| 1 |
Transport-energy-environment modeling and investment requirements from Brazilian commitments
Goes GV, Goncalves DNS, D'Agosto MD, Bandeira RAD, Grottera C
Renewable Energy, 157, 303, 2020 |
| 2 |
Learning is not enough: Diminishing marginal revenues and increasing abatement costs of wind and solar
Das S, Hittinger E, Williams E
Renewable Energy, 156, 634, 2020 |
| 3 |
Would China's power industry benefit from nationwide carbon emission permit trading? An optimization model-based ex post analysis on abatement cost savings
Xian YJ, Wang K, Wei YM, Huang ZM
Applied Energy, 235, 978, 2019 |
| 4 |
Industrial carbon abatement allocations and regional collaboration: Re-evaluating China through a modified data envelopment analysis
Yu AY, You JX, Rudkin S, Zhang H
Applied Energy, 233, 232, 2019 |
| 5 |
Assessment of long-term energy efficiency improvement and greenhouse gas emissions mitigation options for the cement industry
Talaei A, Pier D, Iyer AV, Ahiduzzaman M, Kumar A
Energy, 170, 1051, 2019 |
| 6 |
The static and dynamic heterogeneity and determinants of marginal abatement cost of CO2 emissions in Chinese cities
Wu JX, Ma CB, Tang K
Energy, 178, 685, 2019 |
| 7 |
On the cost-effectiveness of national economy-wide greenhouse gas emissions abatement measures
Sotiriou C, Michopoulos A, Zachariadis T
Energy Policy, 128, 519, 2019 |
| 8 |
Power sector reform and CO2 abatement costs in Korea
Ahn YH, Jeon W
Energy Policy, 131, 202, 2019 |
| 9 |
Reducing CO2 emissions from drinking water treatment plants: A shadow price approach
Molinos-Senante M, Guzman C
Applied Energy, 210, 623, 2018 |
| 10 |
Cost-benefit analysis of China's Intended Nationally Determined Contributions based on carbon marginal cost curves
Yang X, Teng F, Xi XQ, Khayrullin E, Zhang Q
Applied Energy, 227, 415, 2018 |
