, we can obtain high hydrocarbon product yields (up to 95 wt % in 2 h) at a relatively low surface temperature (375 °C) and with a tunable product distribution ranging from light gas products to gasoline- to diesel-range hydrocarbons. Four zeolite types [MFI, LTL, CHA(SSZ-13), and TON] were chosen as the supports due to their varying pore sizes and structures. These depolymerization results are obtained at atmospheric pressure and without the use of H2 and result in an alkane/alkene mixture with virtually no methane, aromatics, or coke formation. We also demonstrate how IH helps overcome diffusional resistances associated with conventional thermal heating and thereby shortens reaction times.(Figure Presented).

AB - We demonstrate that for polyethylene depolymerization with induction heating (IH), using a bifunctional (Pt- or Pt− Sn-containing zeolite) hydrocracking catalyst, we can obtain high hydrocarbon product yields (up to 95 wt % in 2 h) at a relatively low surface temperature (375 °C) and with a tunable product distribution ranging from light gas products to gasoline- to diesel-range hydrocarbons. Four zeolite types [MFI, LTL, CHA(SSZ-13), and TON] were chosen as the supports due to their varying pore sizes and structures. These depolymerization results are obtained at atmospheric pressure and without the use of H2 and result in an alkane/alkene mixture with virtually no methane, aromatics, or coke formation. We also demonstrate how IH helps overcome diffusional resistances associated with conventional thermal heating and thereby shortens reaction times.(Figure Presented).

UR - https://www.scopus.com/pages/publications/85162231796

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SP - 8635

EP - 8643

JO - Industrial and Engineering Chemistry Research

JF - Industrial and Engineering Chemistry Research

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ER -

Zeolite Supported Pt for Depolymerization of Polyethylene by Induction Heating

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