Thematische Bibliographien / HU Jie

Auswahl der wissenschaftlichen Literatur zum Thema „HU Jie“

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Veröffentlicht am 25. Mai 2024

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Zeitschriftenartikel zum Thema "HU Jie"

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Stover Gingerich, Barbara. „Introducing Special Issue Editor Jie Hu, PhD, RN“. Home Health Care Management & Practice 22, Nr. 7 (19.08.2010): 543. http://dx.doi.org/10.1177/1084822310375498.

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Hu, Jie, Tian Zhao, Wei Geng, Yi Lu, Xiao-Fang Zhao, Yuan-Zhou Li, Yu-Qian Tang et al. „Correction: Synthesis of hydrophobic and hydrophilic TiO2 nanofluids for transformable surface wettability and photoactive coating“. Chemical Communications 55, Nr. 77 (2019): 11642. http://dx.doi.org/10.1039/c9cc90390a.

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Correction for ‘Synthesis of hydrophobic and hydrophilic TiO2 nanofluids for transformable surface wettability and photoactive coating’ by Jie Hu et al., Chem. Commun., 2019, 55, 9275–9278.
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Hu, Jie, Tao Chen, Moye Wang, Hue Sun Chan und Zhuqing Zhang. „Correction: A critical comparison of coarse-grained structure-based approaches and atomic models of protein folding“. Physical Chemistry Chemical Physics 19, Nr. 27 (2017): 18102. http://dx.doi.org/10.1039/c7cp90146a.

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Kerlan, Anne. „Le cinéma documentaire de Hu Jie : pour une contre-histoire de la Chine maoïste“. La Revue Documentaires N° 26-27, Nr. 1 (01.04.2016): 87–97. http://dx.doi.org/10.3917/docu.026.0087.

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CIM, Editor. „Letter of Retraction“. Clinical & Investigative Medicine 38, Nr. 3 (31.05.2015): 142. http://dx.doi.org/10.25011/cim.v38i3.22708.

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It has come to our attention that the a manuscript published in CIM: JianXin J, Cha Y, ZhiPeng L, Jie X, Hao Z, Meiyuan C, ChengYi S “GOLP3 is a predictor of survival in patients with hepatocellular carcinoma” Clin Invest Med. 2014 Aug 1;37(4):E233-42 contains text identical to a manuscript published in Tumour Biology: Hu GS, Li YQ, Yang YM, Shi W, Liao AJ, Yao YH, Zeng B, Yuan J “High expression of Golgi phosphoprotein-3 is associated with poor survival in patients with hepatocellular carcinoma” Tumour Biol. 2014 Sep;35(9):8625-32. doi: 10.1007/s13277-014-2105-8. Epub 2014 May 28. For this reason, the publication in CIM has been retracted. Jonathan Angel, MD Editor, CIM
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Editorial, E. „Retraction: Li Y, Li D, Ren B, Hu J, Li B, Krzton A, Li M. Determinants of differences in the activity budgets of Rhinopithecus bieti by age/sex class at Xiangguqing in the Baimaxueshan nature reserve, China. Arch Biol Sci. 2015;67(2):675-83. DOI: 10.2298/ABS140917033L“. Archives of Biological Sciences 68, Nr. 1 (2016): 237. http://dx.doi.org/10.2298/abs160112009e.

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This is a notice of retraction of the article: Determinants of differences in the activity budgets of Rhinopithecus bieti by age/sex class at Xiangguqing in the Baimaxueshan nature reserve, China by Li Yanhong, Li Dayong, Ren Baoping, Hu Jie, Li Baoguo, Krzton Ali, Li Ming, published in the Archives of Biological Sciences Vol. 67, Issue 2, 2015. Due to inadequate exchange of information between the previous and new Editor-in-Chief of the Archives of Biological Sciences, the new Editor-in-Chief was not informed of the authors? request for withdrawal of the article. After obtaining the written request, signed by all of the authors, the Editor-in-Chief has decided to withdraw the article. <br><br><font color="red"><b> Link to the retracted article <u><a href="http://dx.doi.org/10.2298/ABS140917033L">10.2298/ABS140917033L</a></b></u>
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Shi, Jie, Rui Zhou, Shuo Wang, Yuxin Liu, Baorui Tian, Yanhua Liu, YaNan Chen et al. „Abstract 1564: NEU4-mediated desialylation ignites the oncogenic receptors for the dissemination of ovarian carcinoma“. Cancer Research 84, Nr. 6_Supplement (22.03.2024): 1564. http://dx.doi.org/10.1158/1538-7445.am2024-1564.

