矿物加工专业英语复习资料
Unit1 Lesson1
1 矿物(minerals)
Minerals definition: Minerals by definition are natural inorganic substances possessing definite chemical compositions and atomic structures.
矿物的定义:具有稳定的化学成分、晶体结构的天然无机化合物。
Mineral types: native and metallic form, oxides, sulphides, carbonates, silicates and chlorides.
矿物的种类:主要按化学成分划分:单质矿物、氧化物、硫化物、碳酸盐、硅酸盐、卤化物等。
Isomorphism: substitution of atoms within the crystal structure by similar atoms takes place without affecting the atomic structure.
类质同象:矿物晶体中的原子被类似原子取代而不改变矿物晶体结构的现象。例如:铁橄榄石—镁橄榄石。
Polymorphism: different minerals have the same chemical composition, but markedly different physical properties due to a difference in atomic structure.
同质多象:矿物的化学成分相同,但晶体结构和物理化学性质不同的现象。例如:金刚石、石墨。
Rocks: Rocks consist of a variety of minerals and form large parts of the earth’s crust. Granite, for instance, which is the most abundant igneous rock, is composed of three main mineral constituents, feldspar, quartz, and mica.
岩石:由一种或多种矿物组成的天然集合体,例如:花岗岩主要由石英、长石、云母以不同比例组成。
2 矿石ores
Ore: An ore can be described briefly as an accumulation of mineral in sufficient quantity as to be capable of economic extraction.
矿石:具有经济利用价值的矿物集合体.
Classification: (1)Ores are frequently classed according to the nature of the valuable mineral, such as native ores, sulphide ores and oxidised ores. (2)Ores are also classified by the nature of their gangues, such as calcareous or basic (lime rich), or siliceous, or acidic (silica rich)
矿石的分类:(1)根据有用矿物的性质分为:自然元素矿石(单质矿石)、硫化矿和氧化矿等。(2)根据脉石矿物的性质分为:钙质矿石、硅质矿石、酸性矿石等。
3 金属矿石与非金属矿石metallic ores and non-metallic ores
Ores of economic value can be classed as metallic (when it is used to prepare the metal) or non-metallic (when it is used to make material), according to the use of the mineral.
根据矿物的用途划分:如果以提取矿物中的金属为目的,则成为金属矿石;如果矿物直接利用,则称之为非金属矿石。
Review of the last lesson
1 矿物(minerals)
Minerals by definition are natural inorganic substances possessing definite chemical compositions and atomic structures.
Isomorphism: Many minerals exhibit isomorphism, where substitution of atoms
within the crystal structure by similar atoms takes place without affecting the atomic structure.
Polymorphism: Minerals can also exhibit polymorphism, different minerals having the same chemical composition, but markedly different physical properties due to a difference in atomic structure.
2 矿石ores
Ore: An ore can be described briefly as an accumulation of mineral in sufficient quantity as to be capable of economic extraction.
3 金属矿石与非金属矿石metallic ores and non-metallic ores
Ores of economic value can be classed as metallic (when it is used to prepare the metal) or non-metallic (when it is used to make material), according to the use of the mineral.
Lesson2
Types of coal煤的种类
Lignite, Sub-bituminous coal, Bituminous coal and Anthracite.
主要包括:褐煤、亚烟煤、烟煤、无烟煤
Coking and use of coke炼焦及焦炭的应用
Coke is a solid carbonaceous residue derived from low-ash, low-sulfur bituminous coal from which the volatile constituents are driven off by baking in an oven without oxygen at temperatures as high as 1,000 °C (1,832 °F) so that the fixed carbon and residual ash are fused together.
焦炭是一种从低灰、低硫的烟煤中获得的固态碳质残余物,烟煤在隔绝氧气的条件下和1000度的高温下焙烧,驱除其中的挥发份,使固定碳和残留灰分熔融在一起。
Gasification
Coal gasification breaks down the coal into its components, usually by subjecting it to high temperature and pressure, using steam and measured amounts of oxygen.
煤气化是将煤分解为不同的组分,通常是使用蒸汽和一定量的氧气气氛,在高温、高压条件下进行。
Liquefaction液化
包括间接液化和直接液化两种方法
Indirect synthesis: Coal would be gasified to make syngas and the syngas can be condensed using Fischer-Tropsch catalysts(催化剂) to make light hydrocarbons which are further processed into gasoline and diesel.
间接液化:首先将煤气化为合成气,然后在催化剂作用下将合成气浓缩制备轻质烃油,轻质烃油在进一步转化为汽油和柴油。
Direct liquefaction processes: liquefaction by hydrogenation, Solvent Refined Coal, Karrick process
直接液化:包括加氢液化、溶剂精炼、Karrick法等。
The Fischer-Tropsch process (or Fischer-Tropsch Synthesis) is a catalyzed chemical reaction in which synthesis gas (syngas), a mixture of carbon monoxide and hydrogen, is converted into liquid hydrocarbons of various forms.
The most common catalysts are based on iron and cobalt, although nickel and
ruthenium have also been used. The principal purpose of this process is to produce a synthetic petroleum substitute, typically from coal, natural gas or biomass, for use as synthetic lubrication oil or as synthetic fuel.
Sasol (South African Coal and Oil) is a South African company involved in mining, energy, chemicals and synfuels. In particular, they produce petrol and diesel profitably from coal and natural gas using Fischer-Tropsch synthesis.
The Bergius Process is a method of production of liquid hydrocarbons for use as synthetic fuel by hydrogenation of lignite (brown coal) at high temperature and pressure. It was first developed by Friedrich Bergius in 1913. Lignite or sub-bituminous coal is finely ground and mixed with heavy oil recycled from the process. Catalyst is typically added to the mixture. A number of catalysts have been developed over the years, including tungsten or molybdenum sulfides, tin or nickel oleate, and others.
Naphtha normally refers to a number of different flammable liquid mixtures of hydrocarbons, i.e. a distillation product from petroleum or coal tar boiling in a certain range and containing certain hydrocarbons, a broad term encompassing any volatile, flammable liquid hydrocarbon mixture.
The Karrick process is a low-temperature carbonization (LTC) of coal, shale, lignite or any carbonaceous materials. These are heated at 680°F (360°C) to 1380 °F (360 °C to 749 °C) in the absence of air to distill out oil and gas. The process was the work of oil shale technologist at the U.S. Bureau of Mines in the 1920s.
China has announced high volume commercial coal liquefaction production in late 2007[1], after a successful trial, starting a process that could rapidly free China from dependency upon external OPEC oil imports. The process is reported to have '60-meter-high cylindrical structures' and to be a direct coal liquefaction process. While lacking formal confirmation, the process described seems identical to the Karrick process.
Review of the last lesson
Types of coal煤的种类
Lignite, Sub-bituminous coal, Bituminous coal and Anthracite.
Coking and use of coke炼焦及焦炭的应用
Coke is a solid carbonaceous residue derived from low-ash, low-sulfur bituminous coal from which the volatile constituents are driven off by baking in an oven without oxygen at temperatures as high as 1,000 °C so that the fixed carbon and residual ash are fused together.
Gasification 汽化
Coal gasification breaks down the coal into its components, usually by subjecting it to high temperature and pressure, using steam and measured amounts of oxygen.
Liquefaction液化
Indirect synthesis: Coal would be gasified to make syngas and the syngas can be condensed using Fischer-Tropsch catalysts to make light hydrocarbons
which are further processed into gasoline and diesel.
Direct liquefaction processes: liquefaction by hydrogenation, Solvent Refined Coal, Karrick process
The Fischer-Tropsch process is a catalyzed chemical reaction in which synthesis gas, is converted into liquid hydrocarbons of various forms.
The Karrick process is a low-temperature carbonization (LTC) of coal, shale, lignite or any carbonaceous materials. These are heated at 360 °C to 749 °C in the absence of air to distill out oil and gas.
Lesson3
Introduction
Coal assay techniques are specific analytical methods designed to measure the particular physical and chemical properties of coals
煤质分析技术是指用于分析煤的物理和化学性质的特定分析方法。
Chemical properties of coal 煤的化学性能
Each type of coal has a certain set of physical parameters which are mostly controlled by moisture, volatile content (in terms of aliphatic or aromatic hydrocarbons),ash content and carbon content.
