化学专业英语翻译6
06.THE CLASSIFICATION OF INORGANIC COMPOUNDS The Classes of Compounds该类化合物
Thousands and tens of thousands of compounds are known to the chemist today. It would be impossible to learn properties and behavior of even a fraction of this number if it had to be done on the basis of individual compounds1. Fortunately, most chemical compounds can be grouped together in a few classes. Then, if we can properly classify a compound .we are at once aware of the general properties of the compound from knowledge of the properties of that class or group of compounds. For example. HCl is classed as an acid. and by becoming familiar with the behavior of acids as a distinct class, we are at once aware of the general properties of the compound2. A great many of the compounds we are to study may be classified as acids, bases, salts, metallic oxides, or nonmetallic oxides. Of these five classes of compounds, the first three —acids, bases, and salts — are by far the most important3…
成千上万的化合物是众所周知的今天的化学家。这将是不可能学的性质和行为的一部分这个号码必须完成的基础上,个人图4。幸运的是,大多数化合物可以组合在一起,在几个班。那么,如果我们能正确分类的一类化合物。我们立刻意识到的一般性质的化合物从知识的属性,阶级或集团的化合物。比如说呢。盐酸为酸。和熟悉氨基酸的行为作为一个独特的类别,我们立刻意识到的一般性质的compound2。
大量的化合物,我们研究可分为酸,碱,盐,金属氧化物,或非金属氧化物。这五个类别的化合物,第一三-酸,碱,盐-是目前最important3…
When an acid, base, or salt is dissolved in water the resulting solution is a conductor of the electric current and is termed an electrolyte. If no conduction of current occurs, the compound is known as a nonelectrolyte. 当酸,碱,盐溶解在水中,由此产生的解决方案是一个导体的电流称为电解质。如果没有传导电流时,该化合物称为非电解质。Classification of Common Compounds分类常见化合物
By looking at the chemical formulas we may classify many common compounds in the following way.通过在化学公式我们可以把许多常见的化合物的方式如下。
1. Acids, in the conventional sense, may be recognized by noting that the H is written first in the formula and that the rest of the compound is generally nonmetallic. Ex., HCl, H2SO4, HClO. 1。酸,在传统意义上,可能是公认的注意,他先写公式中,其余的化合物通常是非金属。例如,硫酸,盐酸,溶液。
2. Conventional bases have OH radicals written last in the formula. The first part of the formula is usually a metal. Ex., NaOH, Ca(OH)2, Fe(OH)3,2。传统的基地有羟基自由基的书面上的公式。第一个公式
的一部分通常是一个金属。例如,氢氧化钠,钙(噢)2,铁(哦)3,3. A salt consists of a metal, written first, combined with a non-metal or radical written last in a formula. Ex., NaCl, Fe2(SO4)3, Ca(ClO)2. 3。盐是由金属,先写,加上非金属或写最后一个公式。例如,氯化钠,Fe 2(SO 4)3,钙(中文)2。
4. Oxides are compounds containing oxygen and only one other element. 4。氧化物的含氧化合物和只有一个元素。
If the element other than oxygen is a nonmetal, the oxide is classed as a nonmetal oxide or an acidic anhydride. The latter name comes about because water added to nonmetal oxides under certain conditions produces acids. Likewise, if water is removed from an acid containing oxygen, the acid anhydride (without water) results.如果元素比氧是一种非金属,氧化物被归类为非金属氧化物或酸酐。后者的名字是因为水加入非金属氧化物在一定条件下产生酸。同样,如果水是删除从含氧酸,酸酐(水)的结果。
The other class of oxides, metallic oxides or basic anhydrides, consist of oxygen combined with a metal. When water is added under proper conditions to basic anhydrides, bases result and vice versa. Acids 另一类氧化物,金属氧化物或碱性酸酐,包括氧结合金属。当加入水条件下基本酸酐,基地的结果,反之亦然。脂肪酸
All acids in the conventional sense contain hydrogen, which may be replaced by metals. The negative portion of the acid molecule is composed of a nonmetal or a radical (negative valence group). These negative valence groups (except oxide and hydroxide)are often referred to as acid radicals. All acids are covalent compounds in which the atoms are held together by a sharing of electrons. When an acid is dissolved in water, ions are formed as a result of the transfer of a hydrogen ion(proton) from the acid molecule to the water molecule---for example,所有酸在传统意义上含有氢,可取代金属。负部分酸分子组成的非金属或自由基(负化合价组)。这些消极价组(除氧化物和氢氧化物)通常称为根。所有酸都是共价化合物中的原子都是由一个电子共用。当一个是溶解于水,离子的形成所造成的转移氢离子(质子)从酸分子的水分子,例如,
