Shared Charging Infrastructure in Collaborative Electrification Hubs (CEHs) Governance, Cost Allocation, and Operational Viability
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Publicerad
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
Tidskriftstitel
ISSN
Volymtitel
Utgivare
Sammanfattning
The European road freight sector is transitioning to battery electric vehicles due to stringent
decarbonization mandates. However, this transition is hindered by severe physical constraints
in the energy grid, rendering individual high-capacity charging connections unfeasible for
many logistics service providers (LSPs). Consequently, the industry is gravitating towards
Collaborative Electrification Hubs (CEHs). While CEHs resolve grid bottlenecks by
aggregating demand, they introduce complex micro-level tensions regarding operational
coordination, trust, and equitable cost allocation, particularly under volatile peak-based
power tariffs. The central problem is the lack of established organizational models to govern
these interdependent actors sharing a finite resource.
This study employs a qualitative, multi-method approach to explore the organizational
dynamics of shared charging infrastructure. The methodology integrates a Semi-systematic
Literature Review (SSLR) focusing on logistics governance and electric vehicle
infrastructure, complemented by semi-structured expert interviews with key stakeholders
across academic, independent operational, and procurement domains. The analysis is
grounded in a dual-theoretical framework: Resource Dependence Theory (RDT) explains the
formation of hubs as bridging strategies to manage resource scarcity, while Game Theory
assesses the strategic stability and fairness of cost-allocation mechanisms.
The research proposes a "Three-Level Model of Systemic Interdependence" to illustrate how
macro-level grid constraints force meso-level organizational clustering, which in turn
generates micro-level operational friction. Preliminary findings suggest that without robust
governance mechanisms and neutral orchestrators to enforce fair cost allocation and
operational rules, CEHs are susceptible to free-riding and systemic instability. Ultimately,
this thesis provides a theoretical and practical framework for designing governance structures
that ensure fair access, mitigate operational uncertainty, and lower the Total Cost of
Ownership (TCO) for logistics operators navigating the electrification transition.
Beskrivning
Ämne/nyckelord
Shared Charging Infrastructure, Electric Freight Vehicles, Logistics Governance, Cost Allocation
