鈾鐵 的英文怎麼說
中文拼音 [yóutiě]
鈾鐵
英文
ferrouranium-
Discussion on decontaminating with melting technology to radioactive pollution metals
用零價鐵滲濾墻技術修復我國鈾尾礦地下水的探討Combining with practice of china ' s uranium ore heap leac hi ng, this paper proposes main ways and suitable technologies in the fields of emp hasizing feasib ility research, adop - ting strengthened technologies, improving equipment le vel, op timizing control technological factors and developing application range and so o n, which include adopting acid - curring and ferric sulphate - tric kle leaching process, bacteria heap leaching, countercurrent heap leaching, sele cting advanced material of heap bottom, developing large mechanized heap constru ction equipments and methods, popularizing drip i rrigation distributing solution, optimizing heap leaching process parameters, as we ll as developing recovery equipments suited to heap leaching, etc, in order to i n crease leaching rate, reduce heap leaching period and achieve more economic bene fits
結合我國鈾礦堆浸實際,在重視堆浸可行性研究、採用強化堆浸技術、改進堆浸裝備水平、嚴格工藝條件及拓寬堆浸的應用范圍等方面提出一些有效途徑及適用技術,包括採用拌酸熟化-高鐵淋濾浸出、細菌堆浸、制粒堆浸、逆流堆浸,選用優質底墊層材料,研製大型機械化築堆方法和設備,推廣滴灌式布液,優化堆浸工藝參數,以及開發堆浸相配套的回收設備等,以提高浸出率、縮短堆浸周期,獲得更大的經濟效益。This article analyzes the mineralization mechanism of the uranium ore, constructs a series of spectra indexes including the ferric oxide index, the ferrous oxide index, the oxidation index, clay mineral index, brightness index, the green index and the humidity index, and draws the distribution and scope of the oxidation belt, deoxidation belt, the supplies and partial drainage of ground water in the research area, thus selects the advantageous area of uranium mineralization
通過分析鈾礦的成礦機理,構建了氧化鐵指數、氧化亞鐵指數、氧化指數、粘土礦物指數、亮度指數、綠度指數和濕度指數等一系列光譜指數,提取了研究區氧化帶、還原帶、地下水補給與局部排泄的分佈和范圍,從而圈定了鈾礦成礦的有利區。In the older rocks below these glacial deposits are detrital uraninite and pyrite, two minerals considered evidence for very low levels of atmospheric oxygen
這些冰河沉積物下方的較老巖層,是瀝青鈾礦與黃鐵礦碎屑;這兩種礦物被認定為大氣中氧氣極為稀少的證據。Object - oriented gis data model and implemented
鐵力地區水文地球化學特徵與砂巖型鈾礦成礦預測Study on reduction of nitrate from in - situ acid uranium leaching groundwater with iron particles
鐵屑去除酸法地浸采鈾地下水中硝酸鹽的試驗研究When hydrogen is fused to helium, energy is produced. however, we have to supply energy to fuse iron to even heavier elements. this is why we can split a heavy nucleus, like uranium, into several smaller ones to produce energy
氫轉化為氦會產生能量,但要把鐵結合成更重的元素時,卻反而要吸收能量,這也是為甚麼我們把如鈾等重元素分裂成較輕元素時,可以產生能量的原因。Determination of iron, calcium, magnesium, molybdenum, titanium and vanadium in uranium ore concentrate by atomic absorption spectrometry
鈾礦石濃縮物中鐵鈣鎂鉬鈦釩的測定原子吸收光譜法Microbial mineralization is outlined, the effects of thiobacillus, sulfate - reducing bacteria, iron - reducing bacteria, nitrifying bacteria, denitrifying bacteria, and various bacteria that play the roles during the bio - mineralization of uranium and that correlated with the cycle of geological elements were also introduced in this article
摘要概述了微生物成礦作用,並介紹了硫桿菌、硫酸益還原菌、鐵細菌、硝化細菌、反硝化細菌等各種細菌在與鈾的生物成礦過程相關的地質元素循環中所起到的作用。Because of the upper limit of the nuclear density, which prevents the core to compress too far, the collapsing inner core will bounce back outwards. this out - going inner core will collide with the in - coming outer core, which is collapsing rapidly. this collision will send off shock waves and create heavy elements, like uranium
由於原子核的天然密度會成為巨大的阻力,防止核心進一步收縮,這時核心會猛烈反彈,以極高速塌縮的核心外殼會和反彈中的核心碰撞,產生強烈的沖擊波,同時產生出像鈾等比鐵更重的元素,並把恆星外殼炸毀,這便是Determination of uranium in uranium ore concentrate by ferrous sulfate reduction potassium dichromate titrimatric method
鈾礦石濃縮物中鈾的測定硫酸亞鐵還原-重鉻酸鉀滴定法Uranium in uranium dioxide powder and pellets - determination of uranium ferrous sulfate reduction - potassium dichromate oxidation titrimatric method
二氧化鈾粉末和芯塊中鈾的測定硫酸亞鐵還原-重鉻酸鉀氧化滴定法分享友人