This is a case of coordinate valence, in which an unused pair of electrons from the water molecule combines with a hydrogen ion to form a hydronium ion. The hydronium ion is a hydrated hydrogen ion or proton (H+ *H2O) and, while the ionization of acids in aqueous solution depends on its formation, we shall ordinarily use the simple H+in writing equations. Such equations are thereby simplified and easier to balance.这是一个个案的坐标系,其中一个未使用的一对电子从水分子结合一
个氢离子形成离子离子。离子离子是一个水合氢离子或质子(氢离子*水),而电离的酸水溶液取决于它的形成,我们通常使用简单的氢离子在写作方程。这些方程,从而简化和更容易保持平衡。,
The chief characteristic of an acid is its ability to furnish hydrogen ions (protons); therefore. an acid is usually defined as a substance which may furnish protons.主要特点是它有能力提供一个氢离子(质子);因此。酸通常被定义为一种物质,可能提供质子。
Properties of Acids. In general, aqueous'solulions of acids are characterized by the following properties;性能的酸。一般来说,aqueous'solulions酸具有以下属性;
1. They have a sour taste. Lemons .oranges .and other citrus fruits owe their sour taste to' the presence of citric acid; the taste of sour milk is due to the presence of lactic acid. 1。它们的味道是酸的。柠檬桔子。。和其他柑橘类水果欠他们的酸味的柠檬酸存在;口味的酸奶是由于存在乳酸。
2. They turn blue litmus paper red. Litmus is a dye which has a red color in acid solution and a blue color in basic solution; paper which has been soaked in litmus is referred to as litmus paper. Substances of this type, which enable us to determine whether a given solution is acid or basic, are called indicators. Methyl orange and phenolphthalein are other
indicators frequently used by chemists.
2。他们使蓝色石蕊试纸变红。石蕊是一种染料,有一个红色的颜色在酸性溶液和蓝色颜色基本解决;纸已被浸泡在石蕊称为石蕊试纸。物质的这种类型,这使我们能够确定是否一个给定的溶液是酸性或碱性,被称为指标。甲基橙酚酞等指标经常使用的化学家。
3. They react with certain metals to produce hydrogen. Reactions of this type were studied in connection with the preparation of hydrogen. 3。他们的反应与某些金属产生氢气。反应的这种类型的研究与制备氢气。
4. They react with bases to produce salts and water. 4。他们与碱反应生成盐和水。
Common strong acids are H2SO4, HNO3, HCl, HBr, and HI. Most other acids are generally only partially ionized and consequently only moderately strong or weak. 常见的酸是硝酸,硫酸,盐酸,氢溴酸,和喜。大多数其他酸通常只能部分电离,因此只有中等程度的强弱。Bases
All metallic hydroxides are classed as conventional bases. Of the common bases only NaOH, KOH, Ca(OH)2 and Ba(OH)2 are appreciably soluble in water. If these compounds are dissolved in water, the OH~ is common to all of their solutions.所有的金属氢氧化物的归类为常规基
地。的共同基础溶液,氢氧化钾,钙(噢)2和文学学士(哦)2略微溶于水。如果这些化合物溶解在水中,哦~是共同所有的解决方案。An aqueous solution of NH3 is also classed as a base, since OH- ions are present in the solution.水溶液中的氨也列为基础,因为哦-离子存在于溶液。
In each of these compounds we find a combination of a metal (or NH4) with the hydroxide group. Just as the characteristic part of an acid is hydroxide ion, so the characteristic part of a base in water solution is the hydroxide ion, OH~. Later the concept of a base will be extended to include substances which do not furnish hydroxide ions in solution.在每一个这些化合物,我们发现一个金属组合(或铵的氢氧化物组)。正如酸的特征部分是氢离子,因此特征部分基地在水溶液中的氢离子,~哦。后来这个概念的一个基地将扩大到包括物质不能提供氢氧根离子在溶液中。
Properties of Bases. In general, water solutions of metallic hydroxides (bases) exhibit the following properties:基础属性。一般来说,水溶液中的金属氢氧化物(基地)具有以下特性:
1. Bitter taste. 1。苦涩的味道。
2. Soapy or slippery feeling.
3. Turn red litmus paper blue.
4. React with acids to form salts and water.
5. Most metallic hydroxides are insoluble in water. Of the common ones, only NaOH, KOH, Ca(OH)2, Ba(OH)2, and NH3 are soluble.
