Efficiency‑Sustainability Models to Assess Blockchain Adoption Strategies with Uncertainty in the Oil and Gas Sector
Citation
BABAEİ, Ardavan, Erfan Babaee TİRKOLAEE & Ferzat ANKA. "Efficiency‑Sustainability Models to Assess Blockchain Adoption Strategies with Uncertainty in the Oil and Gas Sector". Environment, Development and Sustainabilityv, (2024): 1-27.Abstract
The Oil and Gas (O&G) supply chain, vital for energy delivery, faces challenges such as
excessive paperwork, limited transparency, and sustainability issues due to conventional
governance methods. This study develops a decision support framework for evaluating
blockchain deployment strategies in the sector, focusing on cost, profit, and income. The
framework evaluates blockchain strategies under both deterministic and non-deterministic
conditions using Data Envelopment Analysis (DEA) models to assess cost-efficiency,
profit-efficiency, and income-efficiency. The analysis provides a comprehensive view of the
evaluation landscape, aimed at enhancing supply chain managers’ decision-making. Application
of the framework to the Norwegian O&G industry revealed notable differences in
outcomes between cost-efficiency and profit-efficiency models. The cost-efficiency model
favored a single-use strategy, while the profit-efficiency model preferred a substitution
strategy. Additionally, the study found that strategies’ effectiveness varied under deterministic
versus uncertain conditions, with a single-use strategy being more effective in
deterministic conditions and a localization strategy in mixed conditions. Statistical analysis
indicated significant variance between the cost and profit approaches, highlighting that
the developed framework offers a more nuanced perspective for supply chain managers to
make informed decisions. To the best of our knowledge, this research is the first attempt to
simultaneously consider blockchain adoption strategies under profit, cost, income, uncertainty,
and optimization models.