SHAN Kai,FENG Jiafeng,ZHU Yubo,et al.A New Way to Address Global Warming[J].Journal of Chengdu University of Information Technology,2023,38(06):748-759.[doi:10.16836/j.cnki.jcuit.2023.06.018]
全球气候变暖对治方式新可能
- Title:
- A New Way to Address Global Warming
- 文章编号:
- 2096-1618(2023)06-0748-09
- Keywords:
- global warming; geomagnetic destruction; Earth’s thermal energy storage system; Harmonious co-existence between humanity and the earth
- 分类号:
- P467
- 文献标志码:
- A
- 摘要:
- 为研究全球变暖的成因,测算了过去50年人类消耗的能源量,其值远低于同时期地球的累积热量值,可推出全球变暖并不单纯是二氧化碳排放所致。对地磁特点及现状进行了研究,提出地球磁场的破坏,导致地球接收了过量的太阳辐射极有可能是全球气候变暖的成因。人类近二百年大量使用低频、低级能的电磁能所累积的能量及其频率变化有可能没有逃逸出地磁层,造成地球磁层能量驻波构架和磁鞘的局部破坏,导致大量太阳风等离子体进入地球磁层内部。同时,地磁层能量密度的改变扰动了地球在太阳系张拉整体装置中的平衡,使地球向太阳靠拢,从而接收到更多的太阳辐射。只有找出“地球生存环境极限值”,制定人类与地球和平相处的一系列生存规则,才能系统解决全球变暖的危机。
- Abstract:
- Our work explores the most possible causes of global warming. The energy consumed by mankind over the past 50 years was measured, which was much lower than the value of the accumulated heat of the Earth over the same period, and it can be concluded that global warming is not solely due to carbon dioxide emissions. A study of the characteristics and current status of geomagnetism suggests that the disruption of the geomagnetic field, which causes the Earth to receive an excessive amount of solar radiation, is the most likely cause of global warming. In the last two hundred years, the energy and its frequency variations accumulated by human’s massive use of low-frequency and low-level-energy electromagnetic energy may have not escaped from the Earth’s magnetosphere, which further caused local destructions of the energy standing wave framework of the magnetosphere and the magneto sheath, leading to a large number of solar wind plasma entering the magnetosphere. At the same time, changes in the energy density of the magnetosphere disturbed the balance of the Earth in the overall tension platform of the solar system, causing the Earth to move toward the sun and receive more solar radiation. The crisis of global warming can only be systematically resolved by identifying the “limit values of the Earth’s living environment”and formulating “a series of survival rules for peaceful coexistence between humans and the Earth”.
参考文献/References:
[1] King J.Weather and the earth’s magnetic field[J].Nature,1974,247:131-134.
[2] Zaval L,Keenan E,Johnson E,et al.How warm days increase belief in global warming[J].Nature Climate Change 2014,4:143-147.
[3] Witze A.Earth’s magnetic field is acting up and geologists don’t know why[J].Nature,2019,565(7738):143-144.
[4] Cooper A,Turney C S M,Palmer J,et al.A global environmental crisis 42,000 years ago[J].Science,2021,371(6531):811-818.
[5] Davies C J,Constable C G.Rapid geomagnetic changes inferred from Earth observations and numerical simulations[J].Nature Communications,2020,11:3371.
[6] Russell C T,Strangeway R J,Zhao C,et al.Structure,force balance, and topology of Earth’s magnetopause[J].Science,2017,356(6341):960-963.
[7] Engbers Y A,Biggin A J,Bono R K.Elevated paleomagnetic dispersion at Saint Helena suggests long-lived anomalous behavior in the South Atlantic[J].PANS,2020,117(31):18258-18263.
[8] 践行者.物理主从体力学初探[M].西安:西安电子科技大学出版社.
[9] Wang W,Lee X,Xiao W,et al.Global lake evaporation accelerated by changes in surface energy allocation in a warmer climate[J].Nature Geoscience 2018,11:410-414.
[10] 李扬,陈权亮,蔡宏珂,等.全球变暖背景下热带太平洋海温长期趋势研究[J].气候与环境研究,2019,24(6):723-734.
[11] Schuckmann V,Minière K,Gues A,et al.Heat stored in the Earth system 1960-2020:where does the energy go[J].Earth Syst.Sci.Data,2023,15:1675-1709.
[12] 英国石油公司. 2022世界能源统计年鉴(G),2023.
[13] Langie K M G,Tak K,Kim C et al.Toward economical application of carbon capture and utilization technology with near-zero carbon emission[J].Nature Communicaions 2022,13:7482.
[14] 刘铁牛,郭少华,张笛,等.国内外工业碳排放数据平台建设现状与应用展望[J].能源环境保护,2023,37(4):121-130.
[15] 世界气象组织. 2022年全球气候状况报告(R),2023.
[16] 牟建新、李忠勤、张慧、梁鹏斌.全球冰川面积现状及近期变化——基于2017年发布的第6版Randolph冰川编目[J],冰川冻土,2018,40(2):238-248.
[17] 宋文起,王志恒.近30年来中国气温、降水和水分盈亏的趋势及其变化[J].气候与环境研究,2023,28(1):1-16.
[18] 孙鸿烈.地学大辞典[M].北京:科学出版社,2017:932-933.
[19] 童冬生.火星电流系及其磁场[D].合肥:中国科学技术大学,2011.
[20] 王志强,翟浩.地球磁层波动现象的观测和模拟研究[M].北京:科学出版社,2017.
[21] 康国发,翟应田.1600 年以来地磁场主要参数的变化特征[J].云南大学学报:自然科学版,2000,22(3):204-208.
[22] 康国发,吴小平,文丽敏,等.地球主磁场的能量密度谱及其长期变化[J].地球物理学进展,2003:18(1):111-115.
[23] 徐文耀,魏自刚,马石庄.20世纪地磁场的剧烈变化[J].科学通报,2000,45(14):1563-1566.
[24] Roberts A P.Geomagnetic excursions: knowns and unknowns[J].Geophysical Research Letters,2008,35(17):L17307.
[25] 刘四清,刘静,师立勤,等.“神舟”五号的空间环境保障[J].物理,2004,33(5):359-366.
[26] 践行者.地球磁场起源猜想[M].西安:西北工业大学出版社.
[27] 曲俊雅.磁北极正从北美向俄“搬家”[N].新华每日电讯,2005-12.
[28] 徐文耀.地球磁场的物理问题[J].物理,2004,33(8):552-557.
[29] 牛强,李永升,苏剑峰.太阳自转模拟研究[J].洛阳理工学院学报(自然科学版),2014,24(3):86-91.
[30] 尚凯元.以更有力行动应对全球气候变化[N].人民日报,2023-05.
[31] 习近平.开放共创繁荣 创新引领未来[R].海南,2018.
[32] [古希腊]柏拉图. 柏拉图全集第1卷[M].王晓朝译.北京:人民出版社,2002:77, 507.
备注/Memo
收稿日期:2023-06-07
基金项目:国家重点研发计划资助项目(2021YFB3201801)
通信作者:单凯.E-mail:shank2023@163.com