Model scope and methods - C3IAM: Difference between revisions

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|DocumentationCategory=Model scope and methods
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C<sup>3</sup>IAM consists of various analytical models developed to analyze policy issues within a specific set of sectors as shown in Figure 1<ref>Yi-Ming Wei, Rong Han, Qiao-Mei Liang, Bi-Ying Yu, Yun-Fei Yao, Mei-Mei Xue, Kun Zhang, Li-Jing Liu, Juan Peng, Pu Yang, Zhi-Fu Mi, Yun-Fei Du, Ce Wang, Jun-Jie Chang, Qian-Ru Yang, Zili Yang, Xueli Shi, Wei Xie, Changyi Liu, Zhongyu Ma, Jinxiao Tan, Weizheng Wang, Bao-Jun Tang, Yun-Fei Cao, Mingquan Wang, Jin-Wei Wang, Jia-Ning Kang, Ke Wang, Hua Liao, 2018. An integrated assessment of INDCs under Shared Socioeconomic Pathways: an implementation of C3IAM. ''Natural Hazards'' 92, 585-618.</ref>]]. These models are interlinked to provide an integrated system for assessing the impact of climate change. C<sup>3</sup>IAM considers factors such as global multi-regional, multi-sectoral economic development, greenhouse gas emissions, emission reduction costs, climate change losses module, etc. It can not only depict the social economic system in detail, but also realize a long-term balanced growth path.
C<sup>3</sup>IAM consists of various analytical models developed to analyze policy issues within a specific set of sectors as shown in Figure 1<ref>Yi-Ming Wei, Rong Han, Qiao-Mei Liang, Bi-Ying Yu, Yun-Fei Yao, Mei-Mei Xue, Kun Zhang, Li-Jing Liu, Juan Peng, Pu Yang, Zhi-Fu Mi, Yun-Fei Du, Ce Wang, Jun-Jie Chang, Qian-Ru Yang, Zili Yang, Xueli Shi, Wei Xie, Changyi Liu, Zhongyu Ma, Jinxiao Tan, Weizheng Wang, Bao-Jun Tang, Yun-Fei Cao, Mingquan Wang, Jin-Wei Wang, Jia-Ning Kang, Ke Wang, Hua Liao, 2018. An integrated assessment of INDCs under Shared Socioeconomic Pathways: an implementation of C3IAM. ''Natural Hazards'' 92, 585-618.</ref>. These models are interlinked to provide an integrated system for assessing the impact of climate change. C<sup>3</sup>IAM considers factors such as global multi-regional, multi-sectoral economic development, greenhouse gas emissions, emission reduction costs, climate change losses module, etc. It can not only depict the social economic system in detail, but also realize a long-term balanced growth path.
 
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To apply C<sup>3</sup>IAM, all model settings are adjusted so that the model reproduces the state-of-the-world in 2011 and cover the period 2011–2100.
To apply C<sup>3</sup>IAM, all model settings are adjusted so that the model reproduces the state-of-the-world in 2011 and cover the period 2011–2100.
 
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C<sup>3</sup>IAM pays more attention to clarify the comprehensive impacts of climate change and it has a better performance in the following various aspects:
C<sup>3</sup>IAM pays more attention to clarify the comprehensive impacts of climate change and it has a better performance in the following various aspects:
 
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1. More in-depth depiction of China: to refine the emissions pathway from the perspective of regional and sectoral, the Multi-Regional CGE Model (C<sup>3</sup>IAM/MR.CEEPA) that covers 31 provinces and the multi-sector technology model (C<sup>3</sup>IAM/NET) that covers eight energy-intensive industries are developed;
1. More in-depth depiction of China: to refine the emissions pathway from the perspective of regional and sectoral, the Multi-Regional CGE Model (C<sup>3</sup>IAM/MR.CEEPA) that covers 31 provinces and the multi-sector technology model (C<sup>3</sup>IAM/NET) that covers eight energy-intensive industries are developed;


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3. Realizing the hard link between the earth and socioeconomic systems: the economic models are integrated with earth system model, and the two-way feedbacks could be achieved.
3. Realizing the hard link between the earth and socioeconomic systems: the economic models are integrated with earth system model, and the two-way feedbacks could be achieved.
<figure id="fig:The general structure of C3IA">
[[File:The general structure of C3IAM.png|left|900px|thumb|Figure 1. The general structure of C<sup>3</sup>IAM]]
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=== References ===
=== References ===
<references />
<references />
<figure id="fig:The general structure of C3IA">
[[File:The general structure of C3IAM.png|left|900px|thumb|Figure 1. The general structure of C<sup>3</sup>IAM
</figure>

Latest revision as of 12:44, 5 August 2021

Model Documentation - C3IAM

Corresponding documentation
Previous versions
Model information
Model link
Institution Center for Energy and Environmental Policy Research, Beijing Institute of Technology (CEEP-BIT), China, http://ceep.bit.edu.cn/english/.
Solution concept General equilibrium (closed economy)
Solution method Optimization
Anticipation

C3IAM consists of various analytical models developed to analyze policy issues within a specific set of sectors as shown in Figure 1[1]. These models are interlinked to provide an integrated system for assessing the impact of climate change. C3IAM considers factors such as global multi-regional, multi-sectoral economic development, greenhouse gas emissions, emission reduction costs, climate change losses module, etc. It can not only depict the social economic system in detail, but also realize a long-term balanced growth path.

To apply C3IAM, all model settings are adjusted so that the model reproduces the state-of-the-world in 2011 and cover the period 2011–2100.

C3IAM pays more attention to clarify the comprehensive impacts of climate change and it has a better performance in the following various aspects:

1. More in-depth depiction of China: to refine the emissions pathway from the perspective of regional and sectoral, the Multi-Regional CGE Model (C3IAM/MR.CEEPA) that covers 31 provinces and the multi-sector technology model (C3IAM/NET) that covers eight energy-intensive industries are developed;

2. Extension of economic model: to capture the long-term optimal economic growth and climate change mitigation dynamically, C3IAM integrates the global CGE model (C3IAM/GEEPA) and the global economic optimum growth model (C3IAM/EcOp);

3. Realizing the hard link between the earth and socioeconomic systems: the economic models are integrated with earth system model, and the two-way feedbacks could be achieved.

<figure id="fig:The general structure of C3IA">

Figure 1. The general structure of C3IAM

</figure>





















































References

  1. Yi-Ming Wei, Rong Han, Qiao-Mei Liang, Bi-Ying Yu, Yun-Fei Yao, Mei-Mei Xue, Kun Zhang, Li-Jing Liu, Juan Peng, Pu Yang, Zhi-Fu Mi, Yun-Fei Du, Ce Wang, Jun-Jie Chang, Qian-Ru Yang, Zili Yang, Xueli Shi, Wei Xie, Changyi Liu, Zhongyu Ma, Jinxiao Tan, Weizheng Wang, Bao-Jun Tang, Yun-Fei Cao, Mingquan Wang, Jin-Wei Wang, Jia-Ning Kang, Ke Wang, Hua Liao, 2018. An integrated assessment of INDCs under Shared Socioeconomic Pathways: an implementation of C3IAM. Natural Hazards 92, 585-618.