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Greedy strategy balances emissions, cost, and reliability in Taiwan transition

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Research area:EnergyIntegrated Energy Systems OptimizationGlobal Energy and Sustainability Research

What the study found

The study found that a greedy heuristic-based strategy produced a more balanced outcome than the other tested pathways, reducing cumulative emissions to about 1000 Mt while keeping costs moderate and maintaining long-term grid reliability. By contrast, the Min Carbon and Max Power scenarios had the lowest cumulative emissions at 200 Mt, but with higher system costs, while the Min Cost scenario had the lowest expenditure and the highest emissions at 8000 Mt.

Why the authors say this matters

The authors suggest the findings matter because low-carbon energy transitions need to balance climate mitigation, energy security, and economic feasibility. They conclude that dispatchable low-carbon technologies, especially nuclear power, have a strategic role in carbon-constrained electricity systems, though the results depend on the assumed availability of small modular reactors (SMRs), which are small nuclear reactors.

What the researchers tested

The researchers examined Taiwan's long-term energy transition over the 2025–2050 planning horizon using four optimization frameworks: Min Carbon, Min Cost, Max Power, and a greedy heuristic strategy. They compared these pathways across cumulative CO2 emissions, total system costs, and structural power supply reliability, and they used an activity-based costing (ABC) logic to attribute long-run system costs to technology-specific capacity expansion decisions.

What worked and what didn't

The Min Carbon and Max Power scenarios achieved the lowest cumulative emissions, at 200 Mt, but required higher system costs. The Min Cost scenario minimized spending but produced the highest emissions, at 8000 Mt. The greedy heuristic gave a middle-ground result, with roughly 1000 Mt of emissions, moderate costs, and long-term reliability, and the relative ranking stayed robust under alternative electricity demand growth assumptions.

What to keep in mind

The abstract says the outcomes are conditional on the assumed availability of SMRs. It also notes that the sensitivity analyses tested alternative electricity demand growth assumptions, but it does not describe other limitations in the available summary.

Key points

Four pathways were compared: Min Carbon, Min Cost, Max Power, and a greedy heuristic strategy.
The Min Carbon and Max Power scenarios had the lowest emissions, at 200 Mt, but higher costs.
The Min Cost scenario had the lowest expense but the highest emissions, at 8000 Mt.
The greedy heuristic reduced emissions to about 1000 Mt while keeping moderate costs and reliability.
The relative performance patterns remained robust under alternative demand growth assumptions.
The findings depend on the assumed availability of SMRs.

Disclosure

Research title:: Greedy strategy balances emissions, cost, and reliability in Taiwan transition
Authors:: Wen-Hsien Tsai, Shuo-Chieh Chang
Institutions:: National Central University, National Central University
Publication date:: 2026-03-01
DOI:: 10.1016/j.esr.2026.102169
OpenAlex record:: View

AI provenance: This post was generated by gpt-5.4-mini (OpenAI). The original authors did not write or review this post.