每一种煤都有一系列物理性能参数,主要包括水分、挥发份(包括脂肪烃和芳香烃)、灰分和含碳量。
Chemical Analysis 化学分析
Coal is also assayed for oxygen content, hydrogen content and sulphur. Sulphur is also analysed to determine whether it is a sulfide mineral or in a sulfate form。
煤的化学分析主要包括氧、氢、硫含量的分析。对硫来说,还要确定是硫化物还是硫酸盐。
Physical and Mechanical Properties物理和机械性能
Relative density, Particle size distribution, Float-sink Test, Abrasion Testing
相对密度、颗粒粒度分布、浮沉试验、磨耗试验/耐磨试验
Special Combustion Tests特殊燃烧试验
Specific Energy, Ash Fusion Test,Swelling Index test
比能、灰熔性试验,膨胀性试验
Review of the last lesson
Chemical properties of coal
Each type of coal has a certain set of physical parameters which are mostly controlled by moisture, volatile content (in terms of aliphatic or aromatic hydrocarbons),ash content and carbon content.
Chemical Analysis
Coal is also assayed for oxygen content, hydrogen content and sulphur. Sulphur is also analysed to determine whether it is a sulfide mineral or in a sulfate form。
Physical and Mechanical Properties
Relative density, Particle size distribution, Float-sink Test, Abrasion Testing
Special Combustion Tests
Specific Energy, Ash Fusion Test,Swelling Index test
Lesson4
1 Concept of mineral processing
It is a process of physically separating the grains of valuable minerals from the gangue minerals.
矿物加工是从脉石矿物中分离有用矿物的过程。
2 Function of mineral processing
In the majority of cases the energy consumed in direct smelting or leaching of low grade ores would be so enormous as to make the cost prohibitive(昂贵的、禁止的. )在大多是情况下,低品位矿石直接熔炼或浸出的能耗巨大、成本昂贵。
Mineral processing reduces the bulk and weight of material which must be transported to the smelter,the lack of undesirable waste materials increases the smelter recovery.
矿物加工能够使送往冶炼厂的原料体积和重量大大减少,而且,因原料中的杂质含量低,有利于提高冶炼回收率。
2 Main operations
There are two fundamental operations in mineral processing,namely the liberation of the valuable minerals from their waste gangue minerals, and separation of these values from the gangue.
矿物加工有两类基本的作业,称为有用矿物从脉石矿物中的解离和有用矿物与脉石矿物的分离(富集)。
Liberation: Liberation of the valuable minerals from the gangue is accomplished by comminution to such a particle size that the product is a mixture of relatively clean particles of mineral and gangue.
解离:有用矿物与脉石矿物的解离是由粉碎来完成的,粉碎粒度要保证产品成为较为纯净的有用矿物和脉石矿物颗粒的混合物。
Concentration: Separation is usually achieved by utilizing some specific difference in physical or chemical properties between the valuable mineral and gangue minerals in the ore.
富集:分离通常利用矿石中有用矿物和脉石矿物物理或化学性质的差异来完成的。
Mineral processing methods
1. Separation dependent on optical and radioactive properties
根据矿物光学性质或放射性的差异。
2. Separation dependent on specific gravity differences.
根据矿物比重的的差异
3. Separation utilizing the different surface properties of the minerals.
根据矿物表面性质的的差异。
4. Separation dependent on magnetic properties
根据矿物磁性的差异。
5. Separation dependent on electrical conductivity properties.
根据矿物导电性的差异。
Other important steps
Heat treatment: Roasting, Calcination,sizing of the ore and dewatering of the mineral pulps.
热处理:焙烧,煅烧,矿石的分级和矿浆脱水。
Review of the last lesson
1 Concept of mineral processing
It is a process of physically separating the grains of valuable minerals from the gangue minerals.
2 Function of mineral processing
In the majority of cases the energy consumed in direct smelting or leaching of low grade ores would be so enormous as to make the cost prohibitive。
Mineral processing reduces the bulk and weight of material which must be transported to the smelter,the lack of undesirable waste materials increases the smelter recovery.
3 Main operations
There are two fundamental operations in mineral processing,namely the liberation of the valuable minerals from their waste gangue minerals, and separation of these values from the gangue.
4 Mineral processing methods
1. Separation dependent on optical and radioactive properties
2. Separation dependent on specific gravity differences.
3. Separation utilizing the different surface properties of the minerals.
4. Separation dependent on magnetic properties
5. Separation dependent on electrical conductivity properties.
Lesson5
Locked Particles 连生颗粒/连生体
The particles containing mineral also contains a portion of gangue.
既含有有用矿物,又含有脉石矿物的颗粒,称为连生颗粒.
Degree of liberation 解离度
The “degree of liberation “ refers to the percentage of the mineral occurring as free particles in the ore in relation to the total content.
解离度,是指矿石中以纯矿物颗粒形式存在的矿物含量占该矿物在矿石中总含量的百分比.
Optimum mesh of grind 最佳磨矿粒度
In practice, ores are ground to an optimum mesh of grind, determined by laboratory and pilot scale testwork, to produce an economic degree of liberation.
实践中,通过实验室实验和半工业实验,确定一个最佳磨矿粒度,使矿石达到一个经济的解离度.
Two stage separation两段分选/阶段分选
This method discards most of the coarse gangue early in the process, thus considerably reducing grinding costs, as needless comminution of liberated gangue is avoided.
采用阶段分选,可以在及早地丢弃粗颗粒脉石,这样就避免了已解离脉石的不必要粉碎,能够大大降低磨矿成本.
Review of the last lesson
Locked Particles
The particles containing mineral also contains a portion of gangue.
Degree of liberation
The “degree of liberation “ refers to the percentage of the mineral occurring as free particles in the ore in relation to the total content.
Optimum mesh of grind
In practice, ores are ground to an optimum mesh of grind, determined by laboratory and pilot scale testwork, to produce an economic degree of liberation.
Two stage separation
This method discards most of the coarse gangue early in the process, thus considerably reducing grinding costs, as needless comminution of liberated gangue is avoided.
Lesson6
1 The object of mineral processing 矿物加工的目的
The object of mineral processing, regardless of the method used, is always the same, i.e. to separate the minerals into two or more products with the values in the concentrates, the gangue in the tailings, and the “locked” particles in the middlings.
无论采用什么方法,矿物加工的目的都是一样的,就是把矿物分离为两种或两种以上的产品,使有用矿物进入精矿、脉石矿物进入尾矿、连生颗粒进入中矿。
2 Limitation of Mineral Processing 矿物加工的局限性
Such separations are, of course, never perfect, so that much of the middlings produced are, in fact, misplaced(混杂的) particles. This is often particularly serious when treating ultra-fine particles, where the efficiency of separation is usually low.
矿物分选不是完美的,大部分中矿实际上是混杂颗粒。尤其是处理超细颗粒时,这种情况更为严重,分选效率也比较低。
3 Recovery回收率
The recovery, in the case of the concentration of a metallic ore, is the
percentage of the total metal contained in the ore that is recovered in the concentrate.
对于金属矿选矿来讲,回收率是指进入精矿中金属占矿石中金属总量的百分比。
4 The ratio of concentration 选矿比
The ratio of concentration is the ratio of the weight of the feed to the weight of the concentrates.
选矿比是指给矿(原矿)重量与精矿重量之比。(表示生产1吨精矿所需要处理的原矿数量)
5 Grade 品位
The grade, or assay, usually refers to the content of the marketable end product in the material.
品位通常指物料中所含适销最终产品的含量(如金属含量,铁矿石中TFe的含量)。
6 Enrichment ratio
The enrichment ratio (富集比)is the ratio of the grade of the concentrate to the grade of the heads, and again is related to the efficiency of the process.
Review of the last lesson
The object of mineral processing
The object of mineral processing, regardless of the method used, is always the same, i.e. to separate the minerals into two or more products with the values in the concentrates, the gangue in the tailings, and the “locked” particles in the middlings.
Recovery
The recovery, in the case of the concentration of a metallic ore, is the percentage of the total metal contained in the ore that is recovered in the concentrate.
4 The ratio of concentration
The ratio of concentration is the ratio of the weight of the feed to the weight of the concentrates.