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Abstract Background: Glycosylation profoundly influences the interactions between cancer cells and microenvironmental stromal cells during the peritoneal disseminated metastasis of ovarian carcinoma (OC), which is the major cause of cancer-related death. Although the characteristic cancer glycoconjugates are widely used as biomarkers for cancer diagnosis, our knowledge about cancer glycome remains quite fragmented due to the technique limitations in analyzing glycan chains with tremendous structural and functional heterogeneity. Method: Given the dysregulated cancer glycome is defined by the altered glycosylation machinery, here we performed a systematic loss-of-function screen on 498 genes involved in glycosylation for key regulators of OC dissemination. We identified neuraminidase 4 (NEU4), an enzyme capable of hydrolyzing terminal sialic acid from glycoconjugates, as a vital peritoneal dissemination-promoting modifier of OC glycome. What’s more, we also identified membrane proteins whose sialylation was able to be modified by NEU4 in OC cells by pull down and mass spectrum to investigate the functional significance of NEU4-mediated desialylation. Results: In human patients with high-grade serous OC (HGSOC), increased NEU4 was detected in the disseminated OC cells when compared with that in the primary tumor cells, which significantly correlated with the worse survival. Among three alternative splice-generated isoforms of human NEU4, we revealed that only the plasma membrane-localized NEU4 isoform 2 (NEU4-iso2) and intracellular isoform 3 promoted the peritoneal dissemination of OC by enhancing the cell motility and epithelial-mesenchymal transition. We also identified NEU4-iso2-regulated cell surface glycoproteome and found that NEU4-iso2 desialylated the epithelial growth factor receptor (EGFR), in particular at N196 residue, for the hyperactivation of EGFR and its downstream tumor-promoting signaling cascades. Conclusion: Our results provide new insights into how the OC glycome is dysregulated by NEU4 during OC progression and reveals a functionally important glycosite on EGFR for its abnormal activation in cancer. Citation Format: Jie Shi, Rui Zhou, Shuo Wang, Yuxin Liu, Baorui Tian, Yanhua Liu, YaNan Chen, Taoyu Hu, Yuhao Mu, Shufan Wang, Xintao Shao, Jie Yan, Pengpeng Qu, Wei Ding, Shuang Yang, Yi Shi, Jia Li, Longlong Wang. NEU4-mediated desialylation ignites the oncogenic receptors for the dissemination of ovarian carcinoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1564.
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Miao, Kun, Wei Kuang und Lifeng Wu. „Discussion of “Maximum Gradient Decision-Making for Railways Based on Convolutional Neural Network” by Hao Pu, Hong Zhang, Paul Schonfeld, Wei Li, Jie Wang, Xianbao Peng, and Jianping Hu“. Journal of Transportation Engineering, Part A: Systems 147, Nr. 4 (April 2021): 07021001. http://dx.doi.org/10.1061/jtepbs.0000507.

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Liu, Zhijun, Yucun Zhou, Weilin Zhang, Jie Hou, Xueyu Hu und Meilin Liu. „Sulfur- and Coking-Tolerant Anodes for Solid Oxide Fuel Cells“. ECS Meeting Abstracts MA2022-02, Nr. 47 (09.10.2022): 1761. http://dx.doi.org/10.1149/ma2022-02471761mtgabs.

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Sulfur- and Coking-tolerant Anodes for Solid Oxide Fuel Cells Zhijun Liu,1 Yucun Zhou,1 Weilin Zhang,1 Jie Hou,1 Xueyu Hu,1 Meilin Liu1, * 1 School of Materials Science and Engineering, Georgia Institute of Technology, Atlanta, Georgia 30332-0245, United States Abstract Solid oxide fuel cells (SOFCs) have potential to be one of the most efficient systems for direct conversion of a wide variety of chemical fuels into electricity. 1-3 However, the lack of sulfur- and coking-tolerant anodes still hinders the development of direct hydrocarbon-fueled SOFCs for efficient and cost-effective operation. The conventional Ni-based anodes may suffer from carbon deposition and sulfur poisoning when they are directly exposed to sulfur-containing hydrocarbon fuels, resulting in degradation in performance or even destruction of the anodes. 4-6 In this presentation, we will report a conventional Ni-Zr0.84Y0.16O2-δ (YSZ) anode decorated with Ce and Ba-based catalyst coatings to significantly enhance the sulfur and coking tolerance. Results suggest that the enhanced sulfur tolerance is attributed to the evenly distributed Ce-based catalyst on the inner surface of the porous Ni-YSZ anode while the enhanced coking tolerance is benefited from the Ba-based catalyst layer on the top of the anode. SOFCs with the catalysts-modified Ni-YSZ anodes show minimal degradation when hydrogen with 100 ppm H2S is used as the fuel. More importantly, stable operation is demonstrated for direct utilization of sulfur-containing liquid fuels (e.g., octane and gasoline). This work demonstrates the great potential of catalyst coatings for enhancing contaminant tolerance and durability of SOFC electrodes. Z. Wang, Y. Wang, D. Qin, Y. Gu, H. Yu, S. Tao, B. Qian and Y. Chao, J. Eur. Ceram. Soc. (2022). S. Sengodan, M. Liu, T.-H. Lim, J. Shin, M. Liu and G. Kim, J. Electrochem. Soc., 161, F668 (2014). Z. Cheng, J.-H. Wang, Y. Choi, L. Yang, M. C. Lin and M. Liu, Energy Environ. Sci., 4, 4380 (2011). T. Hays, A. M. Hussain, Y.-L. Huang, D. W. McOwen and E. D. Wachsman, ACS Appl. Energy Mater., 1, 1559 (2018). Y. Chen, B. deGlee, Y. Tang, Z. Wang, B. Zhao, Y. Wei, L. Zhang, S. Yoo, K. Pei, J. H. Kim, Y. Ding, P. Hu, F. F. Tao and M. Liu, Nat. Energy, 3, 1042 (2018). L. Yang, S. Wang, K. Blinn, M. Liu, Z. Liu, Z. Cheng and M. Liu, Science, 326, 126 (2009).
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Lu, Lina, Jennifer Rui Wang, Ying C. Henderson, Shanshan Bai, Jie Yang, Min Hu, Yuanqing Yan et al. „Abstract 3131: Anaplastic transformation model in thyroid cancer revealed by single cell lineage and fate analysis“. Cancer Research 83, Nr. 7_Supplement (04.04.2023): 3131. http://dx.doi.org/10.1158/1538-7445.am2023-3131.