2。肥皂或滑的感觉。
3。蓝色石蕊试纸变红。
4。与酸反应生成盐和水。
5。大多数金属氢氧化物溶于水。最常见的,只有氢氧化钠,氧化钾,钙(噢)2,学士(哦)2,和氨溶。
The common strong bases are NaOH, KOH, Ca(OH)2, and Ba(OH)2. Salts常见的强大基地是苛性钠,氢氧化钾,钙(噢)2,和文学学士(哦)2。盐
An acid reacts with a base to produce a salt and water. Hydrogen from the acid combines with hydroxide from the base to form water molecules.酸与碱反应生成盐和水。从酸与氢氧化氢结合形成水分子从基地。The reaction of an acid with a base is called neutralization. If all the water is removed by evaporation from the solution after the reaction, the positive ions from the base and the negative ions from the acid form a crystal lattice of solid salt.在酸碱反应被称为中和。如果所有的水被蒸发从溶液后的反应,碱中的正离子和负离子的形式晶格的固体盐。
It was shown that the compound sodium chloride, a salt, is an electrovalent compound and is ionized in the solid or crystalline state. The crystal is made up of positive sodium ions and negative chloride ions oriented in a definite pattern. In general, most salts in the crystalline state are electrovalent and are composed of ions oriented in a definite way.
结果表明,复方氯化钠,盐,是一种离子化合物和离子在固体或结晶状态。水晶是由积极的钠离子和氯离子在一定的负面导向模式。一般来说,大部分盐类的结晶状态的离子和离子组成的面向在一个明确的方式。
化学专业英语(修订版)翻译
01 THE ELEMENTS AND THE PERIODIC TABLE 01 元素和元素周期表 The number of protons in the nucleus of an atom is referred to as the atomic number, or proton number, Z. The number of electrons in an electrically neutral atom is also equal to the atomic number, Z. The total mass of an atom is determined very nearly by the total number of protons and neutrons in its nucleus. This total is called the mass number, A. The number of neutrons in an atom, the neutron number, is given by the quantity A-Z. 质子的数量在一个原子的核被称为原子序数,或质子数、周淑金、电子的数量在一个电中性原子也等于原子序数松山机场的总质量的原子做出很近的总数的质子和中子在它的核心。这个总数被称为大量胡逸舟、中子的数量在一个原子,中子数,给出了a - z的数量。 The term element refers to, a pure substance with atoms all of a single kind. T o the chemist the "kind" of atom is specified by its atomic number, since this is the property that determines its chemical behavior. At present all the atoms from Z = 1 to Z = 107 are known; there are 107 chemical elements. Each chemical element has been given a name and a distinctive symbol. For most elements the symbol is simply the abbreviated form of the English name consisting of one or two letters, for example: 这个术语是指元素,一个纯物质与原子组成一个单一的善良。在药房“客气”原子的原子数来确定它,因为它的性质是决定其化学行为。目前所有原子和Z = 1 a到Z = 107是知道的;有107种化学元素。每一种化学元素起了一个名字和独特的象征。对于大多数元素都仅仅是一个象征的英文名称缩写形式,一个或两个字母组成,例如: oxygen==O nitrogen == N neon==Ne magnesium == Mg
应用化学专业英语翻译完整篇
1 Unit5元素周期表 As our picture of the atom becomes more detailed 随着我们对原子的描述越来越详尽,我们发现我们陷入了进退两难之境。有超过100多中元素要处理,我们怎么能记的住所有的信息?有一种方法就是使用元素周期表。这个周期表包含元素的所有信息。它记录了元素中所含的质子数和电子数,它能让我们算出大多数元素的同位素的中子数。它甚至有各个元素原子的电子怎么排列。最神奇的是,周期表是在人们不知道原子中存在质子、中子和电子的情况下发明的。Not long after Dalton presented his model for atom( )在道尔顿提出他的原子模型(原子是是一个不可分割的粒子,其质量决定了它的身份)不久,化学家门开始根据原子的质量将原子列表。在制定像这些元素表时候,他们观察到在元素中的格局分布。例如,人们可以清楚的看到在具体间隔的元素有着相似的性质。在当时知道的大约60种元素中,第二个和第九个表现出相似的性质,第三个和第十个,第四个和第十一个等都具有相似的性质。 In 1869,Dmitri Ivanovich Mendeleev,a Russian chemist, 在1869年,Dmitri Ivanovich Mendeleev ,一个俄罗斯的化学家,发表了他的元素周期表。Mendeleev通过考虑原子重量和元素的某些特性的周期性准备了他的周期表。这些元素的排列顺序先是按原子质量的增加,,一些情况中, Mendeleev把稍微重写的元素放在轻的那个前面.他这样做只是为了同一列中的元素能具有相似的性质.例如,他把碲(原子质量为128)防在碘(原子质量为127)前面因为碲性质上和硫磺和硒相似, 而碘和氯和溴相似. Mendeleev left a number of gaps in his table.Instead of Mendeleev在他的周期表中留下了一些空白。