Grade
The grade, or assay, usually refers to the content of the marketable end product in the material.
Enrichment ratio
The enrichment ratio is the ratio of the grade of the concentrate to the grade of the heads, and again is related to the efficiency of the process.
Unit2 Lesson1
Introduction 简介
The liberation of valuable minerals from the gangue minerals is achieved by comminution, in which the particle size of the ore is progressively reduced until the clean particles of mineral can be separated by some concentrating methods.
有用矿物与脉石矿物的解离是通过粉碎完成的,通过粉碎使矿石颗粒逐步减小至能够分离的纯净颗粒。
Crushing and Grinding 破碎与磨矿
Crushing is accomplished by compression of the ore against rigid surface, or by impact the surfaces in a rigidly constrained motion path.
破碎是靠刚性表面对矿石的压力或是在严格限定的运动轨道,表面对矿石的冲击而实现的。
Grinding is accomplished by abrasion and impact of the ore by the free motion of unconnected media such as rods, balls, or pebbles.
磨矿是矿石被钢棒、钢球或砾石等离散介质的研磨和冲击作用而完成的。
Strain of a crystal lattice 晶格的变形
In the crystalline lattice of minerals, the inter-atomic bonds are effective only over small distances, and can be broken if extended by a tensile stress.
在矿物晶格中,原子间的键力仅在一个很小的距离有效,能够被拉应力拉伸而断裂。
Stress concentration 应力集中
The distribution of stress depends upon the mechanical properties of the individual minerals, but more importantly, upon the presence of cracks or flaws in the matrix, which act as sites for stress concentration.
应力分布取决于各种不同矿物的力学性质,但更重要地取决于矿石部中裂隙和裂纹的存在,因为这些地方能够成为应力集中的部位。
Crack propagation 裂纹扩展
Materials fail by crack propagation when the energy released by relaxing the strain energy is greater than the energy of the new surface produced.
当释放的形变能大于新生表面能时,材料就能够通过裂纹扩展而破裂。
Modes of fracture 破裂模式
Breakage is achieved mainly by crushing, impact, and attrition. Therfore, there are three modes of fracture such as compressive, tensile, and shear fracture.
(矿石)破裂主要通过压碎、冲击和研磨作用而实现。因此,主要有压力破裂、拉力破裂和剪切破裂三种破裂模式。
Review of the last lesson
Function of comminution
The liberation of valuable minerals from the gangue minerals is achieved by comminution, in which the particle size of the ore is progressively reduced until the clean particles of mineral can be separated by some concentrating methods.
Crushing and Grinding
Crushing is accomplished by compression of the ore against rigid surface, or by impact the surfaces in a rigidly constrained motion path.
Grinding is accomplished by abrasion and impact of the ore by the free motion of unconnected media such as rods, balls, or pebbles.
Strain of a crystal lattice
In the crystalline lattice of minerals, the inter-atomic bonds are effective only over small distances, and can be broken if extended by a tensile stress.
Stress concentration
The distribution of stress depends upon the mechanical properties of the
individual minerals, but more importantly, upon the presence of cracks or flaws in the matrix, which act as sites for stress concentration.
Crack propagation
Materials fail by crack propagation when the energy released by relaxing the strain energy is greater than the energy of the new surface produced.
Modes of fracture
Breakage is achieved mainly by crushing, impact, and attrition. Therfore, there are three modes of fracture such as compressive, tensile, and shear fracture.
Lesson3
Primary Crushers (粗碎破碎机)
破碎在选矿中的作用:破碎属于矿石准备阶段,是矿物加工过程的重要环节,主要目的在于为后续磨矿或分选作业准备适宜的矿石粒度。
破碎机种类:按照作业性质分为粗碎、中碎和细碎三种;按照设备型式分为:颚式破碎机、旋回式破碎机、圆锥破碎机、辊式破碎机、冲击式破碎机等。
粗碎破碎机:主要包括颚式破碎机和旋回破碎机两大类.
颚式破碎机:破碎腔由固定颚板和运动颚板组成,通过动颚向对于定颚的摆动,使矿石受到挤压、破碎。根据动颚的运动特性,又分为简单摆动式和复杂摆动式两种。
通常作为粗碎设备使用,不能挤满给矿。
旋回破碎机:破碎腔由固定锥(倒立截头圆锥)和固定锥中间的运动锥(正立截头圆锥)组成,通过动锥向对于定锥的摆动,使矿石受到挤压、破碎。通常作为粗碎设备使用,其特点是允许挤满给矿、处理能力大。
颚式破碎机结构示意图
颚式破碎机原理示意图简单摆动式(双肘板)复杂摆动式(单肘板)
旋回破碎机
结构及原理
Primary crushers
Primary crushers are heavy-duty machines, used to reduce the run-of-mine ore down to a size suitable for transport and for feeding the secondary crushers.
There are two main types of primary crusher in metalliferous operations--jaw
(颚式)and gyratory (旋回).
Jaw Crushers
The distinctive feature of this class of crusher is the two plates which open and shut like animal jaws.
Gyratory Crushers(旋回破碎机)
The gyratory crusher consists essentially of a long spindle(轴), carrying a hard steel conical grinding element(研磨体), seated in an eccentric sleeve(轴套).
At any cross-section of the crushing chamber there are in effect (实际上、有效)two sets of jaws opening and shutting like jaw crushers.
Review of the last lesson
Primary crushers
Primary crushers are heavy-duty machines, used to reduce the run-of-mine ore down to a size suitable for transport and for feeding the secondary crushers.
There are two main types of primary crusher in metalliferous operations--jaw and gyratory.
Jaw Crushers
The distinctive feature of this class of crusher is the two plates which open and shut like animal jaws.
Gyratory Crushers
The gyratory crusher consists essentially of a long spindle, carrying a hard steel conical grinding element, seated in an eccentric sleeve.
At any cross-section of the crushing chamber there are in effect two sets of jaws opening and shutting like jaw crushers.
Lesson4
Secondary Crushers
圆锥破碎机:结构与旋回破碎机相似,所不同的是,破碎腔由两个相互平行的正立截头圆锥组成,固定锥和运动锥表面有一段平行面,排矿粒度较细,通常作为中细碎设备使用。
圆锥破碎机:按照破碎腔的型式又可分为:标准型(给矿口大,平行区短)、短头型(给矿口小,平行区长)、中间型则(给矿口、平行区居中)。
辊式破碎机:破碎腔由两个相向转动的辊子组成,矿石在两辊之间受到挤压、破碎。可作为选煤厂破碎设备或中小型金属矿选矿厂细碎设备使用,其特点是能量利用率高、适用于脆性和粘性矿石,但处理能力较小,在大型金属矿中应用较少。
冲击式粉碎机(锤式破碎机)
可分为锤式破碎机和反击式破碎机。冲击式破碎机中有一高速旋转的转子,上面装有冲击锤。当物料进入破碎机后,被高速旋转的锤子击碎或从高速旋转的转子获得能量,被高速抛向破碎机壁或特设的硬板而被击碎。
该机的优点是结构简单,设备紧凑,处理能力大,破碎比大,功率消耗小,维护、修理和更换易损件容易,产品粒度较均匀,过粉碎少。
缺点是锤头、篦条、衬板和转子圆盘磨损较快,特别是破碎较硬物料时磨损更快,当破碎物料的水分含量超过12%或含有粘土时,它的篦条缝隙容易堵塞,从而降低生产率,且增加能量消耗和锤头等零件的磨耗。
滚筒破碎机(碎煤机):
该机为穿孔圆筒,部设有倾斜提升板,转动过程中将煤块提升至顶部后抛落,靠煤块自身重量冲击破碎。破碎后的细颗粒从孔板中排出。
Review of the last lesson
Secondary Crushers
The cone crusher is a modified gyratory. The essential difference is that the shorter spindle of the cone crusher is not suspended, as in the gyratory, but is supported in a curved, universal bearing below the gyratory head or cone .
The mode of operation of roll crushers is extremely simple, the standard spring rolls consisting of two horizontal cylinders which revolve towards each other.
In impact crushers, comminution is by impact rather than compression, by sharp blows applied at high speed to free-falling rock.
The rotary coal breaker is very similar in operation to the cylindrical trommel screen, consisting of a cylinder of 1.8-3.6 m in diameter and length of about
1.5 to
2.5 times the diameter, revolving at a speed of about 12-18 rev min-1.
