Page 47 - AJWEP-22-4
P. 47
Spatiotemporal variability and climate forcing mechanisms
characteristics and development potential of wind 31. Zhong Z, He B, Chen HW, et al. Reversed asymmetric
energy resources in China. Acta Energiae Solaris Sinica. warming of sub-diurnal temperature over land during
2021;42(6):409-418. recent decades. Nat Commun. 2023;14(1):7189.
doi: 10.19912/j.0254-0096.tynxb.2020-0130 doi: 10.1038/S41467-023-43007-6
19. Zhang S, Li X. Study on application of ERA5 data to 32. Zheng F, Yuan Y, Ding Y, et al. The 2020/21 extremely
solar energy resource assessment over China’s region. cold winter in China influenced by the synergistic
Acta Energiae Solaris Sinica. 2023;44(05):280-285. effect of la niña and warm arctic. Adv Atmos Sci.
doi: 10.19912/j.0254-0096.tynxb.2021-1604 2021;39(4):546-552.
20. Yin J, Hu W, Chen A, Li T, Zhang W. Human-caused doi: 10.1007/S00376-021-1033-Y
increases in organic carbon burial in plateau lakes: 33. Liu Y, Wu C, Jia R, Huang J. An overview of the
The response to warming effect. Sci Total Environ. influence of atmospheric circulation on the climate inarid
2024;937:173556. and semi-arid region of Central and East Asia. Sci China
doi: 10.1016/J.SCITOTENV.2024.173556 Earth Sci. 2018;48(9):1141-1152.
21. Li T, Zhang W, Lv A, Liu Y. Temporal and spatial doi: 10.1007/s11430-017-9202-1
characteristics of heat resources in growing season in 34. Liu Y, Huang J, Shi G, et al. Aerosol optical properties
yunnan province, China. Mt Res. 2023;41(3):361-374. and radiative effect determined from sky-radiometer over
doi: 10.16089/j.cnki.1008-2786.000754 Loess Plateau of Northwest China. Atmos Chem Physics.
22. Chen J, Xu D, Luo Y, Zheng X, Zhou C, Kang W. 2011;11(252):11455-11463.
Changes in solar radiation and their climatic influences doi: 10.5194/acp-11-11455-2011
over yunnan-guizhou plateau for 1961 ~ 2019. Res 35. Fang W, Yang C, Liu D, et al. Assessment of wind and
Environ Yangtze Basin. 2012;21(S1):179-184. solar power potential and their temporal complementarity
23. Liu X, Jiang Y, Ren G, Liang X, Zhang C. Effect of in China’s northwestern provinces: Insights from ERA5
urbanization and observation environment change on reanalysis. Energies. 2023;16(20):7109.
wind speed trend in hebei province, China. Plateau doi: 10.3390/en16207109
Meteorol. 2009;28(2):433-439. 36. Lu H, Wang C, Li Q, Wiser R, Porter K. Reducing wind
24. Lu Q, Rao J, Liang Z, et al. The sudden stratospheric power curtailment in China: Comparing the roles of coal
warming in January 2021. Environ Res Lett. power flexibility and improved dispatch. Clim Policy.
2021;16(8):084029. 2019;19(5):623-635.
doi: 10.1088/1748-9326/AC12F4 doi: 10.1080/14693062.2018.1546164
25. Hongming Y, Yuan Y, Guirong T, Yucheng Z. Possible 37. Sun J, Wang Y, Yang X, Lu Z, He Y, Chao Q. Analysis of
impact of sudden stratospheric warming on the spatial and temporal variation character of climate risks
intraseasonal reversal of the temperature over East Asia of wind and solar. Electric Power. 2023;56(5):1-10.
in winter 2020/21. Atmos Res. 2022;268:106016. doi: 10.11930/j.issn.1004-9649.202211009
doi: 10.1016/J.ATMOSRES.2022.106016 38. Wu J, Yan Y. Projection and outlook of future wind
26. Wang P, Yang J, Zhang Q, He J, Wang D, Lu D. Climate energy and solar energy resources in China. Energy
change characteristic of northwest China in recent half China. 2023;45(Z1):49-58.
century. Adv Earth Sci. 2007;6:649-656. doi: 10.3969/j.issn.1003-2355.2023.01.008
27. Lan L, Li D. Interannual and interdecadal anomaly features 39. Xue-Jie G, Mei-Li W, Giorgi F. Climate change
of siberian high andtheir impact on winter temperature of over china in the 21 century as simulated by
st
China. Plateau Meteorol. 2016;35(3):662-674. Bcc_CSM1.1-RegCM4.0. Atmos Oceanic Sci Lett.
doi: 10.7522/j.issn.1000-0534.2016.00022 2013;6(5):381-386.
28. Sun X, Wang P, Zhi H, Guo D. Analysis and comparison 40. Li D, Feng J, Dosio A, Qi J, Xu Z, Yin B. Historical
of several mongolian high circulation indicesand their evaluation and future projections of 100-m wind energy
relationship with temperature anomaly of China in potentials over CORDEX-East Asia. J Geophys Res
winter. Plateau Meteorol. 2010;29(6):1493-1500. Atmos. 2020;125(15):e2020JD032874.
29. Sun G, Li Y, Li S. The differences in cloud vertical doi: 10.1029/2020JD032874
structures between active and break spells of the East 41. Jurasz J, Mikulik J, Dabek PB, Guezgouz M,
Asian summer monsoon based on cloud sat data. Atmos Kaźmierczak B. Complementarity and ‘resource
Res. 2019;224:157-167. droughts’ of solar and wind energy in Poland: An ERA5-
doi: 10.1016/j.atmosres.2019.03.035 based analysis. Energies. 2021;14(4):1118.
30. Sun G, Li Y, Lu J. Why is there a tilted cloud vertical doi: 10.3390/EN14041118
structure associated with the Northward advance 42. Puspitarini HD, François B, Zaramella M, Brown C,
of the East Asian summer monsoon. Atmos Res. Borga M. The impact of glacier shrinkage on energy
2019;215:317-325. production from hydropower-solar complementarity in
doi: 10.1016/j.atmosres.2018.09.013 alpine river basins. Sci Total Environ. 2020;719:137488.
Volume 22 Issue 4 (2025) 39 doi: 10.36922/AJWEP025190147