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Abstract The deadliest anaplastic thyroid cancer (ATC) often transforms from indolent differentiated thyroid cancer (DTC), however the complex intra-tumor transformation process is poorly understood. We investigated an anaplastic transformation model by dissecting both cell lineage and cell fate transitions using single cell transcriptomes and genetic alterations data of patients with different subtypes of thyroid cancer. The resulting model started from stress-responsive DTC cells to inflammatory ATC cells, to mitotic defective ATC cells and extended all the way to mesenchymal ATC cells. In parallel with tumor cell evolution, macrophages shifted from anti-tumor to tumor-promoting states and T cells reprogrammed from cytotoxic to exhausted states. Further, our analysis identified two important milestones: 1) diploid stage, where ATC cells were commonly diploids with non-RAS mutations and inflammatory phenotypes. 2) aneuploid stage, where ATC cells gained aneuploidy with frequent RAS mutations and mesenchymal phenotypes leading to the extreme lethal stage of ATC progression. Citation Format: Lina Lu, Jennifer Rui Wang, Ying C. Henderson, Shanshan Bai, Jie Yang, Min Hu, Yuanqing Yan, Tuan M Tran, Jianzhuo Li, Cheng-Kai Shiau, Rachel Kieser, Xiao Zhao, Jiping Wang, Roza Nurieva, Michelle D. Williams, Maria E. Cabanillas, Ramona Dadu, Naifa Lamki Busaidy, Mark Zafereo, Nicholas Navin, Stephen Y. Lai, Ruli Gao. Anaplastic transformation model in thyroid cancer revealed by single cell lineage and fate analysis [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3131.
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Dissertationen zum Thema "HU Jie"

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O'Connor, Marie Nicole. „Capturing the memoryscape : alternative visual discourse and the documentaries of Hu Jie and Wang Bing“. Thesis, University of British Columbia, 2010. http://hdl.handle.net/2429/23632.

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Alternative Chinese film culture has become increasingly diverse since the 1990s. This diversification is related to the kinds of films being produced and to who has ‘the right’ to make and to view them. A significant number of new films are documentaries, distinct in form from the newsreels (xinwen pian) or special topic films (zhuanti pian) that represent the more traditional official forms of documentary. Some of these new unofficial (non-state funded) documentaries have attempted to create alternative space for the telling of individual stories about sensitive and traumatic historical periods such as the Great Leap Forward, the Great Famine, and the Cultural Revolution. Such stories are in marked contrast to official visual histories of these periods. This paper’s focus is the new alternative space created by two individual filmmakers, Hu Jie and Wang Bing, who have documented unofficial, individual histories. Three of their films are examined in the context of a film industry that offers them severely limited or no access at all to official channels of distribution. The paper begins by examining the manner in which historical narratives have been and are ongoingly integral to the construction of a specific official view of the Chinese nation. Such official narratives are dominant in state-run environments, such as schools and in the media, and they tend to drown out any attempted alternative narratives. Hu Jie and Wang Bing stand out, even within alternative film culture, as filmmakers willing to challenge official doctrine and history. The narrative styles of three of their films are closely analyzed with a view to understanding how and why their work differs from that of official historical narratives. The approaches taken by the two filmmakers are also compared and contrasted. A major aspect of this project has been the translation of Hu Jie’s film In Search of Soul of Lin Zhao into English. The other two films examined have already been translated. This paper argues that by privileging the individual narrative, the two filmmakers present more complex versions of traumatic historical periods that stand in contrast to the often idealized or superficial official histories.
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Lu, Jiejing. „Écritures documentaires de l’histoire dans la Chine contemporaine : Hu Jie, Folk Memory Project, Mao Chenyu“. Electronic Thesis or Diss., Paris 3, 2023. http://www.theses.fr/2023PA030027.

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Le présent travail souhaite contribuer à la recherche sur des créations documentaires indépendantes dans la Chine contemporaine qui se confrontent à l’histoire nationale. Dans un contexte intellectuel et artistique d’exhumation et transmission de faits encore enfouis, refoulés ou privés de représentation publique, nous observons trois cas exemplaires à cet égard : HU Jie, le Folk Memory Project du Caochangdi Workstation, et MAO Chenyu. Nous tentons dans notre étude de caractériser les propositions et gestes principaux de leur recherche d’écriture documentaire. Pour HU Jie, le geste principal est aussi le geste séminal du documentaire classique : établir les faits. À partir d’une réflexion sur les matériaux collectés et sur les images d’archive, HU Jie s’interroge sur la mise en forme de son sujet et sur les principes d’intelligibilité du réel que son écriture documentaire met en œuvre. Projet collectif à l’initiative du cinéaste WU Wenguang et de la chorégraphe WEN Hui, l’entreprise du Folk Memory Project consiste à s’engager des amateur-filmeurs ou de simples citoyens qui retournent dans leurs propres villages, filment et recueillent les témoignages de leurs proches ayant connu la Grande famine (1958-1961) en Chine. Le projet conçoit ainsi la pratique documentaire comme geste à la fois de création, d’interrogation, de transmission et d’introspection. MAO Chenyu, quant à lui, centre son travail sur le monde rural ainsi que la vie paysanne en Chine. En cultivant des formes fragmentaires, en recherche perpétuelle d’une articulation possible du cinéma avec d’autre pratiques actuelles et à venir, l’écriture documentaire de MAO Chenyu propose une démarche qui s’apparente à une ethnologie historique. Ces trois œuvres participent de l’écriture d’une histoire critique en images et en sons, qui réclame de devenir collective et plurielle
This dissertation wishes to contribute to the studies about the independent documentary film creations in contemporary China which confront national history. In an intellectual and artistic context, where the exhumation and transmission of the buried facts are repressed or bereft of public representation, we would like to observe three exemplary cases in this regard : HU Jie, Folk Memory Project, and MAO Chenyu. Our study will try to characterise the different propositions and the principal gestures in their experimentations of documentary writing style.For HU Jie, the principal gesture is also the seminal gesture of classical documentary filmmaking : to establish the facts. Based on collected testimonials and archival footage, HU Jie explores in his practice how the subjects of his films and the historical facts would come to shape intelligibly. Folk Memory Project is an ongoing participatory documentary experience that engages amateur filmmakers or citizens to go back to their families’ rural villages, and film elders’ memories about difficult times. The project sees its practice as creation, investigation, transmission, but also intimate introspection. In the case of MAO Chenyu, who centers his work in the rural region and China’s peasantry, with his innovative approach that explores perpetually about the possible articulation between cinema and other practices, his work provides an ethnographic thinking to history writing.These three practices all participate to the critical approach of history writing in sounds and images, which reclaims history's collective and plurality becoming
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Zhang, Qiong. „Ambivalence & ambiguity Chinese-American literature beyond politics and ethnography = Mao dun qing jie yu yi shu mo hu xing : chao yue zheng zhi he zu yi de Meiguo Hua yi wen xue /“. Shanghai : Fu dan da xue chu ban she, 2006. http://books.google.com/books?id=cQ1IAAAAMAAJ.

