Supplementary data for numerical experiments conducted in Cell Ag Supply Chain Design Paper

Skinner, Dawne DS

https://ror.org/01e6qks80

Dalhousie University

Blake, John JTB

https://ror.org/01e6qks80

Dalhousie University

Diallo, Claver CSHD

https://ror.org/01e6qks80

Dalhousie University

https://orcid.org/0000-0002-7381-2187

2019-01-01/2025-04-20

2025-04-22T17:25:31Z

2025-04-22T17:25:31Z

2025-04-22

https://doi.org/10.20383/103.01259

https://www.frdr-dfdr.ca/repo/dataset/a0934bf7-1551-4b6d-b554-bf64104dff2e

Cellular agriculture, which produces animal-derived products via biotechnological processes, has the potential to mitigate the negative impacts of traditional methods of meat and dairy production such as elevated greenhouse gas emissions, depletion and degradation of arable lands, and waterway pollution. However, lifecycle assessments for cultured meat production processes suggests that additional environmental and cost improvements are needed to compete with traditional meat production methods. Adoption of circular supply chains can improve the economic and environmental outcomes of production processes. In cultured meat production, the use of agricultural byproducts such as hydrolyzed soymeal, as a cheap alternative to chemically defined amino acids holds much promise for reducing cost and environmental impacts. However, their impact on production efficiency is largely unknown. The aim of this paper is to develop a novel exploratory supply chain model for a viable large-scale cellular agriculture network that considers facility location, ingredient blending, capacity design and technology selection problems. A mixed integer linear programming model is developed to investigate the dynamics between demand, capacity design, location, blending and technology selection decisions. Useful managerial insights are developed through various computational experiments including iso-cost curves to help decision-makers design the optimal blending of pure (pharmaceutically sourced) and chemically undefined byproduct ingredients.

Federated Research Data Repository / dépôt fédéré de données de recherche

Creative Commons Public Domain Dedication (CC0 1.0)

https://creativecommons.org/publicdomain/zero/1.0/

Cellular agriculture

Circular supply chain design

Optimization

Supplementary data for numerical experiments conducted in Cell Ag Supply Chain Design Paper

f163c1b3-9c88-42f6-a7bb-5839ed6c4063

/1/published/publication_1254/

2024

Skinner, Dawne

2022-09-05/2025-04-12

Dataset

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Northwest and central USA;-;-;United States

https://ror.org/00cjrc276

Mitacs

IT33679

Optimizing cellular agriculture supply chains for social, environmental and economic benefits

New Harvest Inc.

IT33679

Optimizing cellular agriculture supply chains for social, environmental and economic benefits

RDF2020499

Industrial, systems and processes engineering

Biosystems and agricultural engineering

Biosystems and agricultural engineering, not elsewhere classified

Génie industriel, des systèmes et des procédés

Biosystèmes et génie agricole

Biosystèmes et génie agricole, non classé ailleurs

RDF2020301

Industrial, systems and processes engineering

Operational research

Programming in operational research (including linear and nonlinear programming)

Génie industriel, des systèmes et des procédés

Recherche opérationnelle

Programmation en recherche opérationnelle (y compris les programmations linéaire et non linéaire)

Dawne Skinner, John Blake, Claver Diallo (2024) Towards Cellular Agriculture: An Exploratory Supply Chain Model, submitted to Elsevier. It is under review and has not been accepted yet.