67 research outputs found

    The 2nd International Conference on Water Resource and Environment (WRE 2016)

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    Table of contents 01 The eco-toxicological effects of cadmium stress on five ornamental plants Zhouli Liu, Wei Chen, Xingyuan He, Shuai Yu, Weihang Ding 02 Study on the formation and release mechanisms of hydrogen sulfide in Longtan coal mine Jianjun Liu, Yuliang Wu, Kaixiang Fan 03 Coral bleaching in the North Reef of China’s Xisha Islands in 2014 Yuanchao Li, Xinqing Zheng, Shiquan Chen, Haiqun Xie 04 Soil chemical characteristics in a Cunninghamia lanceolata stand suffering from ice-snow damage Jie Li, Zhuomin Wang, Li Xue 05 Diversity of understory vegetation was under a Cunninghamia lanceolata stand suffering from ice-snow damage Zhiyang Lie, Weilong Huang, Tongtong Zhou, Li Xue 06 The effect of water, nitrogen and harvesting time on yield and biomass allocation of Helianthus tuberosus L. Kai Gao, Tiexia Zhu 07 The vertical variation of microbial communities in the sediment of sea cucumber pond Weiteng Mao, Pei Yu, Xinfang Lv, Yunchun Li 08 Indicating significances of alpine plant functional groups to environmental change Peixi Su, Rui Shi 09 Research on the daily CH4 fluxes of soil in summer mangrove community at Yingluogang of Guangxi, China Yong Jiang, Xingbin Chen, Shichu liang 10 Beach protection structures in middle and lower reaches of Yangtze River Junfeng Xu 11 Social responsibility management of large dam project with owner as core: an empirical case in China Jiwei Zhu, Zhao Zhai, Linan Zhou, Yun Le, Li Cao 12 The ecological function value assessment analysis of urban waterfront Jiwei Zhu, Ping Lu, Zhiqian Huang, Bei Zhou 13 Mechanism of diurnal osmotic potential changes and adjustment of three Caragana species in different habitats of the Inner Mongolia Plateau Zhirong Zheng, Shihai Lv, Chaoyang Feng 14 Biodiversity of phytoplankton and environmental influences analysis of Longfeng Wetland, China Nan Song, Yan Liu, Xinxin Lu, Yawen Fan 15 The effect of human activities on culturable soil microbes from Yaoquan Mountain in Wudalianchi, China Jianfei Guan, Jihua Wang, Xueping Zhan

    Effects of EMIC wave-driven proton precipitation on the ionosphere

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    This archive contains data files from two simulations of the coupled ring current-ionosphere model (the Ring current Atmosphere interactions Model with Self Consistent magnetic and electric field (RAM-SCBE) and the GLobal airglOW model (GLOW)). These simulations and observations were performed for and used in the paper “Effects of EMIC wave-driven proton precipitation on the ionosphere” Tian, X., Yu, Y., Zhu, M., Shreedevi PR, V.K. Jordanova, Stanley C. Solomon, submitted to Geophysical Research Letters, 2021

    Insights from Culturally Sustaining Leadership:A Hybrid Leadership model for a Chinese International School

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    This article proposes an innovative leadership practice designed to address the challenges of dual-management structures in international schools in China. Grounded in the principles of Culturally Sustaining Leadership (CSL), the proposed "hybrid leadership model" moves beyond merely managing cultural differences to proactively leveraging them for institutional improvement. This is an interpretive case study drawing on firsthand observations as an insider-practitioner in a Chongqing international school, an institution characterised by a cross-border collaboration involving a Chinese principal and Western academic leaders. The study details a specific strategic initiative—the "US Track Language Plan," where deep-seated conflicts arose from divergent pedagogical approaches—student-centred versus standards-based instruction. The intervention involved establishing structured working groups to facilitate cross-cultural dialogue and co-construct solutions in the context of dual-management international schools. The key insight is the creation of a "third space" for dialogue that resulted in a synthesised curriculum and hybrid assessment plan superior to what either side could develop independently. The objective is to provide a practical, reflective framework for school administrators to navigate complex cultural dynamics, foster collaborative decision-making, and ultimately enhance educational quality in cross-cultural settings.<br/

    Structure design and surface interference analysis of double crown surface configuration of multistage face gears

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    A novel transmission using the multistage face gears as the core component is used to realize variable speed with differential gear shifting, there are multiple face gears superimposed on the radial direction, meshing with planetary wheel at the same time, which achieves different outputs speed through braking different face gears. In order to solve the interference problems caused by asynchronous meshing motion between several face gears and the same cylinder gear, this study mainly focuses on the meshing theory study based on the double crown surfaces in tooth profile and tooth orientation. The surface structure of straight tooth and double crown are constructed according to the related surface equations, the corresponding interference conditions are obtained by comparison, every single stage face gear model is designed and assembled. This study shows that the double crown configuration surface structure can easily improve contact characteristics compared with straight tooth surface structure of face gear. In addition, the double crown configuration surface structure can improve the distribution and direction of contact path. This study is expected to establish a new tooth surface model, which can provide the best machining parameters for the face gears

    Structure design and surface interference analysis of double crown surface configuration of multistage face gears

    No full text
    A novel transmission using the multistage face gears as the core component is used to realize variable speed with differential gear shifting, there are multiple face gears superimposed on the radial direction, meshing with planetary wheel at the same time, which achieves different outputs speed through braking different face gears. In order to solve the interference problems caused by asynchronous meshing motion between several face gears and the same cylinder gear, this study mainly focuses on the meshing theory study based on the double crown surfaces in tooth profile and tooth orientation. The surface structure of straight tooth and double crown are constructed according to the related surface equations, the corresponding interference conditions are obtained by comparison, every single stage face gear model is designed and assembled. This study shows that the double crown configuration surface structure can easily improve contact characteristics compared with straight tooth surface structure of face gear. In addition, the double crown configuration surface structure can improve the distribution and direction of contact path. This study is expected to establish a new tooth surface model, which can provide the best machining parameters for the face gears.</jats:p

    NPUFort

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