Lesson5
Grinding mills
根据磨机筒体装入介质类型的不同,分为:
a.球磨机:装入的研磨介质是钢球或铁球。
b.棒磨机;筒体装入的研磨介质是钢棒。
c.砾磨机:装入的介质是砾石。
d.自磨机:靠矿石块自磨。
根据磨机筒体的形状,分为:
a. 短筒型磨机,其长(L)径(D)比小于等于1-1.5。
b.长筒型磨机,其长(L)径(D)比大于等于1.5-2;当二者比值更大时,例如5~
6时则叫做管磨机。
c.圆锥型磨机。
选厂采用得最多的磨机是球磨机、捧磨机。自磨机和砾磨机的应用也日益增多。球磨机的结构和原理
筒体
中空轴颈及轴承
大齿轮及驱动机构
磨矿介质:钢球
自磨机
筒体直径(D)大,长度(L)短,一般D/L=3。
2)中空轴颈的直径大,长度短,直径大是为了适应给矿块度大的需要,通常中空轴颈径为最大给矿块度的两倍左右,长度短使给矿畅通。
Review of the last lesson
Grinding is the last stage in the process of comminution, and it is performed in rotating cylindrical steel vessels known as tumbling mills(滚筒磨机). Tumbling mills are of three basic types: rod, ball and autogenous(自生的)mills.
rod mill: The distinctive feature of a rod mill is that the length of the cylindrical shell is between 1.5 and 2.5 times its diameter.
The term ball mill is restricted to those having a length to diameter ratio of 1.5 to 1 and less. Ball mills in which the length to diameter ratio is between 3 and 5 are designated tube mills.
The autogenous mill uses tumbling to effect comminution, but instead of utilizing media such as steel rods or balls, comminution is achieved by the action of the ore particles on each other.
Semi-autogenous milling refers to grinding methods using a combination of the ore and a reduced load of steel rods or balls as the medium.
Unit3 Lesson1
Types of Screens
1.筛分的概念
筛分就是将颗粒大小不同的混合物料,通过单层或多层筛于分成若干个不同粒度级别的过程。矿物在经过破碎后,常常以各种粒度不同的物料混合存在,有的物料甚至还含有水分、粘土或其他杂质,所以需通过筛分以满足生产工艺及操作过程的要
求。
筛分机械分类
筛分机械的分类方法较多,可按运动轨迹、传动方式分类,也可按其用途分类。通常分为固定筛和运动筛两大类.
常用筛分机械的种类见表3.3。
Types of screens
Stationary Screens
The grizzly. in its simplest form, consists of a series of heavy parallel bars set in a frame.
Sieve bends. has a curved screen composed of horizontal wedge(楔形)bars.
Revolving screen is a slightly inclined, rotating cylindrical screen, which can be used wet or dry.
Moving Screens
Shaking screens . They are widely used dry in coal preparation, but find little use on abrasive metalliferous ores.
Reciprocating screen. Reciprocating screens employ a horizontal gyratory motion to the feed end of a rectangular screen by means of an unbalanced rotating shaft.
Gyratory screens.This type of screen, which imparts gyratory motion throughout the whole screen cloth, is becoming widely used for fine screening applications.
Vibrating screens. Their main application is in crushing circuits where they are required to handle material ranging, in general, from 25 cm to 5 mm in size.
Lesson2
Principles of Classification--Free Settling
1.分级概念
粒度、形状和比重不同的矿粒群,在水中按沉降速度的不同分成若干窄级别的作业,称为湿式分级。
矿物加工工程认识实习报告
河南理工大学材料学院 认 识 实 习 报 告 专业:矿物加工工程 班级:09-1班 姓名: 学号: 指导教师:
前言: 实习是每一个大学生必的必修课,它不仅让我们学到了很多在课堂上根本就学不到的知识还使我们开阔了视野,增长了见识,为我们以后更好把所学的知识运用到实际工作中打下坚实的基础。2011年09月5-7日我院矿加09级全体学生到焦煤集团演马庄矿选煤厂、九里山选煤厂、中马村选煤厂,进行一段时间的的认识实习训练。实习目的是:初步了解选煤厂设备及选煤流程。通过这次实习使我更深入地接触专业知识,进一步了解选矿工作的实际,了解在选矿的工艺流程、选煤方法、原理、主要设备和辅助设备的结构、性能和工作原理;了解主要设备的使用和操作情况,并通过撰写实习报告,使我学会综合应用所学知识,提高分析和解决专业问题的能力。 正文: 一、选煤基本概况 原煤中的有害杂质有灰分、硫分、水分、磷分及其他少量矿物质。此外,在某些煤矿中含有少量稀有金属如锗、钒和放射性铀等伴生矿物。在开采和运输过程中又不可避免地混入其他杂质。随着采煤机械化程度的提高和地质条件的变化,原煤质量将越来越差,表现在混入原煤的矸石增加、灰分提高、末煤及粉煤含量增长、水分提高。而选煤就是为了降低原煤中的杂质,提取其中伴生矿物,同时把煤炭按质量、规格分成各种产品,进而对煤炭进行机械加工,以适应不同用户对煤炭质量的要求,为有效的、合理的利用煤炭资源,减少燃煤对大气的污染创造条件,保证国民经济的可持续发展。 选煤是利用煤炭与其他矿物质的不同物理和物理—化学性质,运用机械加工方法或化学处理方法,清除原煤中的有害杂质,回收伴生矿物,改善煤的质量,为不同用户提供质量合适的煤炭产品及伴生矿物产品。选煤的主要方法有重选、浮选、磁选、电选等,选煤的主要目的是: (1) 除去原煤中的杂质,降低灰分和硫分,提高煤炭质量,适应用户的需要。 (2) 把煤炭分成不同质量、规格的产品,适应用户需要,以便有效合理地利用煤炭,节约用煤。 (3) 煤炭经过洗选,矸石可以就地废弃,可以减少无效运输,同时为综合利用煤矸石创造条件。 (4)煤炭洗选可以除去大部分的灰分和50%~70%的黄铁矿硫,减少燃煤对大气的污染。 二、实习概况 (1)实习单位基本情况 焦作煤业集团公司的煤炭市场应主要面向国内冶金、电力、化工和建材行业中的大企业,同时要维持适量出口,以优质的产品占有市场份额。由于矿井原煤质量的变化以及用户对产品质量要求的变化,焦作煤业集团公司在煤炭洗选加工工艺以跳汰选煤工艺为主的选煤工艺(或者跳汰—浮选工艺)转为重介质选煤工艺(或跳汰—重介质—浮选)为主的选煤工艺。 演马庄矿选煤厂始建较早,主要采用跳汰—浮选工艺。 九里山选煤厂长期以来,该矿生产的末精煤质量指标偏差,灰分在二级品、三级品之间,几乎没有一级品,水分在10%以上。其工艺主要是跳汰—浮选工艺。 中马村矿煤种主要是无烟煤,主导产品为一级末煤、优质中块、小块和精煤。中
专业英语词汇:机械加工