他非但没有将那些空白看成是缺憾,反而大胆的预测还存在着仍未被发现的元素。更进一步,他甚至预测出那些一些缺失元素的性质出来。在接下来的几年里,随着新元素的发现,里面的许多空格都被填满。这些性质也和Mendeleev所预测的极为接近。这巨大创新的预计值导致了Mendeleev的周期表为人们所接受。 It is known that properties of an element depend mainly on the number of electrons in the outermost energy level of the atoms of the element. 我们现在所知道的元素的性质主要取决于元素原子最外层能量能级的电子数。钠原子最外层能量能级(第三层)有一个电子,锂原子最外层能量能级(第二层)有一个电子。钠和锂的化学性质相似。氦原子和氖原子外层能级上是满的,这两种都是惰性气体,也就是他们不容易进行化学反应。很明显,有着相同电子结构(电子分布)的元素的不仅有着相似的化学性质,而且某些结构也表现比其他元素稳定(不那么活泼) In Mendeleev’s table,the elements were arranged by atomic weights for 在Mendeleev的表中,元素大部分是按照原子数来排列的,这个排列揭示了化学性质的周期性。因为电子数决定元素的化学性质,电子数也应该(现在也确实)决定周期表的顺序。在现代的周期表中,元素是根据原子质量来排列的。记住,这个数字表示了在元素的中性原子中的质子数和电子数。现在的周期表是按照原子数的递增排列,Mendeleev的周期表是按照原子质量的递增排列,彼此平行是由于原子量的增加。只有在一些情况下(Mendeleev注释的那样)重量和顺序不符合。因为原子质量是质子和中子质量的加和,故原子量并不完全随原子序数的增加而增加。原子序数低的原子的中子数有可能比原子序数高的原
化学专业英语翻译1
01.THE ELEMENTS AND THE PERIODIC TABLE 01元素和元素周期 表。 The number of protons in the nucleus of an atom is referred to as the atomic number, or proton number, Z. The number of electrons in an electrically neutral atom is also equal to the atomic number, Z. The total mass of an atom is determined very nearly by the total number of protons and neutrons in its nucleus. This total is called the mass number, A. The number of neutrons in an atom, the neutron number, is given by the quantity A-Z. 原子核中的质子数的原子称为原子序数,或质子数,卓电子数的电中性的原子也等于原子序数Z,总质量的原子是非常接近的总数量的质子和中子在原子核。这被称为质量数,这个数的原子中的中子,中子数,给出了所有的数量 The term element refers to, a pure substance with atoms all of a single kind. To the chemist the "kind" of atom is specified by its atomic number, since this is the property that determines its chemical behavior. At present all the atoms from Z = 1 to Z = 107 are known; there are 107 chemical elements. Each chemical element has been given a name and a distinctive symbol. For most elements the symbol is simply the abbreviated form of
化工专业英语课文翻译
Unit 1 Chemical Industry 化学工业 1.Origins of the Chemical Industry Although the use of chemicals dates back to the ancient civilizations, the evolution of what we know as the modern chemical industry started much more recently. It may be considered to have begun during the Industrial Revolution, about 1800, and developed to provide chemicals roe use by other industries. Examples are alkali for soapmaking, bleaching powder for cotton, and silica and sodium carbonate for glassmaking. It will be noted that these are all inorganic chemicals. The organic chemicals industry started in the 1860s with the exploitation of William Henry Perkin’s discovery if the first synthetic dyestuff—mauve. At the start of the twentieth century the emphasis on research on the applied aspects of chemistry in Germany had paid off handsomely, and by 1914 had resulted in the German chemical industry having 75% of the world market in chemicals. This was based on the discovery of new dyestuffs plus the development of both the contact process for sulphuric acid and the Haber process for ammonia. The later required a major technological breakthrough that of being able to carry out chemical reactions under conditions of very high pressure for the first time. The experience gained with this was to stand Germany in good stead, particularly with the rapidly increased demand for nitrogen-based compounds (ammonium salts for fertilizers and nitric acid for explosives manufacture) with the outbreak of world warⅠin 1914. This initiated profound changes which continued during the inter-war years (1918-1939). 