This readme.txt file was generated on 2023-04-06 by 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, https://doi.org/10.13020/y009-3y91.

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GENERAL INFORMATION
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1. Title of Dataset: Data for On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis

2. Author Information

	Author Contact:  Paul J. Dauenhauer (hauer@umn.edu)

	Name:  Nathan Sidhu
	Institution: University of Minnesota - Twin Cities
	Email: sidhu016@umn.edu
	ORCID: 0000-0003-4186-6874


	Name:  Isaac Mastalski
	Institution: University of Minnesota - Twin Cities
	Email: masta062@umn.edu
	ORCID: 0000-0002-9039-3455


	Name:  Paul Dauenhauer
	Institution: University of Minnesota - Twin Cities
	Email: hauer@umn.edu
	ORCID: 0000-0001-5810-1953


3. Date published or finalized for release: 2023-04-05


4. Date of data collection: 2018-08-01 to 2018-08-31


5. Geographic location of data collection: University of Minnesota - Twin Cities, Amundson Hall, 421 Washington Ave SE, Minneapolis, MN 55455


6. Information about funding sources that supported the collection of the data: ExxonMobil Technology and Engineering Company, University of Minnesota Center for Sustainable Polymers (grant number CHE-1901635)


7. Overview of the data:
The data here contain high-speed videos (1000 fps) of polypropylene thin films pyrolyzed at 500–700 °C for 2.0 seconds. 
These videos are in support of the publication entitled “On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis.”
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. 

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SHARING/ACCESS INFORMATION
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1. Licenses/restrictions placed on the data: Attribution-NonCommercial-NoDerivs 3.0 United States (http://creativecommons.org/licenses/by-nc-nd/3.0/us/)

2. Links to publications that cite or use the data: 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

3. Was data derived from another source? No
	If yes, list source(s):

4. Terms of Use: Data Repository for the U of Minnesota (DRUM) By using these files, users agree to the Terms of Use. https://conservancy.umn.edu/pages/drum/policies/#terms-of-use


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DATA & FILE OVERVIEW
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File List

	Filename: Video_S01_500_C_Side_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S02_500_C_Side_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S03_550_C_Side_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S04_550_C_Side_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S05_600_C_Side_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S06_600_C_Side_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S07_650_C_Side_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S08_650_C_Side_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S09_700_C_Side_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S10_700_C_Side_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S11_500_C_Top_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S12_500_C_Top_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S13_550_C_Top_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S14_550_C_Top_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S15_600_C_Top_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S16_600_C_Top_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S17_650_C_Top_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S18_650_C_Top_View_1000_fps.mp4 
	Short description: 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.

	Filename: Video_S19_700_C_Top_View_30_fps.mp4 
	Short description: 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).

	Filename: Video_S20_700_C_Top_View_1000_fps.mp4 
	Short description: 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.


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METHODOLOGICAL INFORMATION
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1. Description of methods used for collection/generation of data: 

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).


2. Methods for processing the data: The original videos have been cut to only include the 2.0 seconds of footage capturing the reaction pulses of the visual experiments. No other processing was performed.


3. Instrument- or software-specific information needed to interpret the data: N/A


4. Standards and calibration information, if appropriate: N/A


5. Environmental/experimental conditions: The polypropylene thin films were pyrolyzed at 500–700 °C for 2.0 seconds under a He atmosphere. The full details of the experiment are provided in the manuscript "On the Intrinsic Reaction Kinetics of Polypropylene Pyrolysis."


6. People involved with sample collection, processing, analysis and/or submission: Sidhu, Nathan; Mastalski, Isaac; Zolghadr, Ali; Dauenhauer, Paul J.