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Chen, Guoqiu. „Hu Yinglin shi lun yan jiu“. Xianggang : Hua feng shu ju, 1986. http://catalog.hathitrust.org/api/volumes/oclc/22795747.html.

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Li, Siya. „Hu Yinglin wen xue si xiang yan jiu /“. View abstract or full-text, 2008. http://library.ust.hk/cgi/db/thesis.pl?HUMA%202008%20LIS.

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Hsu, King Chiu. „"Shui hu zhuan" wen ben ping gai yan jiu /“. View abstract or full-text, 2005. http://library.ust.hk/cgi/db/thesis.pl?HUMA%202005%20HSU.

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Wong, Hoi-sing. „A critical study of the evolution and context of the sequels of Water Margin = Shui hu zhuan xu shu yan jiu“. Click to view the E-thesis via HKUTO, 2009. http://sunzi.lib.hku.hk/hkuto/record/B43278668.

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Hu, Jia Verfasser], und Andreas [Akademischer Betreuer] [Wömpener. „Decision support system considering risks in combined transport : with a case study of risk management in railway transport / Jia Hu ; Betreuer: Andreas Wömpener“. Duisburg, 2019. http://d-nb.info/119169383X/34.

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Jin, Jianbin. „Zhongguo da lu cheng shi ju min cai na hu lian wang yan jiu : yi Hangzhou wei li = Internet adoption in urban China : the case of Hangzhou /“. click here to view the abstract and table of contents, 2002. http://net3.hkbu.edu.hk/~libres/cgi-bin/thesisab.pl?pdf=b17087429a.pdf.

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Xiao, Yunqi. „Ren shi guang gao bei hou de wen hua jia zhi guan : yi nei rong fen xi tan tao Zhongguo da lu ji Xianggang de hu fu / hua zhuang pin za zhi guang gao zhong biao da de "yang hua" jia zhi /“. click here to view the abstract and table of contents, 2005. http://net3.hkbu.edu.hk/~libres/cgi-bin/thesisab.pl?pdf=b19816315a.pdf.

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Bücher zum Thema "HU Jie"

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Shui hu jie mi. Shanghai: Xue lin chu ban she, 2007.

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Shui hu jie shi. Shanghai Shi: Shanghai san lian shu dian, 2014.

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Picoult, Jodi. 姐姐的守护神. Haikou: Nan hai chu ban gong si, 2008.

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Qinghai Hu. Xining Shi: Qinghai ren min chu ban she, 2001.

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Hou hu gui jie. Haerbin Shi: Bei fang wen yi chu ban she, 2007.

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Wang, Zhi. Tou hu yi jie. Beijing: Zhonghua shu ju, 1985.

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1755-1814, Xin Shaoye, und Wang Shaolan 1760-1835, Hrsg. Qun jing hu jie. Beijing: Zhonghua shu ju, 1991.

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Yueqiu, Hua, und Luo Hua, Hrsg. Jie Shui hu zhuan. Changsha: Yue lu shu she, 1994.

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Shudu, Lu, und Wu Chengxue, Hrsg. Hu tu shi jie. Guangzhou Shi: Huaa cheng chu ban she, 1986.

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Shui hu wen hua jie du. [Guiyang]: Guizhou min zu chu ban she, 2006.

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Buchteile zum Thema "HU Jie"

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Martin-Jones, David. „Cinematic Ethics and a World of Cinemas: A Reason to Believe in this World’s History in Hu Jie’s Wo sui si qu/Though I am Gone“. In Contemporary Screen Ethics, herausgegeben von Lucy Bolton, David Martin-Jones und Robert Sinnerbrink, 42–59. Edinburgh University Press, 2023. http://dx.doi.org/10.3366/edinburgh/9781474447584.003.0003.

