Power System

Integrated planning of net-zero power systems for all
Integrated planning of net-zero power systems for all

A global GISPO model shows that inclusive net-zero power systems are technically feasible with 15-20 TW of variable renewable energy, coordinated transmission, storage, demand flexibility, and international collaboration.

May 4, 2026

Spatially resolved modeling of pumped storage and hydropower for China's carbon neutrality
Spatially resolved modeling of pumped storage and hydropower for China's carbon neutrality

A spatially resolved CISPO model quantifies how pumped storage and hydropower flexibility can reduce costs, curtailment, and reliability risks in China's carbon-neutral power system.

Dec 22, 2025

Spatial planning for China's renewable energy expansion toward 2030
Spatial planning for China's renewable energy expansion toward 2030

A high spatial-temporal resolution RESPO model informs China's wind and solar deployment during the 15th Five-Year Plan period.

Nov 15, 2025

Ratcheting up wind and solar targets for decarbonizing the power sector in China and beyond
Ratcheting up wind and solar targets for decarbonizing the power sector in China and beyond

This paper examines decarbonization pathways for China's power sector through 2035 and proposes a more robust climate-action framework with minimum capacity and generation-share targets for wind and solar energy.

May 15, 2025

Integrated modeling for the transition pathway of China's power system
Integrated modeling for the transition pathway of China's power system

A temporally and spatially resolved model charts feasible transition pathways for China's power system to reach negative emissions by 2060 through renewable expansion and carbon capture.

Feb 17, 2025

Spatially resolved land and grid model of carbon neutrality in China
Spatially resolved land and grid model of carbon neutrality in China

To support China’s goal of achieving carbon neutrality by 2060, we find that 2 to 4 terawatts are needed each for wind and solar power, eight to ten times its 2022 installations. A highly spatially resolved model reflecting key trade-offs in land availability per current government policies and grid integration shows that 80% of solar and 55% of wind should be constructed within 100 km of major load centers. The model also suggests that terawatt-level energy storage should be deployed from scratch, and ultra-high voltage inter-provincial transmission should double/triple its current size to ensure sufficient power supply. When land use is subject to even tighter policy restrictions, at least 25% of solar power should be distributed generation.

Feb 26, 2024