中国石油大学华东石油加工概论复习提纲概要

《石油加工工程Ⅰ》课程综合复习资料一、填空：1．石油主要有、、、、等五种元素组成，原油中主要包括、和等烃类，而不包括。

2．经过常减压蒸馏，石油可按沸点范围依次切割为馏分，馏分，馏分和。

3．一般来说，随着沸程的升高，石油馏分的蒸汽压，密度，平均相对分子质量，粘度，闪点，自燃点。

(填升高或降低)4．我国采用和相结合的方法对原油进行分类，按此分类法，大庆原油属于原油，胜利原油属于原油。

5．我国车用汽油以来划分其商品牌号，它表示汽油的性能，汽油的理想组分是；轻柴油以来划分其商品牌号的，它表示轻柴油的，轻柴油的理想组分是；航空煤油的理想组分是。

6．根据生产任务的不同，减压塔可分为型和型减压塔。

7．为了得到相同的气相产品量，平衡汽化所采用的液相温度比恩氏蒸馏，比实沸点蒸馏(高或低)。

8．石油馏分的分馏精确度主要是由、、决定的。

9．油品在低温下失去流动性的原因分和两种情况。

10．随着经济、炼油技术的发展和人们对环保要求的提高，世界对石油产品的需求量，汽油、柴油产品的质量将向方向发展。

11．常温下为固态的烃类在石油中通常处于状态，随着温度降低会并从石油中分离出来，工业上将分离得到的固态烃称为。

12．石油中的含硫化合物根据其化学活性可划分为硫化物和硫化物。

13．石油馏分的蒸汽压与和有关。

14．一般随着石油馏分沸程的增加，其密度，密度指数(API) ，闪点，燃点，自燃点，凝点。

(填增加或降低)15．从工作原理上划分，汽油机属于内燃机，而柴油机属于内燃机，因此，柴油机要求其燃料的自燃点要。

16．特征化参数可以反映渣油的二次加工性能，渣油的特征化参数越大，二次加工性能。

17．恩氏蒸馏、平衡汽化和实沸点蒸馏三种分离方法分离效果的好坏顺序是：。

18．在精馏段，沿着石油精馏塔由上而下，各层塔板上油品的平均相对分子质量逐板，温度逐板，摩尔汽化潜热逐板(增大或减小)。

19．减压塔顶采用设备的抽真空系统，可使塔顶真空度摆脱水温（或水的饱和蒸汽压）的限制，从而获得更高的真空度。

采油工程综合复习资料一、名词解释1．油井流入动态指油井产量与井底流动压力的关系，它反映了油藏向该井供油的能力。

2．吸水指数表示（每米厚度油层）单位注水压差下的日注水量，它的大小表示油层吸水能力的好坏。

3．蜡的初始结晶温度当温度降低到某一值时，原油中溶解的蜡便开始析出，蜡开始析出的温度称为蜡的初始结晶温度。

4．气举采油法气举采油是依靠从地面注入井内的高压气体与油层产出流体在井筒中混合，利用气体的密度小以及气体膨胀使井筒中的混合液密度降低，将流入到井内的原油举升到地面的一种采油方式。

