逆相互化 的英文怎麼說
中文拼音 [nìxiānghùhuà]
逆相互化
英文
demutualization-
We obtained the uniform data distribution from discrete data points by inserting spatial dots and then set up digital elevation model ( dem ) of correlative area through constructing mutual linked triangle net. the isoline graph was implemented based on this model. during the processes, we combined the technology of stratification computing when inserting special dots in fault area with the technology of stratification triangle net in fault area for dealing with thrust data
然後介紹了在本研究中構造逆斷層地質等值線的基本思路:從離散數據點結構出發,採用空間數據內插方法進行數據的均勻化,通過三角剖分構造出相互連接的三角形網路結構來建立起相關區域內的數字高程模型,利用該模型構造出相應的地質等值線圖,其中使用擴展點與斷層區的關系屬性進行斷層區分層空間插值計算處理和斷層區域的分層三角形網格化處理相結合的技術,實現逆斷層數據的處理和等值線繪制。Subsequently the reduced mechanism is used for three - dimensional numerical calculation in the flow solver technology of star - cd. 2. different from the one - step irreversible reaction, a multi - step reaction combined time scale model is developed to the solve combustion - turbulence interaction firstly
2考慮化學反應和湍流的相互作用,建立了有別于普遍採用的基於單步不可逆反應的混合湍流反應(時間)速率模型的新模型,即多步反應混合湍流反應(時間)速率模型。Compared with limn2o4, li2mn2o4 has lower reversible capacity, in that the net charge of lithium ion increases, accordingly interactions between lithium ion and oxygen one strengthen, leading to difficulty for lithium ion to deintercalate
Li2mn2o4與limn2o4相比,錳離子的凈電荷幾乎不變,表明錳離子與氧離子的相互作用變化不大,大部分鋰離子和氧離子的相互作用增強,鋰離子脫出較為困難,可逆容量降低。This article based on the height of strategy, combine the mind of quick logistic and precise logistic, design the logistic model of small and medium - sized enterprise, with the view of system and guided by this model, this article analysis the component of enterprise ’ s logistic system, meanwhile, considered the characters of those component and the realistic of enterprise, reference certain method, optimized the enterprise ’ s logistic system. because there is phenomenon “ benefit is carried inside out ” exist in logistic system, so, when we optimizing the logistic system, we must consider the influence between both sides in benefit is carried inside out. treat wholly improved as standard, among them, the most important relation is stock and transportation
本文從企業的戰略發展的角度,結合敏捷物流和精益物流思想的優點,設計出了中小企業物流模型,並以此為指導,以系統的觀點和整體優化為宗旨,通過規劃中小企業物流系統的組成部分,結合企業自身的實際和各組成部分的特點,對企業物流系統進行了優化設計;由於企業物流系統中存在著效益背反的現象,因此,本文以占企業物流成本比重較大的庫存和運輸兩大重要組成部分為重點,在綜合考慮背反雙方的相互影響下,通過庫存計劃管理的優化,設計出合適庫存水平和運輸量的優化模型,並採用逆向思維綜合設計了運輸方式和運輸路線模型;同時提出了企業要想切實地達到物流系統優化預期目標的三大對策。However supply chain management ( scm ) has the inner ethical request and characteristics : viewed from the interior, mutual trust can strengthen the members ’ cohesive force as a moral guarantee, and “ information sharing ” can realize the “ customer value ” more quickly, better, and more economical by causing the fund flow, the material flow, the information flow unimpeded. viewed from the exterior, more global supply chains carry out the ethical authentication system and attach great importance to reverse logistics. yielding to demands from the public, the member enterprises are undertaking the environment and society responsibility, which has already become the important constituent of the supply chain competitive power
然而供應鏈管理模式又具有內在的倫理要求和鮮明的倫理特徵:對于供應鏈內部而言,相互信任是加強各成員企業凝聚力的倫理保證,信息共享能使資金流、物流、信息流暢通,更快、更好、更節省地實現顧客價值;從其外部來看,全球供應鏈實行倫理化的認證制度、注重逆向物流,是應對公眾要求,承擔起環境和社會責任的體現,供應鏈在公眾中的道德形象已經成為了供應鏈競爭力的重要組成部分。With an irreversible tendency towards globalization and localization of culture, subjectivity embodies a trend to mutual adaptation, mutual penetration and mutual compatibility by means of intersubjectivity
在文化全球化和地方化不可逆轉的大趨勢下,主體性通過主體間性體現出相互適應、相互滲透、相互兼容的態勢。Picture that put forward in the article graph and data structure reciprocal mapping support not merely to map graph from data structure efficiently, besides, regard graphics element as a unit, analyze and discern to user ' s modified graph, produce the corresponding data structure automatically, maintain consistency of graph and data structure efficiently on the foundation of expanding case graphic tools effectively, we direct against the intrinsic characteristic of traditional waterfall model, proposesmall loop model to software analysis based on graph and data structure reciprocal mapping solve problems of slow information feedbackand high track back cost efficiently
文中提出的圖數互逆映射的思想,不僅對數據結構到圖形映射進行高效率地支持,同時,以圖形元素為單位,對用戶修改後的圖形進行分析和識別,自動生成相應的數據結構,有效地維護了圖數一致性。在對case圖形化工具進行有效擴展的基礎上,我們針對傳統瀑布開發模型的固有特點,提出了基於圖數互逆映射的軟體分析小循環模型,有效解決了傳統軟體分析設計階段信息反饋慢、回溯代價高等問題。As a result of employing multilevel phase - shifted method with zig zag connection in transformer secondary, in the primary the current harmonics their orders are lower than 6m 1 are eliminated ( m is the number of power cell each phase ). in the inverter side because of using pulse shifting pwm control, the equivalent switch frequency of output is m times as high as one h - bridge, so the output voltage waveform of the inverter is near sine with less harmonics
對于整流電路,由於採用變壓器移相多重化整流,在理論上可以實現曲折變壓器一次繞組中低於6m 1次諧波電流相互抵消( m為串聯單元個數) ;對于逆變電路,由於採用移相pwm控制方式,等效開關頻率提高m倍,因此輸出電壓接近正弦波,諧波含量較小。The concrete ways of using cultivated land are to built the system of land utilization in fujian province, take the transform the cultivated land into orchard or tea garden, or take the orchard or tea garden into cultivated land, integrate regional fanning area with small scale multiple farming area, integrate modem agriculture with traditional agriculture
福建省耕地優化利用的具體做法是:建立全省性由政府宏觀控制、指導和必要投資的耕地利用系統,耕地與園地的相互可逆轉化,主導農作物為主的區域條塊專門化耕作與小范圍綜合性耕作相結合、現代化農業與傳統農業相結合。Proteome techniques have widely been applied to the fields of plant genetics, plant development, and plant physiology and ecology to investigate plant genetic diversity, plant development such as seed maturation and germination processes, differentiation of plant tissue and organ, separation and functional identification of novel component of various organells, mechanisms of plant adapted to abiotic or biotic stresses including high temperature, low temperature, high salt, drought, and pathogens and insects, and interaction of plant with microbe
摘要蛋白質組技術已廣泛應用於植物遺傳、發育和生理生態等諸多生物學領域,主要研究植物的遺傳多樣性、植物發育(如種子成熟與發芽過程) 、組織器官的分化過程、不同亞細胞結構的新蛋白組分的發現及其功能鑒定、植物對非生物逆境(包括高溫、低溫、高鹽和乾旱等)和生物逆境(病蟲害)的適應機制和植物與微生物(根瘤共生體)相互作用機制。分享友人