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This chapter critically reflects upon the Deleuzian notion of cinematic ethics, and that it provides a reason to believe in this world. Through close analysis of the Chinese documentary Wo sui si qu/Though I am Gone (Hu Jie, 2008) – a film in which Deleuzian time-images are used to reconsider history much as Deleuze considered typical of modern political or minor cinema – the sticking point of Deleuze’s cinematic ethics is revealed: namely, in a world of cinemas broadly conceived it is not this world which a cinematic ethics asks us to rejuvenate our belief in, but this world’s history (or rather, in the complexities of a world history of which we can only glimpse a fraction through cinema).
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Kotin, Joshua. „Reading Ezra Pound and J. H. Prynne in Chinese“. In Utopias of One, 109–29. Princeton University Press, 2019. http://dx.doi.org/10.23943/princeton/9780691196541.003.0007.

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This chapter examines Ezra Pound's and J. H. Prynne's use of Chinese poetry to understand the problem of motivation—and the incentive structures that govern modern life. It considers how difficult poetry illuminates the difficulty of motivating social change. Here, Prynne's work, “Jie ban mi Shi Hu,” exemplifies a problem for readers of his work, and for literary and social theory: How and why should we read texts that make extravagant, even impossible demands? The question asks us to justify the value of particular texts and the values of the world that receive them. To put this point a different way, when we ask for reasons to accept a poem's invitation to do work, we should also ask what kind of world would have to exist to make the invitation seem reasonable, and whether we would want to live in that world. Similar questions are relevant to debates about utopianism.
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„V. Longevity Techniques and Medical Theory: The Legacy of Hu Yin“. In Gender, Power, and Talent, 100–132. Columbia University Press, 2018. http://dx.doi.org/10.7312/jia-18444-009.

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„5 The Jia liang hu 嘉量斛“. In Problems of Han Administration, 217–36. BRILL, 2016. http://dx.doi.org/10.1163/9789004314900_016.

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„ANHUI RÉN & HU JIN TAO: THE NEW STAR IN COMMUNIST CHINA“. In Pioneers Of Modern China, 336–62. WORLD SCIENTIFIC, 2005. http://dx.doi.org/10.1142/9789812700902_0011.

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Odabasi, Eren. „Three Crime Films by Jia Zhangke: A Transnational Genealogy of Social and Personal Turmoil“. In Transnational Crime Cinema, herausgegeben von Sarah Delahousse und Aleksander Sedzielarz, 93–106. Edinburgh University Press, 2022. http://dx.doi.org/10.3366/edinburgh/9781399505673.003.0006.

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This chapter describes a shift in Jia Zhangke’s cinematic language that reveals that his approach to filmmaking has evolved in unexpected ways following the release of his 2013 film A Touch of Sin. It explains how, in a highly stylized crime drama, Jia openly experiments with genre elements that borrow extensively from Hong Kong triad films while also paying homage to several classics within the wuxia tradition. The film, thus, marks a shift towards violent, formally ambitious crime stories continued with Jia’s two subsequent films, Mountains May Depart (2015) and Ash is Purest White (2018). The chapter, furthermore, offers an alternative reading of Jia’s films from a genre-oriented perspective, prioritizing his interest in the conventions of the crime genre over the meditative, naturalistic cinematic language that characterized his early work by tracing the genealogy of references and intertextual elements that inform Jia’s trilogy by identifying several sources of inspiration, including John Woo and King Hu, by bringing to light cinema as a site of the ongoing processes of conflict and reconciliation between a culturally independent Hong Kong and the consolidated nationalisms of China, and by exploring how Jia utilizes multi-episodic storytelling strategies to combine crime film conventions with social commentary.
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Taber, Douglass F. „Substituted Benzenes: The Reddy Synthesis of Isofregenedadiol“. In Organic Synthesis. Oxford University Press, 2015. http://dx.doi.org/10.1093/oso/9780190200794.003.0062.

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Jianbo Wang of Peking University (Org. Lett. 2011, 13, 4988) and Patrick Y. Toullec and Véronique Michelet of Chimie ParisTech (Org. Lett. 2011, 13, 6086) developed conditions for the electrophilic acetoxylation of a benzene derivative 1. Seung Hwan Cho and Sukbok Chang of KAIST (J. Am. Chem. Soc. 2011, 133, 16382) and Brenton DeBoef of the University of Rhode Island (J. Am. Chem. Soc. 2011, 133, 19960) devised protocols for the electrophilic imidation of a benzene derivative 3. Vladimir V. Grushin of ICIQ Tarragona devised (J. Am. Chem. Soc. 2011, 133, 10999) a simple protocol for the cyanation of a bromobenzene 6 to the nitrile 7. Hua-Jian Xu of the Hefei University of Technology (J. Org. Chem. 2011, 76, 8036) and Myung-Jong Jin of Inha University (Org. Lett. 2011, 13, 5540) established conditions for the efficient Heck coupling of a chlorobenzene 8. Jacqueline E. Milne of Amgen/Thousand Oaks reduced (J. Org. Chem. 2011, 76, 9519) the adduct from the addition of 11 to 12 to deliver the phenylacetic acid 13. Jeffrey W. Bode of ETH Zurich effected (Angew. Chem. Int. Ed. 2011, 50, 10913) Friedel-Crafts alkylation of 14 with the hydroxamate 15 to give the meta product 16. B.V. Subba Reddy of the Indian Institute of Chemical Technology, Hyderabad took advantage (Tetrahedron Lett. 2011, 52, 5926) of the directing ability of the amide to effect selective ortho acetoxylation of 17. Similarly, Frederic Fabis of the Université de Caen Basse-Normandie used (J. Org. Chem. 2011, 76, 6414) the methoxime of 19 to direct ortho bromination, leading to 20. Teck-Peng Loh of Nanyang Technological University showed (Chem. Commun. 2011, 47, 10458) that the carbamate of 21 directed ortho C–H functionalization to give the ester 23. Yoichiro Kuninobu and Kazuhiko Takai of Okayama University rearranged (Chem. Commun. 2011, 47, 10791) the allyl ester 24 directly to the ortho-allylated acid 25. Youhong Hu of the Shanghai Institute of Materia Medica (J. Org. Chem. 2011, 76, 8495) and Graham J. Bodwell of Memorial University (J. Org. Chem. 2011, 76, 9015) condensed a chromene 26 with a nucleophile 27 to give the arene 28. C.V. Ramana of the National Chemical Laboratory prepared (Tetrahedron Lett. 2011, 52, 4627) the arene 31 by condensing 29 with 30 with high regioselectivity.
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Konferenzberichte zum Thema "HU Jie"