5．等值扭矩用一个不变化的固定扭矩代替变化的实际扭矩，使其电动机的发热条件相同，则此固定扭矩即为实际变化的扭矩的等值扭矩。

6．气液滑脱现象在气液两相流中，由于气体和液体间的密度差而产生气体超越液体流动的现象叫气液滑脱现象。

7．扭矩因数悬点载荷在曲柄上造成的扭矩与悬点载荷的比值。

8．配注误差指配注量与实际注入量的差值与配注量比值的百分数。

9．填砂裂缝的导流能力在油层条件下，裂缝宽度与填砂裂缝渗透率的乘积，常用FRCD表示。

10．气举启动压力气举井启动过程中的最大井口注气压力。

11．采油指数是一个反映油层性质、厚度、流体参数、完井条件及泄油面积与产量之间的关系的综合指标。

其数值等于单位生产压差下的油井产油量。

12．注水指示曲线稳定流动条件下，注入压力与注水量之间的关系曲线。

13．冲程损失由于抽油杆和油管在交变载荷作用下发生弹性伸缩，而引起的深井泵柱塞实际行程与光杆冲程的差值。

14．余隙比余隙体积与泵上冲程活塞让出的体积之比。

15．流动效率所谓油井的流动效率是指该井的理想生产压差与实际生产压差之比。

16．酸的有效作用距离酸液由活性酸变为残酸之前所流经裂缝的距离。

17．面容比岩石反应表面积与酸液体积之比二、填空题1．自喷井井筒气液两相管流过程中可能出现的流型有（1）纯液流、（2）泡流、（3）段塞流、（4）环状流和（5）雾流。

2．气举采油法根据其供气方式的不同可分为（6）连续气举和（7）间歇气举两种类型。

《石油加工工程2》课程综合复习资料一、填空题：1．在热反应条件下，石油重馏分及重残油在高温下主要发生两类反应，即和。

2．与热裂化相比，催化裂化反应的气体产物中的C1、C2含量。

3．催化裂化装置的吸收-稳定系统主要由、、和四个塔组成。

4．反应是造成催化裂化汽油饱和度较高的主要原因。

5．目前公认的解释催化裂化反应的机理是。

6．在我国，常用的催化裂化反应温度范围是。

7．催化剂只能改变反应的，而不能改变反应的。

8．气-固输送可以根据密度不同而分为稀相和密相输送，通常以为划分界限，根据这一原则，提升管内属输送范围。

9．重油催化裂化再生器的取热方式主要有和。

10．加氢过程按生产目的不同可划分为、、和等过程。

11．加氢裂化采用具有和两种作用的双功能催化剂。

12．加氢精制催化剂的担体主要有和两种。

13．加氢精制工艺流程主要包括，和三部分。

14．催化重整的主要生产目的是或。

15．重整催化剂的酸性功能主要通过来调节。

16．氮、硫、氧三种杂原子化合物的加氢反应速度大小依次为：> > 。

17．加氢精制助剂按作用机理不同可分为和。

18．属于重质油轻质化的加工工艺有、和等。

19．烃类热裂化发生的主要反应有和，普遍认为其反应机理是。

20．在催化裂化反应中，对提高辛烷值有利的化学反应有和等，对改善汽油安定性有重要影响的反应是。

21．焦化气体中的烃类主要以为主，而催化裂化气体中的烃类则以为主；催化重整气体中占气体体积80 % 以上的组分为。

22．汽油以质量指标划分其牌号，由同一原油的减压蜡油经催化裂化生产得到的催化汽油的抗爆性(优于或差于) 其直馏汽油的抗爆性。

23．催化裂化操作过程中，因原料性质变化使再生剂的含碳量从0.05 % 上升到0.10 %，若不调整其他操作参数，则催化剂的活性，反应转化率，催化反应的比率，汽油的辛烷值。

