Building Less to Achieve More: A Review of Service-Based Sufficiency Pathways in Global Net-Zero Transitions
Zewen Ge1,*, Jihui Liu2, Shuai Yuan1, Mufan Zhuang3,*
1 School of Accounting and Finance, Xiamen University Tan Kah Kee College, Zhangzhou, China
2 School for Environment and Sustainability, University of Michigan, Ann Arbor, MI, USA
3 Institute of Ecology and Sustainable Development, Shanghai Academy of Social Sciences, Shanghai, China
* Corresponding Author: Zewen Ge. Email: 
; Mufan Zhuang. Email: 
(This article belongs to the Special Issue: Toward Net-Zero Emission: Multidimensional Perspectives on Energy Transition)
Energy Engineering https://doi.org/10.32604/ee.2026.082217
Received 12 March 2026; Accepted 20 March 2026; Published online 10 April 2026
Abstract
Limiting warming to the Paris temperature goals requires a rapid scale-up of low-carbon energy, yet recent experience suggests that deployment is increasingly shaped by delivery constraints rather than by technology cost trends alone. This review synthesizes peer-reviewed evidence on five constraints that repeatedly slow net-zero buildouts: lengthy approval and grid-connection processes; capital-intensive investment profiles that heighten sensitivity to the cost of capital and revenue risk; bottlenecks in critical minerals, processing, and manufacturing; social contestation and local governance that translate into siting exclusions, delays, and cancellations; and modeling traditions that can underrepresent these non-marginal frictions. Accordingly, we adopt an energy-services perspective to examine how demand-side strategies affect the scale and timing of the required buildout. We interpret degrowth as service-based sufficiency, rather than as a blanket reduction in welfare, and organize the evidence using the Avoid, Shift, Improve (ASI) sequence. Across sectors, the reviewed literature indicates that lowering baseline service demand and, in particular, peak requirements can reduce project counts and network upgrades, limit exposure to interconnection queues and permitting backlogs, ease upstream material pressures, and improve bankability under risk-averse finance. We conclude that net-zero pathways are more credible when service provision and demand-side design are treated as core planning variables alongside clean-energy supply expansion.
Keywords
Net-zero transitions; service-based sufficiency; ASI; energy services; demand-side mitigation
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