1.化学工业的起源 尽管化学品的使用可以追溯到古代文明时代,我们所谓的现代化学工业的发展却是非常近代(才开始的)。可以认为它起源于工业革命其间,大约在1800年,并发展成为为其它工业部门提供化学原料的产业。比如制肥皂所用的碱,棉布生产所用的漂白粉,玻璃制造业所用的硅及Na2CO3. 我们会注意到所有这些都是无机物。有机化学工业的开始是在十九世纪六十年代以William Henry Perkin 发现第一种合成染料—苯胺紫并加以开发利用为标志的。20世纪初,德国花费大量资金用于实用化学方面的重点研究,到1914年,德国的化学工业在世界化学产品市场上占有75%的份额。这要归因于新染料的发现以及硫酸的接触法生产和氨的哈伯生产工艺的发展。而后者需要较大的技术突破使得化学反应第一次可以在非常高的压力条件下进行。这方面所取得的成绩对德国很有帮助。特别是由于1914年第一次世界大仗的爆发,对以氮为基础的化合物的需求飞速增长。这种深刻的改变一直持续到战后(1918-1939)。 date bake to/from: 回溯到 dated: 过时的,陈旧的 stand sb. in good stead: 对。。。很有帮助
应用化学专业英语第二版万有志主编版课后答案和课文翻译
Unit 1 The RootsofChemistry I.Comprehension. 1。C 2. B3.D 4. C 5. B II。Make asentence out of each item by rearranging the wordsin brackets. 1.Thepurification of anorganic compoundis usually a matter of considerabledifficulty, and itis necessary to employ various methods for thispurpose。 2.Science is an ever-increasing body ofaccumulated and systematized knowledge and isalsoan activity bywhic hknowledge isgenerated。 3.Life,after all, is only chemistry,in fact, a small example of c hemistry observed onasingle mundane planet。 4.Peopleare made of molecules; someof themolecules in p eople are rather simple whereas othersarehighly complex。 5.Chemistry isever presentin ourlives from birth todeathbecause without chemistrythere isneither life nor death. 6.Mathematics appears to be almost as humankindand al so permeatesall aspects of human life, although manyof us are notfully awareofthis. III。Translation. 1.(a)chemicalprocess (b) natural science(c)the techni que of distillation 2.Itis theatoms that makeupiron, water,oxygen and the like/andso on/andsoforth/and otherwise. 3.Chemistry hasa very long history, infact,human a ctivity in chemistrygoes back to prerecorded times/predating recorded times. 4.According to/Fromthe evaporation ofwater,people know /realized that liquidscan turn/be/changeinto gases undercertain conditions/circumstance/environment。 5.Youmustknow the propertiesofthe materialbefore y ou use it. IV.Translation 化学是三种基础自然科学之一,另外两种是物理和生物.自从宇宙大爆炸以来,化学过程持续进行,甚至地球上生命的出现可能也是化学过程的结果。人们也许认为生命是三步进化的最终结果,第一步非常快,其余两步相当慢.这三步
化学及化工专业词汇英语翻译(P-Z)3
化学及化工专业词汇英语翻译(P-Z)3 reversibility 可逆性 reversible cell 可逆电池 reversible change 可逆变化reversible colloid 可逆胶质reversible electrode 可逆电极reversible engine 可逆机 reversible gel 可逆凝胶 reversible process 可逆过程reversible reaction 可逆反应reversible wave 可逆波 reversion 硫化还原 revivification 复活 revolution counter 转数表 revolvig tubular kiln 管式转炉revolving furnace 旋转炉 revolving screen 旋转筛 reynolds number 雷诺数 rhamnetin 鼠李亭 rhamnose 鼠李糖 rhenate 铼酸盐 rhenium 铼 rhenium compound 铼化合物rhenium dioxide 二氧化铼 rheology 龄学 rheometer 龄仪 rheopexy 震凝 rheostat 变阻器 rhodamine 若丹明 rhodan 硫氰酸氨苯酯 rhodan value 硫氰值 rhodanate 硫氰酸盐 rhodanine 绕丹宁 rhodanizing 镀铑 rhodanometry 硫氰酸盐滴定法rhodate 铑酸盐 rhodinol 玫红醇 rhodium 铑 rhodium chloride 氯化铑 rhodium dioxide 二氧化铑 rhodium hydroxide 氢氧化铑rhodium nitrate 硝酸铑rhodochrosite 菱锰矿
应用化学专业英语及答案