(填增大或减小)24．石油产品进行加氢精制的目的是。

25．在催化裂化反应过程中，由于缩合等反应生成的积炭，叫炭。

石油大学石油加工概论考试知识点综述第一章1石油元素的组成:除碳和氢外，原油还含有硫、氮、氧等微量元素(1 ~ 5%)。

原油中的微量金属元素包括钒、镍、铁、铜、砷等。

石油中的非烃原子称为杂原子。

与国外原油相比，中国原油硫含量低，氮含量高。

2.石油的烃类组成:由碳和氢组成的烃化合物，即具有这三种结构的烷烃、环烷烃和芳烃的混合烃，占原油的绝大多数。

原油中不含不饱和烃，但二次加工后的石油产品中含有不饱和烃(烯烃)。

3石油中的非烃化合物主要指:含硫、含氮和含氧化合物以及胶质沥青物质。

4中国原油的特点:就元素组成而言，低硫高氮是中国原油的特点之一。

中国原油组成的另一个特点是汽油馏分含量低，残油含量高。

5各种化合物的分布规律:随着石油馏分沸点的升高，馏分中烷烃含量逐渐降低，芳烃含量逐渐增加，含硫化合物和胶质含量逐渐增加。

大多数硫、氮、氧、胶质和所有沥青质都集中在渣油中。

6中国主要原油的特征大多数原油的相对密度(D204)为0.86，是一种较重的原油。

高凝固点、高蜡含量和低沥青质含量；低硫含量；氮含量相对较高，大多数原油为0.3%，大多数原油为:镍/钒108各种碳氢化合物的碳氢原子比顺序为:烷烃、环烷烃、芳烃9馏分和产品之间的差异；石油产品是石油的馏分，但馏分并不等同于产品。

为了满足石油产品的规格要求，这些馏分在成为产品之前必须进一步加工成石油中所含的10种馏分。

一般规定如下:180℃以下的馏分为汽油馏分(也称为低沸点馏分、轻油或石脑油馏分)，180 ~ 350℃的馏分为煤、柴油馏分(也称为中间馏分，AGO)，350 ~ 500℃的馏分为减压馏分(也称为高沸点馏分或润滑油，vgo)，500℃以上的馏分为还原渣馏分(vr) 12。

石油中的正构烷烃含量高于异链烷烃。

随着沸点的升高，石油中的正构烷烃含量和异链烷烃含量逐渐降低13石油烃组成表示法:1.单体烃组成2。

小组组成:根据分析方法和分析要求以及实际应用的需要，石油馏分被分为这些组。

石油的加工生产与产品组成（征求意见稿）——基础篇目录1、第一章概论第一节石油的特性第二节石油产品的性质与用途第三节石油化工基础原料的特性及用途2、第二章燃料生产型石油加工企业的装置构成与工艺第一节石油加工的分类第二节燃料生产型石油加工企业的装置构成与工艺第三节炼厂气体的分离石油的加工生产与产品组成——基础篇石油作为国家的一种重要战略资源，在国民经济中具有命脉般的重要地位，石油从勘探、开采、加工到油品输送到各自的用户，石油加工技术的应用是实现其重要地位的基本保障。

因此，熟悉、了解和掌握石油加工技术的基本原理、过程、技术特征和产品组成，是我们入门石油化工行业的基础课。

为了便于我们对石油及产品的特性和加工过程的认识，现以章节的形式作个粗略的介绍。

第一章概论第一节、石油的特性石油是一种极为复杂的混合物，其主要组成是烃类，还含有硫、氮和氧等化合物及少量金属有机化合物。

石油产品的制取，都来源于原油的性质和加工。

不同的原油产地，往往具有不同的性质，即使是同一油田，由于采油层位不同，其原油的性质也可能出现差异。

因此，为了便于加工，我国习惯于将各类不同组成、性质的原油，按照族组成不同分为：石蜡基原油、环烷基原油和中间基原油三类；按含硫量的高低称为超低硫原油、低硫原油、含硫原油和高硫原油四类；把不同原油其馏分的馏出收率或比重分类为轻质原油、中质原油、重质原油。

不同性质的原油，要采用不同的加工方法，以生产适当的产品，使原油得到合理的利用。

例如，低硫石蜡基原油的轻馏分油适合生产高质量的煤油和柴油，不需要进行深度精制；其重油适合生产高粘度指数的润滑油。

环烷基原油的凝点较低，适合生产低凝点的油品和道路沥青。

低硫的原油由于硫化物含量少，生产过程不会给油品和加工设备带来较大的侵蚀，导致对产品质量的影响和加工成本的增加；含硫或高硫原油由于其硫化物高，加工过程中二次及一次加工的馏分油或产品都要进行深度的加氢精制处理，大大提高了加工的成本和加工的技术难度。