1

Pao, Y. H., E. Jih, V. Siddapureddy, X. Song, R. Liu, R. McMillan und J. M. Hu. „A Thermal Fatigue Model for Surface Mount Leadless Chip Resistor (LCR) Solder Joints“. In ASME 1996 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 1996. http://dx.doi.org/10.1115/imece1996-0884.

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Abstract The reliability of surface mount leadless solder joints, e.g., LCCC (leadless ceramic chip carrier), LCR (leadless chip resistor), and LCC (leadless chip capacitor), has been a long-term research topic due to the concern of thermal fatigue failure resulting from significant stresses and strains induced in the joint. Numerous studies of failure analysis of leadless solder joints exist in the literature, and a number of life prediction models based on different failure characterizing parameters, e.g., total strain, plastic strain, strain energy density, etc., have been developed for particular loading conditions, such as isothermal or thermal cyclic fatigue tests. To name a few, e.g., one can refer to Engelmaier (1984), Cltterbaugh and Charles (1985), Hall and Sherry (1986), Clech and Augis (1987), Wong et al. (1988), Bae et al. (1989), Solomon (1990), Frear et al. (1991), Satoh et al. (1991), Lee and Stone 91991), Lau (1991), Govila et al. (1994), Schroeder and Mitchell (1994), JPL (1994), Syed (1995), Wen and Ross (1995), Jih and Pao (1995), Zhang et al. (1996), Kawai et al. (1996), Hu (1996), Guo and Conrad (1996), Lin et al. (1996), and Lau and Pao (1996).
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2

Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. „Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 2 Specialist Committee Reports“. In 21st International Ship and Offshore Structures Congress, Volume 2. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-committee-vol-2.

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Table of Contents Preface ..............................................................................................................iii Committee V.1: Accidental Limit States .......................................................1 Bruce Quinton; Gaetano De Luca; Topan Firmandha; Mihkel Körgesaar; Hervé Le Sourne; Ken Nahshon; Gabriele Notaro; Kourosh Parsa; Smiljko Rudan; Katsuyuki Suzuki; Osiris Valdez Banda; CareyWalters; Deyu Wang; Zhaolong Yu Committee V.2: Experimental Methods ......................................................91 Soren Ehlers (Chair); Nagi Abdussamie; Kim Branner; ShiXiao Fu; Martijn Hoogeland; Kari Kolari; Paul Lara; Constantine Michailides; Hideaki Murayama; Cesare Rizzo; Jung Kwan Seo; Patrick Kaeding Committee V.3: Materials and Fabrication Technology ..........................163 Lennart Josefson (Chair); Konstantinos Anyfantis; Bianca de Carvalho Pinheiro; Bai-Qiao Chen; Pingsha Dong; Nicole Ferrari; Koji Gotoh; James Huang; Matthias Krause; Kun Liu; Stephane Paboeuf; Stephen van Duin; Fang Wang; Albert Zamarin Committee V.4: Offshore Renewable Energy ...........................................241 Atanasios Kolios (Chair); Kyong-Hwan Kim; Chen Hsing Cheng; Elif Oguz; Pablo Morato; Freeman Ralph; Chuang Fang; Chunyan Ji; Marc Le Boulluec; Thomas Choisnet; Luca Greco; Tomoaki Utsunomiya; Kourosh Rezanejad; Charles Rawson; Jose Miguel Rodrigues Committee V.5: Special Vessels ................................................................313 Darren Truelock (Chair); Jason Lavroff; Dustin Pearson; Zbigniew (Jan) Czaban; Hanbing Luo; Fuhua Wang; Ivan Catipovic; Ermina Begovic; Yukichi Takaoka; Claudia Loureiro; Chang Yong Song; Esther Garcia; Alexander Egorov; Jean-Baptiste Souppez; Pradeep Sensharma; Rachel Nicholls-Lee Committee V.6: Ocean Space Utilization ..................................................379 Sebastian Schreier (Chair); Felice Arena; Harry Bingham; Nuno Fonseca; Zhiqiang Hu; Debabrata Karmakar; Ekaterina Kim; Hui Li; Pengfei Liu; Motohiko Murai; Spiro J Pahos; Chao Tian; George Wang Committee V.7: Structural Longevity ........................................................445 Iraklis Lazakis (Chair); Bernt Leira; Nianzhong Chen; Geovana Drumond; Chi-Fang Lee; Paul Jurisic; Bin Liu; Alysson Mondoro; Pooria Pahlavan; Xinghua Shi; Ha Cheol Song; Tadashi Sugimura; Christian Jochum; Tommaso Coppola Committee V.8: Subsea Technology ..........................................................503 Agnes Marie Horn (Chair); Tauhid Rahman; Ilson Pasqualino; Menglan Duan; Zhuang Kang; Michael Rye Andersen; Yoshihiro Konno; Chunsik Shim; Angelo Teixeira; Selda Oterkus; Blair Thornton; Brajendra Mishra Subject Index .............................................................................................582 Author Index ...............................................................................................584
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Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. „Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 3 Discussions“. In 21st International Ship and Offshore Structures Congress Volume 3 Discussions. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-discussion-vol-3.

