背柱系統 的英文怎麼說
中文拼音 [bēizhùxìtǒng]
背柱系統
英文
dorsal column system-
The author suggests that the three lithosphere - scale faults, lancangjiang fault, jinshanjiang - ailaoshan fault and axis fault in the middle of the basin, are the main geological structures that control the formation of basin, magmatism and metallogenic congregate district. the anticline structure with an axis of triassic strata and the related fault system within the basin, and gonglang arch - shaped folding structure in the south of the basin are the geological structure controlling the formation of ore fields. junctions of two or more faults with different orientation, interlayer cataclastic structural zone and oxidation - reduction ( redox ) boundary were the favorable position for the formation of ore bodies
認為瀾滄江斷裂、金沙江-哀牢山斷裂及盆地中軸斷裂這三條巖石圈斷裂是主要的控盆-控巖(巖漿巖)構造及礦集區尺度的控礦構造;盆地中以三疊系為軸的背斜構造及相關的斷裂系統、盆地西南緣公郎弧形構造等是礦田尺度的控礦構造;多組斷裂的交叉、層間破碎帶及地層柱中的氧化還原界面是形成礦體的有利部位。By physiognomy feature, it could be divided into three types of thermal structure : positive dome model, negative collapse model and border dome core collapse model. based on the depth degree or magma - thermal influenced, it could be divided into five types of thermal structure : ( ancient ) geothermal anomaly focus region model, superficial volcano eruption hydro - thermalism and hypabyssal intrusive model, thermal anticline ( thermal dome ) model, mid - deep intrusive model, deep mantle ( crust ) thermal plume model ; and put forward a perfect model of the thermal structure. there are many interaction system could be induced into a systematic thermal interaction, include : ocean - continent system, basin - mountain interaction, superficial and mid - deep crust - mantle interaction, crust - mantle commingle interaction, vertical thermal interaction ( delamination ) etc.
依據地貌形態分為三類:正向穹窿型、負向塌陷型、邊隆核陷型:依據巖漿-熱力作用影響的深淺程度或深度分為五類: (古)地熱異常群集區、表淺層火山噴發-熱液活動與淺成侵入型、熱力背斜(熱穹窿) 、中深層侵入型、深部地幔(地殼)熱柱型;提出了熱力構造作用空間分佈的理想模式,將洋陸系統、盆山作用、淺表與中深部殼幔作用、殼幔混合、垂向熱力作用(拆沉)等納入一個整體統一的熱力作用系統中,為盆地動力學研究打開了一個新窗口;研討了熱力構造研究方法。This paper is based on the engineering background of the real time fault diagnosis of the deashing system in zhenjiang jianbi power plant. this system, as the subsystem of a typical distributed control system, can achieve the processing automaton and malfunction alerting automaton. during writing this paper, the following work has been done :
本文基於實際工程背景,研究與探討了鎮江諫壁火力發電廠高濃度除灰控制系統中的柱塞泵灰水泄漏實時檢測系統,該系統是典型的dcs控制系統的一個子系統,使電廠高濃度除灰車間實現了故障報警自動化。As a main participator in the design for and research on engineering the control system, in the project of eliminating ash with water in jianbi power plant, the author emphasized on the intelligent fault diagnosis for the complex hydraulic system by the background of that project in this paper
本論文以作者參與的諫壁發電廠濕除灰控制系統的設計研究為工程背景,以柱塞泵為主要實踐對象,研究復雜液壓系統泄漏故障的智能診斷問題。By means of the analysis of the dilemma in the traditional science covering epistemology and methodology, i spelt the fundamental cause and historic background of the birth of the strategy of pera ' s rhetoric of science out, furthered to study some problems such as the functions, the rational rebuilding and the logic of rhetoric of science systematically, finally gave my explanation of pera ' s dialectic model of science and my objective and comprehensive evaluation of pera ' s rhetorical thoughts
本文通過對支撐傳統科學的兩根支柱? ?認識論和方法論困境的分析,闡述了佩拉的科學修辭學戰略產生的動因和歷史背景。在此基礎上,進一步對科學修辭學的功能、理性重建和邏輯等問題進行了系統闡述,最後對佩拉提出的科學辨證圖景的合理性進行了說明,並對佩拉的科學修辭學戰略給予了客觀和全面的評價。分享友人