Resilience and impact analysis for biofuel supply chain

Yu Li; Yunchao Zhang; Runwen Qin; Zeyi Sun

Resilience and impact analysis for biofuel supply chain

Yu Li
, Yunchao Zhang
, Runwen Qin
, Zeyi Sun

Civil Engineering

Missouri University of Science and Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Biofuel is considered a promising alternative to traditional gasoline. The resilience of the biofuel supply chain system under various disruptions or attacks plays a critical role in determining the robustness of the supply chain system and facilitating a large scale substitution of biofuels for fossil fuels. In this paper, we explore the resillience under potential disruptions and disturbances for a four-layer biofuel supply chain network from the perspective of economic viability. A numerical case study employing the biofuel supply chain system in Missouri of the U.S. is conducted to quantify the potential impacts on performance with respect to cost effectiveness.

Original language	English
Title of host publication	2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration
Subtitle of host publication	A Systems Approach to Engineering Management Solutions, ASEM 2019
Editors	E. Schott, H. Keathley, C. Krejci
Publisher	American Society for Engineering Management
ISBN (Electronic)	9780997519563
State	Published - 2019
Event	2019 International Annual Conference of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019 - Philadelphia, United States Duration: Oct 23 2019 → Oct 26 2019

Publication series

Name	2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019

Conference

Conference	2019 International Annual Conference of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019
Country/Territory	United States
City	Philadelphia
Period	10/23/19 → 10/26/19

Keywords

Biofuel supply chain
Resilience
Security

Cite this

Li, Y., Zhang, Y., Qin, R., & Sun, Z. (2019). Resilience and impact analysis for biofuel supply chain. In E. Schott, H. Keathley, & C. Krejci (Eds.), 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019 (2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019). American Society for Engineering Management.

Li, Yu ; Zhang, Yunchao ; Qin, Runwen et al. / Resilience and impact analysis for biofuel supply chain. 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019. editor / E. Schott ; H. Keathley ; C. Krejci. American Society for Engineering Management, 2019. (2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019).

@inproceedings{76f4ee6a5b8d41c49c2187918f227ecb,

title = "Resilience and impact analysis for biofuel supply chain",

abstract = "Biofuel is considered a promising alternative to traditional gasoline. The resilience of the biofuel supply chain system under various disruptions or attacks plays a critical role in determining the robustness of the supply chain system and facilitating a large scale substitution of biofuels for fossil fuels. In this paper, we explore the resillience under potential disruptions and disturbances for a four-layer biofuel supply chain network from the perspective of economic viability. A numerical case study employing the biofuel supply chain system in Missouri of the U.S. is conducted to quantify the potential impacts on performance with respect to cost effectiveness.",

keywords = "Biofuel supply chain, Resilience, Security",

author = "Yu Li and Yunchao Zhang and Runwen Qin and Zeyi Sun",

note = "Publisher Copyright: {\textcopyright} American Society for Engineering Management, 2019.; 2019 International Annual Conference of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019 ; Conference date: 23-10-2019 Through 26-10-2019",

year = "2019",

language = "English",

series = "2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019",

publisher = "American Society for Engineering Management",

editor = "E. Schott and H. Keathley and C. Krejci",

booktitle = "2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration",

}

Li, Y, Zhang, Y, Qin, R & Sun, Z 2019, Resilience and impact analysis for biofuel supply chain. in E Schott, H Keathley & C Krejci (eds), 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019. 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019, American Society for Engineering Management, 2019 International Annual Conference of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019, Philadelphia, United States, 10/23/19.

Resilience and impact analysis for biofuel supply chain. / Li, Yu; Zhang, Yunchao; Qin, Runwen et al.
2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019. ed. / E. Schott; H. Keathley; C. Krejci. American Society for Engineering Management, 2019. (2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Resilience and impact analysis for biofuel supply chain

AU - Li, Yu

AU - Zhang, Yunchao

AU - Qin, Runwen

AU - Sun, Zeyi

N1 - Publisher Copyright: © American Society for Engineering Management, 2019.

PY - 2019

Y1 - 2019

N2 - Biofuel is considered a promising alternative to traditional gasoline. The resilience of the biofuel supply chain system under various disruptions or attacks plays a critical role in determining the robustness of the supply chain system and facilitating a large scale substitution of biofuels for fossil fuels. In this paper, we explore the resillience under potential disruptions and disturbances for a four-layer biofuel supply chain network from the perspective of economic viability. A numerical case study employing the biofuel supply chain system in Missouri of the U.S. is conducted to quantify the potential impacts on performance with respect to cost effectiveness.

AB - Biofuel is considered a promising alternative to traditional gasoline. The resilience of the biofuel supply chain system under various disruptions or attacks plays a critical role in determining the robustness of the supply chain system and facilitating a large scale substitution of biofuels for fossil fuels. In this paper, we explore the resillience under potential disruptions and disturbances for a four-layer biofuel supply chain network from the perspective of economic viability. A numerical case study employing the biofuel supply chain system in Missouri of the U.S. is conducted to quantify the potential impacts on performance with respect to cost effectiveness.

KW - Biofuel supply chain

KW - Resilience

KW - Security

UR - https://www.scopus.com/pages/publications/85086287403

M3 - Conference contribution

AN - SCOPUS:85086287403

T3 - 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019

BT - 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration

A2 - Schott, E.

A2 - Keathley, H.

A2 - Krejci, C.

PB - American Society for Engineering Management

T2 - 2019 International Annual Conference of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019

Y2 - 23 October 2019 through 26 October 2019

ER -

Li Y, Zhang Y, Qin R, Sun Z. Resilience and impact analysis for biofuel supply chain. In Schott E, Keathley H, Krejci C, editors, 2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019. American Society for Engineering Management. 2019. (2019 International Annual Conference Proceedings of the American Society for Engineering Management and 40th Meeting Celebration: A Systems Approach to Engineering Management Solutions, ASEM 2019).

Resilience and impact analysis for biofuel supply chain

Abstract

Publication series

Conference

Keywords

Other files and links

Fingerprint

Cite this