黄冈师范学院 2009—2010学年度第一学期期末试卷考试课程:专业英语考核类型:考试A卷 考试形式:闭卷出卷教师:杨一思 考试专业:化学考试班级:应用化学200601 一、Translate the following into English(20 points) 1.过滤 2.浓缩 3.结晶化 4.吸附 5. 蒸馏6.超临界的 7.二氯甲烷 8.热力学平衡 9.亲电性 10.表面张力 11.共轭的 12.酮 13.平衡常数 14.丙基 15.丁基 16.亚甲基 18.环己酮 19.同位素 20.标准熵 二、Translate the following into Chinese(20 points) 1. methyl propanoate 2. rate constant 3. ethyl methyl ketone 4. free energy 5. radical intermediate 6. isobutyl methyl ether 7. 3-chloropropene 8. primary radical 9. n-propyl bromide 10. bond energy 11. circulating electrons 12. local magnetic fields 13. tetramethylsilane 14. mass to charge ratios 15 phenylamine 16 amide 17. amine 18. nucleophile 19. perchlorate 20. carbocation 三、Translation the following into chinese (40 points) A卷【第1页共 3 页】
化工专业英语lesson4翻译汇编
仅供参考 Introduction to Organic Chemistry 1. Sources of Organic Compounds The major sources of organic chemicals are coal, petroleum, and agricultural products. Both coal and petroleum were formed through the geologic processes of changing animal and plant remains into carbon-containing residues. About one-third of all organic chemicals are derived from coal and about one-half from the petroleum industry 有机化合物的来源 有机化学药品的主要来源是煤、石油和农产品。动植物的遗体通过地质作用变成含碳残基然后形成煤和石油。三分之一的所有有机化合物品是从煤中得到的,一般来自于石油工业。 2. The Methods and Objectives of Organic Chemistry Because of the tremendous number of organic compounds known, and of the many more being synthesized daily, the study of organic chemistry is not the study of individual compounds, it is the study of groups or families of compounds all closely related to each other. Obviously, the former approach would be prohibitive[prE5hibitiv]. Once the structural relationships of certain typical members of a particular group or family of compounds are understood, these structural features are understood for any one of the many members of the family, even though some may not be known compounds. 因为已知的有机化合物的数目庞大,而且还在逐日合成更多的品种,所以有机化学不是研究单个的化合物,而是把彼此密切相关的化合物按类或族来研究。显然,以前的方法是不可取的,一旦典型的一类特殊化合物被认识,这些结构特征将适用于这类化合物,甚至是一些未知的化合物, For each group or family of compounds often called homologous series of compounds, structural features are important. In studying organic chemistry, it is not enough to know the identities of the elements and how many atoms of each element are present in a given molecule. More importantly, the order in which these atoms are linked together to form
(完整版)华东理工-化工专业英语翻译_胡鸣版
目录 Unit 1 Chemical Industry (1) Unit 2 Research and Development (7) Unit 3 Typical Activities of Chemical Engineers (14) Unit 10 What Is Chemical Engineering? (20) Unit 20 Material Science and Chemical Engineering (27) Excel in Your Engineering (40) Curriculum of chemical engineering (43) Unit 1 Chemical Industry 化学工业 1.Origins of the Chemical Industry Although the use of chemicals dates back to the ancient civilizations, the evolution of what we know as the modern chemical industry started much more recently. It may be considered to have begun during the Industrial Revolution, about 1800, and developed to provide chemicals roe use by other industries. Examples are alkali for soapmaking, bleaching powder for cotton, and silica and sodium carbonate for glassmaking. It will be noted that these are all inorganic chemicals. The organic chemicals industry started in the 1860s with the exploitation of William Henry Perkin’s discovery if the