抛光 polishing 安装 to assemble 扳手 wrench 半机械化 semi-mechanization; semi-mechanized 半自动滚刀磨床 semi-automatic hob grinder 半自动化 semi-automation; semi-automatic 备件 spare parts 边刨床 side planer 变速箱 transmission gear 柄轴 arbor 部件 units; assembly parts 插床 slotting machine 拆卸 to disassemble 超高速内圆磨床 ultra-high-speed internal grinder 车床 lathe; turning lathe 车刀 lathe tool 车轮车床 car wheel lathe 车削 turning 车轴 axle 衬套 bushing 按英文字母排序 3-Jaws indexing spacers 三爪、分割工具头 A.T.C.system 加工中心机刀库 Aluminum continuous melting & holding furnaces 连续溶解保温炉Balancing equipment 平衡设备 Bayonet 卡口 Bearing fittings 轴承配件 Bearing processing equipment 轴承加工机 Bearings 轴承 Belt drive 带传动 Bending machines 弯曲机 Blades 刀片 Blades,saw 锯片 Bolts,screws & nuts 螺栓,螺帽及螺丝 Boring heads 搪孔头 Boring machines 镗床 Cable making tools 造线机 Casting,aluminium 铸铝 Casting,copper 铸铜 Casting,gray iron 铸灰口铁 Casting,malleable iron 可锻铸铁
选矿厂设计课程设计指导书
《选煤(矿)厂设计》课程设计指导书 (矿物加工工程专业用) 中国矿业大学化工学院 资源与环境系 2010年9月
《选煤(矿)厂设计》课程设计指导书 选煤(矿)厂设计课程一门理论知识与实际技能相结合的综合性课程,通过本课程设计可系统复习所学课程和掌握选矿厂设计的基本原理,基本方法,对所学课程加深理解,并得到最基本的实际技能训练,为毕业设计打下良好的基础。 该课程设计以一座选煤厂为例,是在已确定原料煤资料,选煤方法、人洗上下限、大块处理等条件下给定了原则工艺流程的前提下进行的。 设计内容包括对原料煤性质的分析、煤质资料的综合、工艺流程计算、主要设备选型及主要车间设备机组布置,并对主要分选作业产品结构进行方案比较,最后对给定的工艺流程进行评价并编写出设计说明书。 一、设计任务: 1.条件:设计一座年处理能力为90万吨的矿井型选煤厂,服务年限为30年以上,选煤厂工作制度为年工作330天,每天二班生产(16小时工作),一班(8小时)检修,产品要求:精煤灰分A ≤10.0%,精煤水分W Q ≤12%,中煤就地供发电站,矸石进行综合利用。 2.原始资料:原料煤工业分析见表1。 原料煤工业分析 表1 Q g % W Q % S Q % V% X Y 牌 号 A 层 24 2.3 1.2 38 10 20 气 煤 B 层 15 3.2 0.4 42 12 19 气 煤 原煤来自A 层、B 层。A 层煤产量占40%,B 层煤占60%。 原料煤资料见表2,表3,表6,表7,选煤厂工艺流程见图l 。计算用表格见附表4,5,8,9,10,1l ,12,13,14,15,16,17,18。 二、设计内容: 根据设计任务和指定的原始资料和条件,课程设计应包括: 名 称 层 别
《土木工程专业英语》段兵延第二版全书文章翻译精编版
第一课 土木工程学土木工程学作为最老的工程技术学科,是指规划,设计,施工及对建筑环境的管理。此处的环境包括建筑符合科学规范的所有结构,从灌溉和排水系统到火箭发射设施。 土木工程师建造道路,桥梁,管道,大坝,海港,发电厂,给排水系统,医院,学校,公共交通和其他现代社会和大量人口集中地区的基础公共设施。他们也建造私有设施,比如飞机场,铁路,管线,摩天大楼,以及其他设计用作工业,商业和住宅途径的大型结构。此外,土木工程师还规划设计及建造完整的城市和乡镇,并且最近一直在规划设计容纳设施齐全的社区的空间平台。 土木一词来源于拉丁文词“公民”。在1782年,英国人John Smeaton为了把他的非军事工程工作区别于当时占优势地位的军事工程师的工作而采用的名词。自从那时起,土木工程学被用于提及从事公共设施建设的工程师,尽管其包含的领域更为广阔。 领域。因为包含范围太广,土木工程学又被细分为大量的技术专业。不同类型的工程需要多种不同土木工程专业技术。一个项目开始的时候,土木工程师要对场地进行测绘,定位有用的布置,如地下水水位,下水道,和电力线。岩土工程专家则进行土力学试验以确定土壤能否承受工程荷载。环境工程专家研究工程对当地的影响,包括对空气和地下水的可能污染,对当地动植物生活的影响,以及如何让工程设计满足政府针对环境保护的需要。交通工程专家确定必需的不同种类设施以减轻由整个工程造成的对当地公路和其他交通网络的负担。同时,结构工程专家利用初步数据对工程作详细规划,设计和说明。从项目开始到结束,对这些土木工程专家的工作进行监督和调配的则是施工管理专家。根据其他专家所提供的信息,施工管理专家计算材料和人工的数量和花费,所有工作的进度表,订购工作所需要的材料和设备,雇佣承包商和分包商,还要做些额外的监督工作以确保工程能按时按质完成。 贯穿任何给定项目,土木工程师都需要大量使用计算机。计算机用于设计工程中使用的多数元件(即计算机辅助设计,或者CAD)并对其进行管理。计算机成为了现代土木工程师的必备品,因为它使得工程师能有效地掌控所需的大量数据从而确定建造一项工程的最佳方法。 结构工程学。在这一专业领域,土木工程师规划设计各种类型的结构,包括桥梁,大坝,发电厂,设备支撑,海面上的特殊结构,美国太空计划,发射塔,庞大的天文和无线电望远镜,以及许多其他种类的项目。结构工程师应用计算机确定一个结构必须承受的力:自重,风荷载和飓风荷载,建筑材料温度变化引起的胀缩,以及地震荷载。他们也需确定不同种材料如钢筋,混凝土,塑料,石头,沥青,砖,铝或其他建筑材料等的复合作用。 水利工程学。土木工程师在这一领域主要处理水的物理控制方面的种种问题。他们的项目用于帮助预防洪水灾害,提供城市用水和灌溉用水,管理控制河流和水流物,维护河滩及其他滨水设施。此外,他们设计和维护海港,运河与水闸,建造大型水利大坝与小型坝,以及各种类型的围堰,帮助设计海上结构并且确定结构的位置对航行影响。 岩土工程学。专业于这个领域的土木工程师对支撑结构并影响结构行为的土壤和岩石的特性进行分析。他们计算建筑和其他结构由于自重压力可能引起的沉降,并采取措施使之减少到最小。他们也需计算并确定如何加强斜坡和填充物的稳定性以及如何保护结构免受地震和地下水的影响。 环境工程学。在这一工程学分支中,土木工程师设计,建造并监视系统以提供安全的饮用水,同时预防和控制地表和地下水资源供给的污染。他们也设计,建造并监视工程以控制甚至消除对土地和空气的污染。他们建造供水和废水处理厂,设计空气净化器和其他设备以最小化甚至消除由工业加工、焚化及其他产烟生产活动引起的空气污染。他们也采用建造特殊倾倒地点或使用有毒有害物中和剂的措施来控制有毒有害废弃物。此外,工程师还对垃圾掩埋进行设计和管理以预防其对周围环境造成污染。
矿物加工工程专业英语词汇
矿物加工工艺学(浮选部分)英文词汇 floatation 浮选 froth flotation 泡沫浮选 direct flotation 正浮选 reverse flotation 反浮选 fineness of grinding 磨矿细度 fractionation 分级 mineral wettability 矿物润湿性 mineral flotability 矿物的可浮性 equilibrium contact angle 平衡接触角 three phase interface 三相界面hydrophobicity of mineral 矿物的疏水性hydrophilicity of mineral 矿物的亲水性 foam adhesion泡沫附着 ionic lattice 离子晶格 covalence lattice共价晶格 surface inhomogeneity 表面的不均匀性oxidation and dissolution 氧化与溶解oxidizing agent 氧化剂 reduction agent 还原剂 surface modification of mineral 矿物的表面改性electric double layer 双电层 ionization 电离 adsorption 吸附 electrokinetic potential电动电位 point of zero charge 零电点 isoelectric point 等电点 collecting agent 捕收剂 semi micelle adsorption 半胶束吸附exchange adsorption 交换吸附 competitive adsorption 竞争吸附 specific adsorption 特性吸附 modifying agent 调整剂 depressant 抑制剂 activating agent 活化剂 foaming agent 起泡剂 hydrophilic group 亲水基团 liberation degree 解离度 polar group 极性基团 nonpolar group 非极性基团 sulphide ore 硫化矿物 oxidized mineral 氧化矿物 xanthate 黄药 hydrolysis 水解 medicamentous selectivity药剂的选择性catchment action捕收作用electrochemical action 电化学作用 pyrite 黄铁矿 calcite 方解石 alkyl radical 烃基含氧酸 organic amine 有机胺类 carboxylate surfactant 羧酸盐 kerosene 煤油 amphoteric collector 两性两捕收剂 alkyl radical sulfonate 烃基磺酸盐 complex 络合物 pH modifying agent pH调整剂 long-chain molecule 长链分子 chalcopyrite 黄铜矿 galena 方铅矿 