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Our works on conservation of wooden objects in Korea
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作者 Kim Ik Joo 《江汉考古》 CSSCI 北大核心 2014年第S1期33-38,共6页
韩国木质文物的系统保护始于1976年新安沉船出土后,新安沉船保护方法的研究促进了饱水木保护技术的发展,是韩国木质文物保护的转折点,为木质文物保护新方法、新技术的研究搭建了一个平台。二十世纪九十年代以后韩国出土了大量木质文物,... 韩国木质文物的系统保护始于1976年新安沉船出土后,新安沉船保护方法的研究促进了饱水木保护技术的发展,是韩国木质文物保护的转折点,为木质文物保护新方法、新技术的研究搭建了一个平台。二十世纪九十年代以后韩国出土了大量木质文物,这些文物的出土提供了很多新信息,是重要的历史资源。这一趋势促使了韩国保护工作人员对木质文物保护新方的研究。韩国的木质文物实际上是埋藏在沼泽、湖底和海底的饱水木,这些环境限制了微生物的生长。遗址中出土的木质器物是糟朽木或是碳化木。因此,韩国木质文物的保护分两类:一类是用传统工艺修复木建筑和漆器,另一类是保护处理饱水木器。文中介绍了韩国文物保护实验室保护修复木质文物的几个实例。 展开更多
关键词 Our works on conservation of wooden objects in Korea
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Differences and relations of objectives, constraints, and decision parameters in the optimization of individual heat exchangers and thermal systems 被引量:3
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作者 CHEN Qun WANG YiFei 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2016年第7期1071-1079,共9页
Performance improvement of heat exchangers and the corresponding thermal systems benefits energy conservation, which is a multi-parameters, multi-objectives and multi-levels optimization problem. However, the optimize... Performance improvement of heat exchangers and the corresponding thermal systems benefits energy conservation, which is a multi-parameters, multi-objectives and multi-levels optimization problem. However, the optimized results of heat exchangers with improper decision parameters or objectives do not contribute and even against thermal system performance improvement. After deducing the inherent overall relations between the decision parameters and designing requirements for a typical heat exchanger network and by applying the Lagrange multiplier method, several different optimization equation sets are derived, the solutions of which offer the optimal decision parameters corresponding to different specific optimization objectives, respectively. Comparison of the optimized results clarifies that it should take the whole system, rather than individual heat exchangers, into account to optimize the fluid heat capacity rates and the heat transfer areas to minimize the total heat transfer area, the total heat capacity rate or the total entropy generation rate, while increasing the heat transfer coefficients of individual heat exchangers with different given heat capacity rates benefits the system performance. Besides, different objectives result in different optimization results due to their different intentions, and thus the optimization objectives should be chosen reasonably based on practical applications, where the inherent overall physical constraints of decision parameters are necessary and essential to be built in advance. 展开更多
关键词 energy conservation thermal system physical constraint decision parameter optimization objectives
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