first synthetic dyestuff—mauve. At the start of the twentieth century the emphasis on research on the applied aspects of chemistry in Germany had paid off handsomely, and by 1914 had resulted in the German chemical industry having 75% of the world market in chemicals. This was based on the discovery of new dyestuffs plus the development of both the contact process for sulphuric acid and the Haber process for ammonia. The later required a major technological breakthrough that of being able to carry out chemical reactions under conditions of very high pressure for the first time. The experience gained with this was to stand Germany in good stead, particularly with the rapidly increased demand for nitrogen-based compounds (ammonium salts for fertilizers and nitric acid for explosives manufacture) with the outbreak of world warⅠin 1914. This initiated profound changes which continued during the inter-war years (1918-1939). 1.化学工业的起源 尽管化学品的使用可以追溯到古代文明时代,我们所谓的现代化学工业的发展却是非常近代(才开始的)。可以认为它起源于工业革命其间,大约在1800年,并发展成为为其它工业部门提供化学原料的产业。比如制肥皂所用的碱,棉布生产所用的漂白粉,玻璃制造业所用的硅及Na2CO3. 我们会注意到所有这些都是无机物。有机化学工业的开始是在十九世纪六十年代以William Henry Perkin 发现第一种合成染料—苯胺紫并加以开发利用为标志的。20世纪初,德国花费大量资金用于实用化学方面的重点研究,到1914年,德国的化学工业在世界化学产品市场上占有75%的份额。这要归因于新染料的发现以及硫酸的接触法生产和氨的哈伯生产工艺的发展。而后者需要较大的技术突破使得化学反应第一次可以在非常高的压力条件下进行。这方面所取得的成绩对德国很有帮助。特别是由于1914年第一次世界大仗
应用化学专业英语翻译(第二版)
Unit10 Nomenclature of Hydrocarbons碳氢化合物的命名 Alkanes烷烃 理想的,每一种化合物都应该由一个明确描述它的结构的名称,并且通过这一名称能够画出它的结构式。为了这一目的,全世界的化学家接受了世界纯粹与应用化学会(IUPAC)建立的一系列规则。这个系统就是IUPAC系统,或称为日内瓦系统,因为IUPAC的第一次会议是在瑞士日内瓦召开的。不含支链的烷烃的IUPAC命名包括两部分(1)表明链中碳原子数目的前缀;(2)后缀-ane,表明化合物是烷烃。用于表示1至20个碳原子的前缀见表 表中前4个前缀是由IUPAC选择的,因为它们早已在有机化学中确定了。实际上,它们甚至早在它们成为规则之下的结构理论的暗示之前,它们的地位就确定了。例如,在丁酸中出现的前缀but-,一种表示在白脱脂中存在的四个碳原子的化合物(拉丁语butyrum白脱(黄油))。表示5个或更多碳原子的词根来源于希腊或拉丁词根。 含取代基的烷烃的IUPAC名称由母体名称和取代基名称组成,母体名称代表化合物的最长碳链,取代基名称代表连接在主链上的基团。 来源于烷烃的取代基称为烷基。字母R-被广泛用来表示烷烃的存在.烷烃的命名是去掉原烷基名称中的-ane加上后缀-yl。例如,烷基CH3CH2-称为乙基。 CH3-CH3乙烷(原碳氢化合物)CH3CH2-乙基(一个烷基) 下面是IUPAC的烷烃命名规则: 1. 饱和碳氢化合物称为烷烃。 2. 对有支链的碳氢化合物,最长的碳链作为主链,IUPAC命名按此主链命名。 3. 连接在主链上的基团称为取代基。每一取代基有一名称和一数字.这一数字表示取代基连接在主链上的碳原子的位置。 4. 如果有多于一个的相同取代基,要给出表示支链位置的每个数字。而且,表示支链数目的数字由前缀di-,tri-,tetra-,penta-等表示。 5. 如果有一个取代基,主链碳原子编号从靠近支链的一端开始,使支链位号最小。如果有两个或多个取代基,支链从能使第一个取代基位次较小的一侧编号。 6. 如果有两个或多个取代基,它们按字母顺序排列。当排列取代基时,前缀iso-(异)和neo-(新)也按字母排列,前缀sec-(仲)和tert-(特)在字母排列中忽略 此外,按字母排列取代基时,表示倍数的前缀2,3,4等也被忽略。 Alkenes烯烃 烷烃的碳原子间只有单键。烯烃在两个碳原子间有双键(两个键)。考虑到两个碳原子间以双键相连。因为双键用去了两个碳原子的共4个电子。所以只剩下4个电子以供成
化工专业英语翻译
化学工业 1.化学工业的起源 尽管化学品的使用可以追溯到古代文明时代,我们所谓的现代化学工业的发展却是非常近代(才开始的)。可以认为它起源于工业革命其间,大约在1800年,并发展成为为其它工业部门提供化学原料的产业。比如制肥皂所用的碱,棉布生产所用的漂白粉,玻璃制造业所用的硅及Na2CO3. 我们会注意到所有这些都是无机物。有机化学工业的开始是在十九世纪六十年代以William Henry Perkin 发现第一种合成染料—苯胺紫并加以开发利用为标志的。20世纪初,德国花费大量资金用于实用化学方面的重点研究,到1914年,德国的化学工业在世界化学产品市场上占有75%的份额。这要归因于新染料的发现以及硫酸的接触法生产和氨的哈伯生产工艺的发展。而后者需要较大的技术突破使得化学反应第一次可以在非常高的压力条件下进行。这方面所取得的成绩对德国很有帮助。特别是由于1914年第一次世界大仗的爆发,对以氮为基础的化合物的需求飞速增长。这种深刻的改变一直持续到战后(1918-1939)。 1940年以来,化学工业一直以引人注目的速度飞速发展。尽管这种发展的速度近年来已大大减慢。化学工业的发展由于1950年以来石油化学领域的研究和开发大部分在有机化学方面取得。石油化工在60年代和70年代的迅猛发展主要是由于人们对于合成高聚物如聚乙烯、聚丙烯、尼龙、聚脂和环氧树脂的需求巨大增加。 今天的化学工业已经是制造业中有着许多分支的部门,并且在制造业中起着核心的作用。它生产了数千种不同的化学产品,而人们通常只接触到终端产品或消费品。这些产品被购买是因为他们具有某些性质适合(人们)的一些特别的用途,例如,用于盆的不粘涂层或一种杀虫剂。这些化学产品归根到底是由于它们能产生的作用而被购买的。 2.对化学工业的需要 我们需要化学工业吗?这样一个问题是不是有点奇怪呢?然而,先回答下面几个问题将给我们提供一些信息:(1)化学工业的活动范围,(2)化学工业对我们日常生活的影响,(3)社会对化学工业的需求有多大。