blende 闪锌矿 oxidized ore 氧化矿 flocculant 絮凝剂 non-hydronium flocculant 非离子型絮凝剂desorption 解吸 air bladder 气泡 solubility 溶解度 specific surface area 比表面积 mineral resources 矿源 three phase air bladder 三相气泡 ore magma electric potential 矿浆电位 mixed potential model 混合电位模型 freedom hydrocarbon diversification 自由烃变化electrostatic pull 静电引力 intermolecular force 分子间力 goethite 针铁矿 semi micelle adsorption 半胶束吸附concentration of solution 溶液浓度 flotation machine浮选机 oxygenation 充气作用 recovery 回收率 concentrate grade 精矿品位 handling capacity 处理能力 air bladder collision气泡碰撞 flotation column 浮选柱 ore concentration dressing 富集作用floatation process 浮选工艺 floatation speed 浮选速率 flotation circuit 浮选流程 granularity 粒度 degree of fineness 细度
机械加工介绍(中英文对照)
机械加工介绍(中英文对照) 第一章 1 Lathes Lathes are machine tools designed primarily to do turning, facing and boring, Very little turning is done on other types of machine tools, and none can do it with equal facility. Because lathes also can do drilling and reaming, their versatility permits several operations to be done with a single setup of the work piece. Consequently, more lathes of various types are used in manufacturing than any other machine tool. 1.车床 车床主要是为了进行车外圆、车端面和镗孔等项工作而设计的机床。车削很少在其他种类的机床上进行,而且任何一种其他机床都不能像车床那样方便地进行车削加工。由于车床还可以用来钻孔和铰孔,车床的多功能性可以使工件在一次安装中完成几种加工。因此,在生产中使用的各种车床比任何其他种类的机床都多。 The essential components of a lathe are the bed, headstock assembly, tailstock assembly, and the leads crew and feed rod. 车床的基本部件有:床身、主轴箱组件、尾座组件、溜板组件、丝杠和光杠。 The bed is the backbone of a lathe. It usually is made of well normalized or aged gray or nodular cast iron and provides s heavy, rigid frame on which all the other basic components are mounted. Two sets of parallel, longitudinal ways, inner and outer, are contained on the bed, usually on the upper side. Some makers use an inverted V-shape for all four ways, whereas others utilize one inverted V and one flat way in one or both sets, They are precision-machined to assure accuracy of alignment. On most modern lathes the way are surface-hardened to resist wear and abrasion, but precaution should be taken in operating a lathe to assure that the ways are not damaged. Any inaccuracy in them usually means that the accuracy of the entire lathe is destroyed. 床身是车床的基础件。它能常是由经过充分正火或时效处理的灰铸铁或者球墨铁制成。它是一个坚固的刚性框架,所有其他基本部件都安装在床身上。通常在床身上有内外两组平行的导轨。有些制造厂对全部四条导轨都采用导轨尖朝上的三角形导轨(即山形导轨),而有的制造厂则在一组中或者两组中都采用一个三角形导轨和一个矩 形导轨。导轨要经过精密加工以保证其直线度精度。为了抵抗磨损和
矿物加工毕业设计(选煤厂设计)
课程设计 说 明 书 学校:兰州资源环境职业技术学院 系别:采矿工程系 班级:08选煤(2)班 姓名: 指导老师: 时间:2010年12月
目录 目录 1 1摘要 2 2设计任务书 3 3原煤资料分析 4 表1 筛分实验报告表 4 表2 综合级50——25mm浮沉实验报告表 5 表3 综合级25——13mm浮沉实验报告表7 表4 综合级13——6mm浮沉实验报告表8 表5 综合级6——3mm浮沉实验报告表9 表6 综合级3——0.5mm浮沉实验报告表10 表7 筛分浮沉试验综合报告表(一)11 表8 筛分浮沉试验综合报告表(二)12 表9 浮沉50——0.5mm粒级原煤浮沉试验综合表13
摘要:选煤是煤炭工业生产中提高产品质量必不可少的环节,是综合利用资源、节约能源和环境保护的有效途径,也是我国21世纪可持续发展战略中洁净煤技术的重要组成部分。 本设计以已知的煤炭资料为基础,通过对原煤资料的分析,绘制出可选性曲线,根据可选性曲线、理论分选密度、理论产率等。以上述条件为依据,最终求出煤的分选密度、确定煤的分选方法、设计出合理的工艺流程、最后通过计算确定适宜的设备。本设计采用重介分选流程,可最大限度的提高煤炭的产率和回收率,并且操作过程相对简单。 关键词:选煤、选煤厂设计、重介、浮选
一设计任务书 1.条件:设计一座年处理能力为60万吨的矿井型选煤厂,服务年限为30年以上,选煤厂工作制度为300天,每天两班生产(16小时工作)一班检修。 2.产品要求:精煤灰分为8.0%,精煤水分为 Mt=12%,中煤就地供电站,矸石灰分为70%——75%之间,矸石进行综合利用。
土木工程专业英语论文.doc
Building construction concrete crack of prevention and processing Abstract The crack problem of concrete is a widespread existence but again difficult in solve of engineering actual problem, this text carried on a study analysis to a little bit familiar crack problem in the concrete engineering, and aim at concrete the circumstance put forward some prevention, processing measure. Keyword: Concrete crack prevention processing Foreword Concrete's ising 1 kind is anticipate by the freestone bone, cement, water and other mixture but formation of the in addition material of quality brittleness not and all material.Because the concrete construction transform with oneself, control etc. a series problem, harden model of in the concrete existence numerous tiny hole, spirit cave and tiny crack, is exactly because these beginning start blemish of existence just make the concrete present one some not and all the characteristic of quality.The tiny crack is a kind of harmless crack and accept concrete heavy, defend Shen and
机械加工专业英语资料
