System dynamic modeling and scenario simulation on Beijing industrial carbon emissions
Lei Wen, Lu Bai, Ernv Zhang
Environmental Engineering Research. 2016;21(4):355-364. Published online 2016 Jun 30 DOI: https://doi.org/10.4491/eer.2016.049
|
Citations to this article as recorded by
Towards net zero: Evaluating energy security in Singapore using system dynamics modelling
Jiong Rui Loh, Sreenivasulu Bellam
Applied Energy.2024; 358: 122537. CrossRef China's future energy vision: Multi-scenario simulation based on energy consumption structure under dual carbon targets
Hongtao Zhu, Shuang Cao, Zimeng Su, Yang Zhuang
Energy.2024; 301: 131751. CrossRef Regional-scale energy-water nexus framework to assess the GHG emissions under climate change and development scenarios via system dynamics approach
Hossein Abolghasemzadeh, Elnaz Zekri, Mohsen Nasseri
Sustainable Cities and Society.2024; 111: 105565. CrossRef System Dynamics-based Carbon Footprint Assessment of Industrial Water and Energy Use
Mohammad Karamouz, Mohammadreza Zare, Elham Ebrahimi
Water Resources Management.2023; 37(5): 2039. CrossRef The Possibility of Achieving Zero CO2 Emission in the Indonesian Cement Industry by 2050: A Stakeholder System Dynamic Perspective
Iman Junianto, Sunardi, Dadan Sumiarsa
Sustainability.2023; 15(7): 6085. CrossRef Comparing the Standards of Life Cycle Carbon Assessment of Buildings: An Analysis of the Pros and Cons
Yahong Dong, Tingyi Yang, Peng Liu, Zhenyan Xu
Buildings.2023; 13(10): 2417. CrossRef Multi-scenario prediction and path optimization of industrial carbon unlocking in China
Feifei Zhao, Zheng Hu, Xu Zhao
Journal of Cleaner Production.2023; 421: 138534. CrossRef Modeling the transformation of the EU’s energy sector and its impact on carbon emissions in the context of an energy collapse
O Y Mints
IOP Conference Series: Earth and Environmental Sci.2023; 1269(1): 012020. CrossRef A review and analysis of renewable energy policies and CO2 emissions of Pakistan
Hassan Qudrat-Ullah
Energy.2022; 238: 121849. CrossRef Simulation of China’s Carbon Emission based on Influencing Factors
Haojia Kong, Lifan Shi, Dan Da, Zhijiang Li, Decai Tang, Wei Xing
Energies.2022; 15(9): 3272. CrossRef Research on safety simulation model and algorithm of dynamic system based on artificial neural network
Guangna Zhang
Soft Computing.2022; 26(15): 7377. CrossRef An Integrated System Dynamics Model and Life Cycle Assessment for Cement Production in South Africa
Oluwafemi E. Ige, Kevin J. Duffy, Oludolapo A. Olanrewaju, Obiora C. Collins
Atmosphere.2022; 13(11): 1788. CrossRef Application of System Dynamic Modelling for Evaluation of Carbon Mitigation Strategies in Cement Industries: A Comparative Overview of the Current State of the Art
Akhil Kunche, Bożena Mielczarek
Energies.2021; 14(5): 1464. CrossRef How to peak carbon emissions of provincial construction industry? Scenario analysis of Jiangsu Province
Dezhi Li, Guanying Huang, Shiyao Zhu, Long Chen, Jiangbo Wang
Renewable and Sustainable Energy Reviews.2021; 144: 110953. CrossRef Study of the impact of energy consumption structure on carbon emission intensity in China from the perspective of spatial effects
Hongwei Xiao, Zhongyu Ma, Peng Zhang, Ming Liu
Natural Hazards.2019; 99(3): 1365. CrossRef Analysis of Wave Energy Conversion with Dynamic Systems Theory
Sorin Ciortan, Eugen Rusu, E. Rusu
E3S Web of Conferences.2019; 103: 02003. CrossRef Prediction of greenhouse gas emission from municipal solid waste for South Korea
Kanchan Popli, Jeejae Lim, Hyeon Kyeong Kim, Young Min Kim, Nguyen Thanh Tuu, Seungdo Kim
Environmental Engineering Research.2019; 25(4): 462. CrossRef
|