Transdisciplinary Field of Green and Low-carbon Development Green and low-carbon development refers to the social and economic development that minimizes carbon emissions, mitigates environmental degradation and enhances the efficiency of consuming natural resources, through technological development, environmental conservation, planning and policymaking, and transformation of lifestyles, etc. This transdisciplinary field fosters human resources that can contribute to green and low-carbon development related to civil infrastructure, buildings, technologies, services, human activities, and ecosystem, etc.
Related representative research achievement
Tuy S. , Lee H.S.*, and Chreng K . 2022. Integrated assessment of offshore wind power potential using Weather Research and Forecast (WRF) downscaling with Sentinel-1 satellite imagery, optimal sites, annual energy production and equivalent CO2 reduction. Renew. Sust. Energ. Rev. , 163, 112501. Open access Vinayak B. , Lee H.S.*, Gedam S. and Latha R. 2022. Impacts of future urbanization on urban microclimate and thermal comfort over Mumbai metropolitan region, India. Sustain. Cities Soc. , 79, 103703. Open access Runsen Zhang*, Junyi Zhang (2021) Long-term pathways to deep decarbonization of the transport sector in the post-COVID world , Transport Policy, 110, 28-36.
Runsen Zhang*, Junyi Zhang, Yin Long, Wenchao Wu, Jingyu Liu, Ying Jiang (2021) Long-term implications of electric vehicle penetration in urban decarbonization scenarios: an integrated land use–transport–energy model . Sustainable Cities and Society, 68, Article No. 102800.
Weiyan Zong, Junyi Zhang*, Ying Jiang (2021) In-home and out-of-home energy consumption by elderly and non-elderly households: A comparative analysis based on a copula model . Journal of Environmental Planning and Management, 65(7), 1301-1322.
Weiyan Zong, Junyi Zhang*, Ying Jiang (2019) Long-term changes in Japanese young people’s car ownership and usage from an expenditure perspective . Transportation Research Part D: Transport and Environment , 75, 23-41 [doi: 10.1016/j.trd.2019.08.013].
Ying JIANG, Linghan ZHANG, Junyi ZHANG* (2019) Energy consumption by rural migrant workers and urban residents with a hukou in China: quality‑of‑life‑related factors and built environment . Natural Hazards , 99 (3), 1431-1453. [https://doi.org/10.1007/s11069-019-03802-1 ]
Ying JIANG, Junyi ZHANG*, Xin JIN, Ryosuke ANDO, Lin CHEN, Zhenjiang SHEN, Jiangqian YING, Qing FANG, Zhongwei SUN (2017) Rural migrant workers’ intentions to permanently reside in cities and future energy consumption preference in the changing context of urban China . Transportation Research Part D: Transport and Environment . 52(B), 600-618. [doi: 10.1016/j.trd.2016.12.011]
Biying YU, Yaming TIAN, Junyi ZHANG* (2015) A dynamic active energy demand management system for evaluating the effect of policy scheme on household energy consumption behavior . Energy , 91, 491–506. [doi: 10.1016/j.energy.2015.07.131]
Biying YU, Junyi ZHANG*, Akimasa FUJIWARA (2012) Analysis of the residential location choice and household energy consumption behavior by incorporating multiple self-selection effects . Energy Policy , 46, 319-334. [doi: 10.1016/j.enpol.2012.03.067]
Related TSE members
(in alphabetical order)
Faculty members Transdisciplinary Fields Major Discipline CHIKARAISHI Makoto Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Transportation engineering FENG Tao Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Transportation engineering, Regional and urban planning, Informatics FUJIWARA Akimasa Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Transportation engineering, Environmental engineering HASEGAWA Takumi Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Physics HATAKENAKA Noriyuki Smart Development ; Green & Low-carbon Development ; Science Development Physics HOSAKA Tetsuro Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Biology ICHIKAWA Takayuki Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Environmental engineering INUI Masanori Smart Development ; Green & Low-carbon Development ; Science Development Physics ISHIDA Takuya Green & Low-carbon Development ; Resilient Development ; Science Development Agriculture, Environmental science ISHIZAKA Satoshi Smart Development ; Green & Low-carbon Development ; Science Development Physics KAJIHARA Yukio Smart Development ; Green & Low-carbon Development ; Science Development Physics KANG Jing Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Regional and urban planning, Environmental engineering KATAYAMA Haruna Smart Development ; Green & Low-carbon Development ; Science Development Physics KASHIMA Saori Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Public health KISHIBA Seigo Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Informatics KODAMA Mei Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Informatics KUBOTA Tetsu Smart Development ; Green & Low-carbon Development ; Resilient Development Architecture LEE Han Soo Smart Development ; Green & Low-carbon Development ; Resilient Development Ocean and coastal engineering, Environmental science MIYAOKA Hiroki Smart Development ; Green & Low-carbon Development ; Science Development Environmental engineering NAKABAYASHI Miyabi Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Biology NISHINA Daisaku Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Architecture OGITA Norio Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Physics ONODERA Shin-ichi Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Environmental science, Earth and planetary science OZAWA Hisashi Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Earth and planetary science SAITO Mitsuyo Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Environmental science, Earth and planetary science SHARIFI Ayyoob Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Regional and urban planning, Environmental science SUGIMOTO Akira Green & Low-carbon Development ; Science Development Physics SUZUKI Shunya Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Informatics TAGUCHI Ken Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Physics TANAKA Shinpei Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Physics TASHIMA Kouichi Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Informatics TODA Akihiko Smart Development ; Green & Low-carbon Development ; Science Development Physics VARGHESE Varun Smart Development ; Green & Low-carbon Development ; Resilient Development Transportation engineering WATANABE Sonoko Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Agriculture, Biology XUAN Tran Dang Smart Development ; Green & Low-carbon Development ; Resilient Development ; Science Development Agriculture, Biology YOKOYAMA Tadashi Green & Low-carbon Development ; Resilient Development ; Science Development Earth and planetary science
* in alphabetical order