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Committee I.1: Environment Alexander Babanin (Chair); Mariana Bernardino; Franz von Bock und Polach; Ricardo Campos,; Jun Ding; Sanne van Essen; Tomaso Gaggero; Maryam Haroutunian; Vanessa Katsardi; Alexander Nilva; Arttu Polojarvi; Erik Vanem; Jungyong Wang; Huidong Zhang; Tingyao Zhu Floor Discussers: Florian Sprenger; Carlos Guedes Soares; Henk den Besten Committee I.2: Loads Ole Andreas Hermundstad (Chair); Shuhong Chai; Guillaume de Hauteclocque; Sheng Dong; Chih-Chung Fang; Thomas B. Johannessen; Celso Morooka; Masayoshi Oka; Jasna Prpić-Oršić; Alessandro Sacchet; Mahmud Sazidy; Bahadir Ugurlu; Roberto Vettor; Peter Wellens Official Discusser: Hayden Marcollo Committee II-1: Quasi-Static Response James Underwood (Chair); Erick Alley; Jerolim Andrić Dario Boote; Zhen Gao; Ad Van Hoeve; Jasmin Jelovica; Yasumi Kawamura; Yooil Kim; Jian Hu Liu; Sime Malenica; Heikki Remes; Asokendu Samanta; Krzysztof Woloszyk; Deqing Yang Official Discusser: Prof. T. Yoshikwa Committee II.2: Dynamic Response Gaute Storhaug (Chair); Daniele Dessi; Sharad Dhavalikar; Ingo Drummen; Michael Holtmann; Young-Cheol Huh; Lorenzo Moro; Andre Paiva; Svein Sævik; Rong-Juin Shyu; Shan Wang; Sue Wang; WenWei Wu; Yasuhira Yamada; Guiyong Zhang Floor Discussers: Ling Zhu; Tomoki Takami; Anriette (Annie) Bekker; Bruce Quinton; Robert Sielski Committee III.1: Ultimate Strength Paul E. Hess (Chair); Chen An; Lars Brubak; Xiao Chen; Jinn Tong Chiu; Jurek Czujko; Ionel Darie; Guoqing Feng; Marco Gaiotti; Beom Seon Jang; Adnan Kefal; Sukron Makmun; Jonas Ringsberg; Jani Romanoff; Saad Saad-Eldeen; Ingrid Schipperen; Kristjan Tabri; Yikun Wang; Daisuke Yanagihara Official Discusser: Jørgen Amdahl Committee III.2: Fatigue and Fracture Yordan Garbatov (Chair); Sigmund K Ås; Henk Den Besten; Philipp Haselbach; Adrian Kahl; Dale Karr; Myung Hyun Kim; Junjie Liu; Marcelo Igor Lourenço de Souza; Wengang Mao; Eeva Mikkola; Naoki Osawa; Fredhi Agung Prasetyo; Mauro Sicchiero; Suhas Vhanmane; Marta Vicente del Amo; Jingxia Yue Official Discusser Weicheng Cui Floor Discussers: Robert Sielski; Sören Ehlers; Stephane Paboeuf; Teresa Magoga Committee IV.1: Design Principles and Criteria Matthew Collette (Chair); Piero Caridis; Petar Georgiev; Torfinn Hørte; Han Koo Jeong; Rafet emek Kurt; Igor Ilnytskiy; Tetsuo Okada; Charles Randall; Zbigniew Sekulski; Matteo Sidari; Zhihu Zhan; Ling Zhu Official Discusser: Enrico Rizzuto Committee IV.2: Design Methods Andrea Ivaldi (Chair); Abbas Bayatfar; Jean-David Caprace; Gennadiy Egorov; Svein Erling Heggelund; Shinichi Hirakawa; Jung Min Kwon; Dan Mcgreer; Pero Prebeg; Robert Sielski; Mark Slagmolen; Adam Sobey; Wenyong Tang; Jiameng Wu Official Discusser: Mario Dogliani Committee V.1: Accidental Limit States Bruce Quinton; Gaetano De Luca; Topan Firmandha; Mihkel Körgesaar; Hervé Le Sourne; Ken Nahshon; Gabriele Notaro; Kourosh Parsa; Smiljko Rudan; Katsuyuki Suzuki; Osiris Valdez Banda; CareyWalters; Deyu Wang; Zhaolong Yu Official Discusser: Manolis Samuelides Committee V.2: Experimental Methods Sören Ehlers (Chair); Nagi Abdussamie; Kim Branner; ShiXiao Fu; Martijn Hoogeland; Kari Kolari; Paul Lara; Constantine Michailides; Hideaki Murayama; Cesare Rizzo; Jung Kwan Seo; Patrick Kaeding Official Discusser: Giles Thomas Committee V.3: Materials and Fabrication Technology Lennart Josefson (Chair); Konstantinos Anyfantis; Bianca de Carvalho Pinheiro; Bai-Qiao Chen; Pingsha Dong; Nicole Ferrari; Koji Gotoh; James Huang; Matthias Krause; Kun Liu; Stephane Paboeuf; Stephen van Duin; Fang Wang; Albert Zamarin Official Discusser: Frank Roland Floor Discussers Alessandro Caleo; Agnes Marie Horn; Krzysztof Woloszyk; Robert Sielski Committee V.4: Offshore Renewable Energy Atanasios Kolios (Chair); Kyong-Hwan Kim; Chen Hsing Cheng; Elif Oguz; Pablo Morato; Freeman Ralph; Chuang Fang; Chunyan Ji; Marc Le Boulluec; Thomas Choisnet; Luca Greco; Tomoaki Utsunomiya; Kourosh Rezanejad; Charles Rawson; Jose Miguel Rodrigues Official Discusser: Amy Robertson Committee V.5: Special Vessels Darren Truelock (Chair); Jason Lavroff; Dustin Pearson; Zbigniew (Jan) Czaban; Hanbing Luo; Fuhua Wang; Ivan Catipovic; Ermina Begovic; Yukichi Takaoka; Claudia Loureiro; Chang Yong Song; Esther Garcia; Alexander Egorov; Jean-Baptiste Souppez; Pradeep Sensharma; Rachel Nicholls-Lee Official Discusser: Jaye Falls Floor Discussers: Jasmin Jelovica; Stephane Paboeuf; Sören Ehlers Committee V.6: Ocean Space Utilization Sebastian Schreier (Chair); Felice Arena; Harry Bingham; Nuno Fonseca; Zhiqiang Hu; Debabrata Karmakar; Ekaterina Kim; Hui Li; Pengfei Liu; Motohiko Murai; Spiro J Pahos; Chao Tian; George Wang Official Discusser: Hideyuki Suzuki Floor Discussers: Robert Sielski; Sue Wang; Sarat Mohapatra; Gaute Storhaug; Henk den Besten Committee V.7: Structural Longevity Iraklis Lazakis (Chair); Bernt Leira; Nianzhong Chen; Geovana Drumond; Chi-Fang Lee; Paul Jurisic; Bin Liu; Alysson Mondoro; Pooria Pahlavan; Xinghua Shi; Ha Cheol Song; Tadashi Sugimura; Christian Jochum; Tommaso Coppola Official Discusser: Timo de Beer Floor Discusser: Krzysztof Woloszyk Committee V.8: Subsea Technology Agnes Marie Horn (Chair); Tauhid Rahman; Ilson Pasqualino; Menglan Duan; Zhuang Kang; Michael Rye Andersen; Yoshihiro Konno; Chunsik Shim; Angelo Teixeira; Selda Oterkus; Blair Thornton; Brajendra Mishra Official Discusser: Segen F. Estefen
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4

