Data for On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis

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2019-01-01
2023-03-01

Date completed

2023-03-01

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Title

Data for On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis

Published Date

2023-04-05

Author Contact

Dauenhauer, Paul J
hauer@umn.edu

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Abstract

High speed photography of polypropylene (PP) reacting on a surface varying in temperature from 525-625 deg C.

Description

The original videos were recorded at 1000 fps using a Phantom eX-2 high-speed camera with a macro lens (Carl Zeiss Makro-Planar 2/100 zf.2) attached with Nikon PK-13, PK-12, PK-13, and PK-11A extension rings. The reactor system was illuminated with a high-power directional light source (Prior, Lumen 2000). The original videos have been cut to only include the 2.0 seconds of footage capturing the reaction pulses of the visual experiments.

Referenced by

Sidhu, N., Mastalski, I., Zolghadr, A., Patel, B., Uppili, S., Go, T., . . . Dauenhauer, P. (2023). On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis. ChemRxiv.
https://doi.org/10.26434/chemrxiv-2023-kqqx1

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Funding information

ExxonMobil Technology and Engineering Company, University of Minnesota Center for Sustainable Polymers (grant number CHE-1901635)

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Suggested citation

Sidhu, Nathan; Mastalski, Isaac; Dauenhauer, Paul. (2023). Data for On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/y009-3y91.

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Video_S01_500_C_Side_View_30_fps.mp4
Video_S01: This video shows a 15 µm film of PP being reacted at 500 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(11.93 MB)

Video_S02_500_C_Side_View_1000_fps.mp4
Video_S02: This video shows a 15 µm film of PP being reacted at 500 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S01.
(11.93 MB)

Video_S03_550_C_Side_View_30_fps.mp4
Video_S03: This video shows a 15 µm film of PP being reacted at 550 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(11.93 MB)

Video_S04_550_C_Side_View_1000_fps.mp4
Video_S04: This video shows a 15 µm film of PP being reacted at 550 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S03.
(11.93 MB)

Video_S05_600_C_Side_View_30_fps.mp4
Video_S05: This video shows a 15 µm film of PP being reacted at 600 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(11.93 MB)

Video_S06_600_C_Side_View_1000_fps.mp4
Video_S06: This video shows a 15 µm film of PP being reacted at 600 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S05.
(11.93 MB)

Video_S07_650_C_Side_View_30_fps.mp4
Video_S07: This video shows a 15 µm film of PP being reacted at 650 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(11.95 MB)

Video_S08_650_C_Side_View_1000_fps.mp4
Video_S08: This video shows a 15 µm film of PP being reacted at 650 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S07.
(11.95 MB)

Video_S09_700_C_Side_View_30_fps.mp4
Video_S09: This video shows a 15 µm film of PP being reacted at 700 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(11.96 MB)

Video_S10_700_C_Side_View_1000_fps.mp4
Video_S10: This video shows a 15 µm film of PP being reacted at 700 °C for 2.0 s in the Visual PHASR system (side view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S09.
(11.96 MB)

Video_S11_500_C_Top_View_30_fps.mp4
Video_S11: This video shows a 15 µm film of PP being reacted at 500 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(12.21 MB)

Video_S12_500_C_Top_View_1000_fps.mp4
Video_S12: This video shows a 15 µm film of PP being reacted at 500 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S11.
(12.21 MB)

Video_S13_550_C_Top_View_30_fps.mp4
Video_S13: This video shows a 15 µm film of PP being reacted at 550 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(12.12 MB)

Video_S14_550_C_Top_View_1000_fps.mp4
Video_S14: This video shows a 15 µm film of PP being reacted at 550 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S13.
(12.12 MB)

Video_S15_600_C_Top_View_30_fps.mp4
Video_S15: This video shows a 15 µm film of PP being reacted at 600 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(12.19 MB)

Video_S16_600_C_Top_View_1000_fps.mp4
Video_S16: This video shows a 15 µm film of PP being reacted at 600 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S15.
(12.19 MB)

Video_S17_650_C_Top_View_30_fps.mp4
Video_S17: This video shows a 15 µm film of PP being reacted at 650 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(12.11 MB)

Video_S18_650_C_Top_View_1000_fps.mp4
Video_S18: This video shows a 15 µm film of PP being reacted at 650 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S17.
(12.11 MB)

Video_S19_700_C_Top_View_30_fps.mp4
Video_S19: This video shows a 15 µm film of PP being reacted at 700 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 30 fps (~33.3 times slower than real-time).
(12.05 MB)

Video_S20_700_C_Top_View_1000_fps.mp4
Video_S20: This video shows a 15 µm film of PP being reacted at 700 °C for 2.0 s in the Visual PHASR system (top view). This video is published at a framerate of 1000 fps (real-time) and is the same footage as Video_S19.
(12.05 MB)

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