机械加工专业英语 机械加工 拋光 polishing 安装 to assemble 扳手 wrench 半机械化 semi-mechanization; semi-mechanized 半自动滚刀磨床 semi-automatic hob grinder 半自动化 semi-automation; semi-automatic 备件 spare parts 边刨床 side planer 变速箱 transmission gear 柄轴 arbor 部件 units; assembly parts 插床 slotting machine 拆卸 to disassemble 超高速内圆磨床 ultra-high-speed internal grinder 车床 lathe; turning lathe 车刀 lathe tool 车轮车床 car wheel lathe 车削 turning 车轴 axle 衬套 bushing 按英文字母排序 3-Jaws indexing spacers 三爪、分割工具头 A.T.C.system 加工中心机刀库 Aluminum continuous melting & holding furnaces 连续溶解保温炉Balancing equipment 平衡设备 Bayonet 卡口 Bearing fittings 轴承配件 Bearing processing equipment 轴承加工机 Bearings 轴承 Belt drive 带传动 Bending machines 弯曲机 Blades 刀片 Blades,saw 锯片 Bolts,screws & nuts 螺栓,螺帽及螺丝 Boring heads 搪孔头 Boring machines 镗床 Cable making tools 造线机 Casting,aluminium 铸铝 Casting,copper 铸铜 Casting,gray iron 铸灰口铁 Casting,malleable iron 可锻铸铁 Casting,other 其他铸造
矿物加工类专业毕业实习周记范文原创全套
矿物加工类专业毕业实习周记全套 (本人在矿物加工类专业相关岗位3个月的实习,十二篇周记,总结一篇,全部原创,共6500字,欢迎下载参考) 姓名:杜宗飞 学号:2011090118 专业:矿物加工类专业 班级:矿物加工类专业01班 指导教师:赵晓明
第1周 作为矿物加工类专业的大学生,我很荣幸能够进入矿物加工类专业相关的岗位实习。相信每个人都有第一天上班的经历,也会对第一天上班有着深刻的感受及体会。尤其是从未有过工作经历的职场大学们。 头几天实习,心情自然是激动而又紧张的,激动是觉得自己终于有机会进入职场工作,紧张是因为要面对一个完全陌生的职场环境。刚开始,岗位实习不用做太多的工作,基本都是在熟悉新工作的环境,单位内部文化,以及工作中日常所需要知道的一些事物等。对于这个职位的一切还很陌生,但是学会快速适应陌生的环境,是一种锻炼自我的过程,是我第一件要学的技能。这次实习为以后步入职场打下基础。第一周领导让我和办公室的其他职员相互认识了一下,并给我分配了一个师父,我以后在这里的实习遇到的问题和困难都可以找他帮忙。 一周的时间很快就过去了,原以为实习的日子会比较枯燥的,不过老实说第一周的实习还是比较轻松愉快的,嘿嘿,俗话说万事开头难,我已经迈出了第一步了,在接下去的日子里我会继续努力的。生活并不简单,我们要勇往直前!再苦再累,我也要坚持下去,只要坚持着,总会有微笑的一天。虽然第一周的实习没什么事情,比较轻松,但我并不放松,依然会本着积极乐观的态度,努力进取,以最大的热情融入实习生活中。 虽然第一周的实习没什么事情,比较轻松,但我并不放松,依然会本着积极乐观的态度,努力进取,以最大的热情融入实习生活中。 第2周 过一周的实习,对自己岗位的运作流程也有了一些了解,虽然我是读是矿物加工类专业,但和实习岗位实践有些脱节,这周一直是在给我们培训那些业务的理论知识,感觉又回到了学校上课的时候。虽然我对业务还没有那么熟悉,也会有很多的不懂,但是我慢慢学会了如何去处理一些事情。在工作地过程中明白了主动的重要性,在你可以选择的时候,就要把主动权握在自己手中。有时候遇到工作过程中的棘手问题,心里会特别的憋屈,但是过会也就好了,我想只要积极学习积极办事,做好自己份内事,不懂就问,多做少说就会有意想不到
矿物加工工程专业简介
矿物加工工程专业简介 矿物加工工程是研究矿物分离的一门应用技术学科,其学科目的是将有用矿物和脉石(无用)矿物分离。 矿物加工工程主要实践教学环节 金工实习、认识实习、生产实习、毕业实习、专业实验、计算机应用及上机实践、课程设计、毕业设计(论文)等,一般安排不少于30周。 矿物加工工程培养目标 本专业培养从事矿物(金属、非金属、煤炭)分选加工和矿产资源综合利用领域内的生产、设计、科学研究与开发及技术改造与管理的高等工程技术人才。 矿物加工工程专业培养要求 本专业学生主要学习数学、物理、化学、力学、矿物学、选矿学、机械工程、资源综合利用等方面的基本理论和基础知识,受到实验研究、工程设计方法、生产管理、计算机应用等方面的基本训练,具有矿物加工方面的研究、设计与生产管理方面的基本能力。 矿物加工工程毕业生具备的专业知识与能力 1.掌握有关化学、有机化学、电磁学、工程流体力学等基本理论、基础知识和基本技能; 2.掌握本专业所必需的矿物学与岩石学、机械、电工与电子技术、计算机应用的基本知识和技能; 3.掌握矿物(金属、非金属、煤炭)材料科学的基本知识及材料性能检测、研究方法及产品质量控制的基本知识和技能; 4.掌握矿物加工厂工程设计方法,并具有进行工艺设计的能力; 5.具有矿物加工常规机、电设备的事故处理与设备维护的基本知识和初步掌握科学研究的能力。
传统加工在19世纪,矿物加工本不是一门独立的学科,而是采矿大学科体系中的组成部分。1900年前后,冶金才从大矿业中分离出来,发展成为独立的学科。到20世纪30年代以后,选矿才开始逐步发展成为相对独立的一门工程学科。早期的矿物加工(选矿)是建立在选矿厂的工艺过程基础之上的。它本质上是选矿过程的反映,由三大板块构成:选矿方法(主要是浮选、重选及磁选)、辅助过程(例如粉碎和脱水干燥等)和选矿过程检测及控制。因此,具有很强的实用特征。20世纪后半叶,随着世界经济的迅猛发展及科学技术的飞速进步,加之高品位、易选矿产资源的逐步枯竭,资源及材料工程领域的各种学科均发生了明显的调整及变化。例如,冶金学科逐步向材料学科靠拢并转化。矿物加工也不例外,经历了一系列变化和调整,面临着重大的挑战。开采矿石的品位越来越低。以铜矿资源为例,美国的入选铜矿石的平均品位在20世纪30-40年代是!1.5,如今仅为0.6%,个别选矿厂处理的铜矿石,其品位低至0.35%。据估计,品位由1.5%下降到0.5%,选矿能耗将增大1倍,品位的进一步降低,选矿能耗的增长幅度将会更大。问题不仅在于此,随着入选矿石品位的降低,环境问题变得日益突出。因为炼出1吨金属铜,大约需要处理品位为0.5%的铜矿石200吨,而每生产1吨铜矿石,约产出3吨废石。随着入选矿石的贫化,尾矿及废渣的处理将成为制约选矿发展的一个重要因素。使用的各种化学药剂也对环境产生影响。可以说,当前的矿物加工是处在“经济—能耗—环境”三角的严酷扼制之中。难选矿的比例越来越大。随着富矿、易选矿资源的耗尽,一系列共生关系复杂、嵌布粒度细微的矿产资源的开发利用提到了议事日程。这一问题在我国表现得尤为突出,我国的大量弱磁性铁矿因为铁矿物及伴生矿物嵌布粒度太细(小于10至30μm)而无法有效分选。岂止铁矿,诸如锰矿、磷矿、铝土矿等等均有相同的问题。分选技术固然是个尚未解决的问题,细磨、脱水等作业也远未达到成熟的地步。面对严酷现实的挑战,矿物加工学科已经发生并还在发生巨大的调整及变化。一些适合于处理贫矿、复杂矿的技术和直接提取有用成分的技术正在发展应用。矿物加工的对象已从天然矿产资源扩展到二次资源的回收及利用。各种固体废弃物,例如尾矿、炉渣、粉煤灰、金属废料、电器废料、塑料垃圾、生活垃圾乃至土壤都成了加工对象,经过加工又转化为有用的资源。由于现代科技的发展及人类社会的进步,需要开发超纯、超细及具有特殊功能的矿物原料及矿物材料。再如特殊功能的石墨、云母、石棉等非金属矿物材料,超细金属氧化物粉体等均需要特殊的、与传统方法迥异的加工方法,即所谓深加工工艺。现代加工事实上,20世纪后半叶,矿物加工工艺已逐步突破了传统的机械加工的框架。化学提取以及生物工程与机械加工的结合在金属矿及非金属矿的加工中早已屡见不鲜。非金属矿的深加工进一步扩展并丰富了这种结合,例如高岭土的超声剥片,石墨及各种层状矿物的有机及无机嵌层等。传统的机械加工工艺也发生了巨大的变化。超细粉碎及分级获得越来越多的应用;界面分选方法成为微细颗粒分选的主要手段;压滤及离心力场在超细颗粒的固液分离中发挥着重要的作用;而各种成型、包装工艺也变得越来越重要。矿物加工的任务也发生了变化。矿物加工已不仅是为各种工业提供合格的矿物原料,例如精矿粉或中间产品,而是扩展成了可以生产超纯、超细及具有特殊功能的矿物材料以及矿物制品的工业。矿物材料工程主要是以非金属矿石或矿物为原料(或基料),通过一定的深加工工艺制取具有确定物化性能的无机非金属材料及器件的技术。矿物材料有着巨大的应用前景,例如,
矿物加工工程专业职业生涯规划书
▁▂▃矿物加工工程专业▃▂▁…………………………………………………………… 大学生职业生涯 规划书……………………………………………………………OCCUPATIONAL PLANNING …………………………………………………………… 学院:XXXX-XX XX XXXX-XX 姓名:XXXX-XX XX XXXX-XX 学号:XXXX-XX XX XXXX-XX 班级:XXXX-XX XX XXXX-XX 指导老师:XXXX-XX XX XXXX-XX 20XX年XX月XX日