Zhang, L., H. Xu, J. Wang und H. Jiang. „Research on the Mechanism of Nano-Displacement Agent to Water Blocking Damage of Tight Sandstone Gas Reservoir“. In 57th U.S. Rock Mechanics/Geomechanics Symposium. ARMA, 2023. http://dx.doi.org/10.56952/arma-2023-0416.

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ABSTRACT Exploring ways to enhance the liquid-phase seepage ability and increase the flow-back rate of external fluids in the production process is an important way to solve the problem of water blocking in tight reservoirs. Based on the analysis of the characteristics of water phase retention damage caused by foreign fluid invasion during the development of tight sandstone gas reservoirs, a set of ether nano-displacement agent system was optimized. The mechanism of wetting modification is revealed from the perspective of the physical composition of nano-displacement agent, and the mechanism of action between nano-displacement agent and rock and different clay minerals is clarified. Laboratory experiments show that :(1) 0.5 wt% CNDAD1# nano-displacement agent fluid can change the wettability of sandstone to gas-phase wetting, "air-salt water-rock" three-phase static contact angle increased from 38.5° to 126°. (2) SEM and EDX results prove that the nano-displacement agent has good macroscopic static and dynamic adsorption performance on the sandstone surface. This paper provides a reference method for exploring the use of environmentally friendly chemical agents to remove water blocking damage in tight sandstone gas reservoirs. INTRODUCTION Tight sandstone gas reservoirs refer to sandstone gas reservoirs with overburden matrix permeability less than or equal to 0.1 mD. Single wells generally have no natural productivity or natural productivity is lower than the lower limit of industrial gas flow. Industrial natural gas production needs to be obtained through fracturing, horizontal wells, multi-branch wells, etc. (Wei G, Zhang F, Li J, et al., 2016; Jia C, Zheng M and Zhang Y, 2012; Zou N, Zhu R, Wu S, et al., 2012). According to the data, China contains a wealth of tight sandstone gas reservoirs, tight sandstone gas resources account for about 27.5 % of China ‘s natural gas resources, mainly distributed in different basins in China, such as Sichuan, Tarim Basin and other regions, and most of the reserves have not been effectively developed (Wang J, Hu Y, Liu Y, et al., 2019; Fuhai J, Tang D, Xu H, et al., 2012; Bybee K, 2007). Therefore, the development of tight sandstone gas reservoirs will become one of the key sources of future energy security in China, and it is also the focus of unconventional oil and gas development. However, most of the tight sandstone gas reservoirs have low natural productivity of single wells. The combination of horizontal well drilling and fracturing is one of the main ways to realize the commercial exploitation of tight sandstone gas reservoirs. However, during the fracturing process, the fracturing fluid flowback is not timely or the edge and bottom water invades the reservoir during the production process. The reservoir will produce a large amount of external water phase retention or edge and bottom water invasion water, forming a ‘ liquid phase trap ‘ and further tight sandstone gas well productivity (Dutta R, Lee C H, Odumabo S, et al., 2012; You Q, Wang H, Zhang Y, et al., 2018; Zhang L, Zhou F, Mou J Y, et al., 2018).
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