Title
Decentralized and centralized transport and logistics carbon emission optimization and emission norms for the transport and logistics sector
Author
Davydenko, I.
Hopman, M.
Spreen, J.S.
Publication year
2020
Abstract
Transport and logistics is one of the most important economic sectors contributing to the climate change. By the nature of transport and logistics operations, the sector is one of the most difficult ones to decarbonize. This paper proposes using carbon footprinting tools to optimize logistics operations with respect to emissions, and to setup government-led emission norms for the transport and logistics sector. Carbon footprinting can be used for operational decision making, such as those envisioned by the concept of physical internet, as well as in the classical operations research centralized optimization. The paper shows conceptually how carbon footprinting indicators are applicable for the traditional logistics optimization and for the decentralized optimization of operations. The governments can further speed up the process by setting emission norms for the transport and logistics. This paper shows that the carbon footprinting methods provide sufficient input for both logistics optimization and the norms. The carbon footprinting indicators are discussed and incorporated into the mathematical formulations of logistics optimization; the same carbon footprinting data is used for the setup of carbon emission norms in logistics.
Subject
Carbon footprint
Carbon footprint minimization
Emission monitoring
Emission norms
Transport and logistics optimization
Centralized optimization
Decentralized optimization
Mobility & Logistics
Urbanisation
To reference this document use:
http://resolver.tudelft.nl/uuid:eedd66e1-2928-45e6-aa4d-f1526a657274
TNO identifier
952652
Source
Online IPIC 2020 - 7th International Physical Internet Conference 18th-20th November, 2020 | Shenzhen University, Shenzhen, China, 1-13
Document type
conference paper