目录 目录 (2) 前言 (3) 一、形式分析 (3) 1.1国内形势 (3) 1.2国际形势 (4) 二、职业发展与人生规划 (4) 2.1生涯与职业生涯 (4) 2.2人的生涯发展 (5) 2.3生涯规划的意义 (6) 2.4职业发展与人生成功 (7) 三、自我认识 (8) 3.1自我评估 (8) 3.2专业评估 (9) 四、职业定位 (9) 4.1环境评估 (9) 4.2职业评估 (11) 五、个人规划 (12) 5.1确定目标 (12) 5.2实施方案 (12) 六、评估反馈 (16)
前言 ××职业生涯是海,没有规划的××人生,好比在大海中航行没有指南针,××职业规划尤其对于学××的大学生,大学生××职业生涯规划很重要,是决定大学生走上工作岗位,在××职业生涯中是低头走路还是抬头走路的问题。 ××理论和××经验犹如人的两条腿,一个都不能少。当有人对你说“××经验重要”,那是对××的狭隘理解,因为中国有太多的××凭经验在做,一辈子也只是读懂了××的一部分。当有人对你说“××理论重要”,那也是对××的狭隘理解,因为中国同样存在很多××理论专家,但大多数没有转化成生产力,一辈子也只在探讨××的是是非非。 一个好××一生中必须学好××、管理、营销五方面的知识才能做好××。把这五方面的知识用于××实践才是优秀的××。 一、形式分析 1.1国内形势 在我国现阶段,全国数百所高校中几乎每个学校都设有
机加工专业英语大全
实用机加工专业英语对照【大全】 机械加工专用术语中英文对照,金属加工专业词中英对照,机械加工英语怎么说、英语单词怎么写、例句等信息。 1.1切削加工概述 切削cutting; 加工machining; 金属切削metal cutting (metal removal); 金属切削工艺metal-removal process; 金属工艺学technology of metals; 机器制造machine-building; 机械加工machining; 冷加工cold machining; 热加工hot working; 工件workpiece; 切屑chip; 常见的加工方法universal machining method; 钻削drilling; 镗削boring; 车削turning; 磨削grinding; 铣削milling; 刨削planning; 插削slotting 锉filing 划线lineation; 錾切carving; 锯sawing; 刮削facing; 钻孔boring; 攻丝tap 1.2零件表面构成及成形方法 变形力deforming force 变形deformation; 几何形状geometrical; 尺寸dimension 精度precision; 表面光洁度surface finish; 共轭曲线conjugate curve; 范成法generation method;
轴shaft 1.3机床的切削运动及切削要素 主运动main movement; 主运动方向direction of main movement; 进给方向direction of feed; 进给运动feed movement; 合成进给运动resultant movement of feed; 合成切削运动resultant movement of cutting; 合成切削运动方向direction of resultant movement of cutting 切削速度cutting speed; 传动drive/transmission; 切削用量cutting parameters; 切削速度cutting speed; 切削深度depth of cut; 进给速度feed force; 切削功率cutting power 1.4金属切削刀具 合金工具钢alloy tool steel; 高速钢high-speed steel; 硬质合金hard alloy; 易加工ease of manufacturing 切削刀具cutting tool 刀具cutter; 车刀lathe tool; 主切削刃main cutting edge; 副切削刃assistant cutting edge; 刀体tool body 刀柄tool shank; 前刀面rake face; 主后刀面major flank; 刀尖nose of tool; 主剖面系tool orthogonal plane system; 切削平面tool cutting edge plane; 主剖面tool orthogonal plane; 切削宽度width of the uncut chip; 进给平面系assumed working plane system; 加工表面transient surface; 前角rake angle; 后角clearance angle; 主偏角tool cutting edge angle; 刀尖角nose angle
高等职业学校矿物加工技术专业
高等职业学校矿物加工技术专业实训教学条件建设标准
目录 1适用范围 (1) 2实训教学场所要求 (1) 2.1 分类、面积与主要功能 (1) 2.2 采光 (2) 2.3 照明及供电 (3) 2.4 通风 (3) 2.5 防火 (3) 2.6 安全与卫生 (3) 2.7 网络环境 (3) 3实训教学设备要求 (3) 4实训教学管理与实施 (15) 5规范性引用文件 (16) 6参考文献 (17)
1 适用范围 本标准适用于高等职业学校矿物加工技术及相关专业校内实训教学场所及设备的建设,是达到矿物加工技术专业人才培养目标和规格应具备的基本实训教学条件要求。高等职业学校相关专业及有关培训机构应参照执行。 2 实训教学场所要求 2.1 分类、面积与主要功能 实训教学场所按照实训教学内容来划分。实训场所面积是为满足40人/班同时开展实训教学的要求。 表1实训教学场所分类、面积与主要功能
续表 2.2 采光 采光应符合GB/T 50033—2013的有关规定。
实训场所的采光优先考虑自然光源,其次才考虑人工光源,光源须选择光色接近自然光组成的光源。 对于矿物鉴定等对光线要求严格的环境,必须在自然采光或者特定的光源下进行,严禁随意更换。 2.3 照明及供电 照明及供电应符合GB 50034—2013的有关规定。 2.4 通风 通风应符合GB 50016—2014和工业企业通风的有关要求。 实训场所的通风必须保持良好,对于各种烟尘必须能及时排除。 在破碎筛分实训室应设置通风厨,并安置抽排尘装置;在高温作业处应设置抽排烟装置,及时处理高温有害气体。 2.5 防火 防火应符合GB 50016—2014有关厂房、仓库防火的规定。 在泡沫浮选实训室的药剂存储处必须增加配置相关防火设施,对于特殊的药剂,必须按照相关说明进行存储使用。 2.6 安全与卫生 安全与卫生应符合GBZ 1—2010和GB/T 12801—2008的有关要求。安全标志应符合GB 2893—2008和GB 2894—2008的有关要求。 实训场所必须按照国家相关规定进行安全设施和职业卫生设计,特别是连续作业实训场所必须要通过国家相关部门的安全设施和职业卫生设计评审和验收。 安全设施和职业卫生设计的评审和验收应按照工业场所标准进行,严禁任何单位和个人擅自更改,对于安全设施和职业卫生设计中要求安装的劳动保护装置和设置的安全标志,不允许任何单位和个人随意变更,对于违反规定擅自变更的单位和个人要追究责任。 进行实训场所安全设施和职业卫生设计的单位应满足国家对设计资质的要求。 2.7 网络环境 网络环境应保证实训教学软件及设备的正常运行。 3 实训教学设备要求 3.1 配备的仪器设备产品质量应符合相关的国家标准或行业标准,并具有相应的质量保证证明。
矿物加工选矿厂课程设计说明书
课程设计说明书设计题目:日处理2500吨的铜矿石浮选厂 班级:矿加2010 学生姓名:谷保明 指导教师:赵通林 2013年 12月 13日
目录 1.绪论 (11) 1.1课程设计目的及要求 (11) 1.2设计题目 (22) 1.3矿石性质 (22) 1.4选矿厂概况 (22) 1.5选矿厂经济技术指标 (22) 2.选矿工艺流程 (22) 2.1破碎流程的计算与论证 (22) 2.1.1破碎段数的确定 (22) 2.2磨矿流程的计算与论证 (55) 2.2.1磨矿分级作业的必要性 (55) 2.2.2磨矿段数的确定 (55) 2.3浮选流程的计算 (77) 2.4矿浆流程的计算 (1111) 3.主要工艺设备的选择和计算 (1515) 3.1破碎设备的选择和计算 (1515) 3.1.1粗碎设备的选择和计算 (1515) 3.1.2中碎设备的选择和计算 (1616) 3.1.3细碎设备的选择和计算 (1818) 3.2筛分设备的选择和计算 (1919) 3.3磨机的选择和计算 (2020) 3.4分级设备的选择和计算 (2121) 3.4.1一段分级设备的选择和计算 (2222) 3.4.2二次分级设备的选择和计算 (2222) 3.5浮选设备的选择和计算 (2323) 3.5.1粗选设备的选择和计算 (2323) 3.5.2一次精选设备的选择和计算 (2424) 3.5.3二次精选设备的选择和计算 (2424) 3.5.4扫选设备的选择和计算 (2525) 1.绪论 1.1课程设计目的及要求 根据教学大纲要求,《选矿厂设计》授课结束后,于毕业设计前,学生要用两周时间进行课程设计。 目的:本课程设计是矿物加工工程专业教学内容的环节之一,使学生在设计中学习,巩固和提高工程设计理论与解决实际问题的内力,综合运用所学的有关工程知识。并为毕业设计打下良好的基础。 要求:设计任务书下达后,设计者必须独立认真分析与计算,按期完成设计中所规定的具体任务。