在回答这些问题的时候我们的思路将要考虑化学工业在满足和改善我们的主要需求方面所做的贡献。是些什么需求呢?很显然,食物和健康是放在第一位的。其它我们要考虑的按顺序是衣物、住所、休闲和旅行。 (1)食物。化学工业对粮食生产所做的巨大贡献至少有三个方面。第一,提供大量可以获得的肥料以补充由于密集耕作被农作物生长时所带走的营养成 分。(主要是氮、磷和钾)。第二,生产农作物保护产品,如杀虫剂,它可以显著减少害虫所消耗的粮食数量。第三,生产兽药保护家禽免遭疾病或其它感染的侵害。 (2)健康。我们都很了解化学工业中制药这一块在维护我们的身体健康甚至延长寿命方面所做出的巨大贡献,例如,用抗生素治疗细菌感染,用β-抗血栓降低血压。 (3).衣物。在传统的衣服面料上,现代合成纤维性质的改善也是非常显著的。用聚脂如涤纶或聚酰胺如尼龙所制作的T恤、上衣、衬衫抗皱、可机洗,晒干自挺或免烫,也比天然面料便宜。与此同时,现代合成染料开发和染色技术的改善使得时装设计师们有大量的色彩可以利用。的确他们几乎利用了可见光谱中所有的色调和色素。事实上如果某种颜色没有现成的,只要这种产品确有市场,就可以很容易地通过对现有的色彩进行结构调整而获得。 这一领域中另一些重要进展是不褪色,即在洗涤衣物时染料不会被洗掉。 4)住所,休闲和旅游。讲到住所方面现代合成高聚物的贡献是巨大的。塑料正在取代像木材一类的传统建筑材料,因为它们更轻,免维护(即它们可以抵抗风化,不需油漆)。另一些高聚物,比如,脲甲醛和聚脲,是非常重要的绝缘材料可以减少热量损失因而减少能量损耗。 塑料和高聚物的应用对休闲活动有很重要的影响,从体育跑道的全天候人造篷顶,足球和网球的经纬线,到球拍的尼龙线还有高尔夫球的元件,还有制造足球的合成材料。 多年来化学工业对旅游方面所作的贡献也有很大的提高。一些添加剂如抗氧化剂的开发和发动机油粘度指数改进使汽车日产维修期限从3000英里延长到6000英里再到12000英里。研发工作还改进了润滑油和油脂的性能,并得到了更好的刹车油。塑料和高聚物对整个汽车业的贡献的比例是惊人的,源于这些材料—挡板,轮胎,坐垫和涂层等等—超过40%。
应用化学专业英语翻译
10级应用化学(2)班郑禄春 B2010063224 Lessen 24 ChemicalReactions Conservation of mass and energy(质量与能量守恒) Two conservation laws(定律) applyto allchemical reactions: E nergy can neither be created nor destroyed, andmattercanneither be created nor destroyed. Thus the atoms taking part in a chemical reaction may be rearranged, but all the atoms present in the reactan ts must also be present in the products, and the totalmass of the reactants must equal thetotalmass ofthe products. 化学反应 质量守恒和能量守恒 两个守恒定律(定律)适用于所有的化学反应:能量既不能创造也不能消灭,物质也不能创造也不能消灭。因此原子参与化学反应可能重新安排,但所有的原子出现在反应物必须包含在产品,反应物的总质量必须等于生产物的总质量。 What is a chemical reaction? A chemicalreaction occurs when substances (the reactants) collide (碰撞)with enough energy torearrange to form different c ompounds (the products). The change in energy that occurs when a reaction take place is described by thermodynamics(热力学)andt he rate or speed at which a reactionoccursis described by kinetics (动力学) . Reactions in which the reactantsand productscoexist are considered to be in equilibrium(处于平衡). A chemical equation consists of the chemical formula(化学式)of the rea ctants, and the chemical formula of the products. The twoare separated byan → usually read as“yields”andeach chemical formula is separated from others by a plus sign (加号). Sometime s a triangle is drawn over the arrow symbol todenote energy must be addedto the substances for the reaction to begin. Each chemical formula may be preceded by a scalar(数量的) coefficientindicating the proportion (比例) of that substance necessary to produce the reaction in formula. Forinstance, theformula for the burning of methane(CH4 + 2O2 →CO2 + 2H2O) indicates that twice as much O2 as CH4 is needed, and when they react, twiceas much H2O as CO2 will be produced. This is because during the reaction,each atom of carbon needs exactly two atoms of oxygen to combine with, to produce the CO2, and every twoatoms of hydrogen need an atom of oxygen tocombine withto produce theH2O. If the proportions of the reactantsare not respected, when they are forced toreact, either not all ofthe substance used willparticipate in the re action, or the reaction that will take place willbe different from the one notedin the equation.. 什么是化学反应 一个化学反应发生在物质(反应物)碰撞有足够的能量去重新排列,形成不同的化合物(产品)。当反应发
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