Space options for tropical cyclone hazard mitigation

被引:1
|
作者
Dicaire, Isabelle [1 ]
Nakamura, Ryoko [2 ]
Arikawa, Yoshihisa [2 ]
Okada, Kazuyuki [2 ]
Itahashi, Takamasa [2 ]
Summerer, Leopold [1 ]
机构
[1] ESA, Adv Concepts Team, Noordwijk, Netherlands
[2] Japan Aerosp Explorat Agcy JAXA, Tsukuba, Ibaraki, Japan
来源
ACTA ASTRONAUTICA | 2015年 / 107卷
关键词
Space systems; Remote sensing; Natural disaster prevention; Space solar power; Tropical cyclones; Hazard mitigation; INTENSITY; LASER; HURRICANES; FILAMENTATION; SIMULATION; WHITECAPS; ENERGY; SHEAR;
D O I
10.1016/j.actaastro.2014.11.022
中图分类号
V [航空、航天];
学科分类号
08 ; 0825 ;
摘要
This paper investigates potential space options for mitigating the impact of tropical cyclones on cities and civilians. Ground-based techniques combined with space-based remote sensing instrumentation are presented together with space-borne concepts employing space solar power technology. Two space-borne mitigation options are considered: atmospheric warming based on microwave irradiation and laser-induced cloud seeding based on laser power transfer. Finally technology roadmaps dedicated to the space-borne options are presented, including a detailed discussion on the technological viability and technology readiness level of our proposed systems. Based on these assessments, the space-borne cyclone mitigation options presented in this paper may be established in a quarter of a century. (C) 2014 IAA. Published by Elsevier Ltd. All rights reserved.
引用
收藏
页码:208 / 217
页数:10
相关论文
共 50 条
  • [1] Spatial assessment of flow and benefit of tropical cyclone hazard mitigation service
    Zhao, Mingyue
    Peng, Jian
    Zheng, Hua
    Daily, Gretchen C.
    Liu, Yuanxin
    Wu, Jiansheng
    Wang, Yanglin
    [J]. PROGRESS IN PHYSICAL GEOGRAPHY-EARTH AND ENVIRONMENT, 2022, 46 (02): : 165 - 179
  • [2] An integrated assessment of tropical cyclone risks in mainland China by considering hazard, exposure, vulnerability and mitigation
    Yang, Zhenhua
    Zhao, Tony
    Tian, Yu
    Zhang, Yongyong
    Chen, Xiaohong
    [J]. HYDROLOGY RESEARCH, 2022, 53 (08): : 1090 - 1106
  • [3] Mitigation of Flooding and Cyclone Hazard in Orissa, India
    P. Chittibabu
    S. K. Dube
    J. B. Macnabb
    T. S. Murty
    A. D. Rao
    U. C. Mohanty
    P. C. Sinha
    [J]. Natural Hazards, 2004, 31 : 455 - 485
  • [4] Mitigation of flooding and cyclone hazard in Orissa, India
    Chittibabu, P
    Dube, SK
    MacNabb, JB
    Murty, TS
    Rao, AD
    Mohanty, UC
    Sinha, PC
    [J]. NATURAL HAZARDS, 2004, 31 (02) : 455 - 485
  • [5] An Environmentally Forced Tropical Cyclone Hazard Model
    Lee, Chia-Ying
    Tippett, Michael K.
    Sobel, Adam H.
    Camargo, Suzana J.
    [J]. JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS, 2018, 10 (01): : 223 - 241
  • [6] On the joint tropical cyclone wind and wave hazard
    Sheng, C.
    Hong, H. P.
    [J]. STRUCTURAL SAFETY, 2020, 84
  • [7] Tropical cyclone precipitation and dry spell mitigation
    Gleason, BE
    Easterling, DR
    [J]. 12TH SYMPOSIUM ON GLOBAL CHANGE AND CLIMATE VARIATIONS, 2001, : 322 - 323
  • [8] Geospatial modelling of tropical cyclone risk along the northeast coast of Oman: Marine hazard mitigation and management policies
    Mansour, Shawky
    Darby, Stephen
    Leyland, Julian
    Atkinson, Peter M.
    [J]. MARINE POLICY, 2021, 129
  • [9] An emerging tropical cyclone–deadly heat compound hazard
    T. Matthews
    R. L. Wilby
    C. Murphy
    [J]. Nature Climate Change, 2019, 9 : 602 - 606
  • [10] Tropical Cyclone Hazard to Mumbai in the Recent Historical Climate
    Sobel, Adam H.
    Lee, Chia-Ying
    Camargo, Suzana J.
    Mandli, Kyle T.
    Emanuel, Kerry A.
    Mukhopadhyay, Parthasarathi
    Mahakur, M.
    [J]. MONTHLY WEATHER REVIEW, 2019, 147 (07) : 2355 - 2366
12345