第一章：绪论 ························································································································ - 4 - 第一节：石油化学工业发展概况·················································································· - 4 -1、石油化学工业的定义？···················································································· - 4 -2、石油加工业两大分支？···················································································· - 4 -3、石油化工的四大生产过程？ ············································································ - 4 -4、三苯、三稀······································································································· - 4 - 第二章：石油和油品··········································································································· - 5 - 第一节：石油的化学组成···························································································· - 5 -1、石油的定义？ ··································································································· - 5 -2、石油的分子量？ ······························································································· - 5 -3、石油的密度？ ··································································································· - 5 -4、石油的元素组成？···························································································· - 5 -5、石油的馏分组成？···························································································· - 5 -6、石油的烃类组成？···························································································· - 6 -7、石油的非烃化合物组成？ ················································································ - 6 -第二节：石油及油品的物理性质 ················································································ - 6 -1、馏程（或沸程）的定义？ ················································································ - 6 -2、油品的大致馏程？···························································································· - 6 -3、油品的相对密度及表示方法？········································································· - 7 -4、特性因素（K） ································································································ - 7 -5、相关指数（BMCI） ························································································· - 7 -6、热性质··············································································································· - 7 -第三节：油品的分类及使用······················································································ - 8 -1、石油产品的分类 ······························································································· - 8 -2、汽油 ·················································································································· - 9 -3、柴油 ·················································································································· - 9 -4、其它石油产品 ································································································· - 10 -第四节：原油的蒸馏 ································································································· - 11 -1、原油预处理的目的？······················································································ - 11 -2、原油中盐类和水的危害？ ·············································································· - 11 -3、深度电脱盐脱水的要求？ ·············································································· - 12 -4、脱盐脱水的基本原理？·················································································· - 12 -5、脱盐脱水工艺过程·························································································· - 12 -6、工艺操作需要注意的工艺参数：··································································· - 12 -7、原油蒸馏········································································································· - 12 -第五节：原油的热加工过程······················································································ - 16 -1、热加工············································································································· - 16 - 第三章：石油化工过程的催化作用···················································································· - 17 - 第一节：基本概念····································································································· - 17 -- 1 -1、催化剂的定义？ ····························································································· - 17 -2、催化剂的用途？ ····························································································· - 17 -3、工业催化剂的使用性能？ ·············································································· - 18 -4、催化剂的组成？ ····························································································· - 18 -5、催化裂化········································································································· - 18 -6、加氢裂化········································································································· - 18 -7、催化重整········································································································· - 18 -8、催化反应器分为两类？·················································································· - 19 -9、催化剂的预处理 ····························································································· - 19 -10、中毒现象？ ··································································································· - 19 -11、烧结？··········································································································· - 19 -12、结焦？··········································································································· - 19 -13、催化剂再生？ ······························································································· - 20 -第四节：催化裂化····································································································· - 20 -1、催化裂化········································································································· - 20 -2、重油催化裂化 ································································································· - 22 -第五节：催化重整····································································································· - 22 -1、催化重整的目的？·························································································· - 22 -2、原料油的沸点范围·························································································· - 22 -3、重整原料油的杂质含量·················································································· - 23 -4、一套完整的重整工艺装置大都包括几个部分？············································ - 23 -5、重整原料油的预处理包括几个部分？ ··························································· - 23 -第六节：加氢精制和加氢裂化 ·············································································· - 24 -1、加氢精制的目的？·························································································· - 24 -2、加氢精制产品的特点？·················································································· - 24 -3、加氢精制工艺包括哪几部分？······································································· - 24 -4、加氢裂化定义？ ····························································································· - 24 -5、加氢裂化的用途？·························································································· - 24 -6、加氢裂化过程的化学反应包括？··································································· - 24 -7、加氢裂化工艺的特点？·················································································· - 24 -8、加氢裂化工艺装置·························································································· - 25 -9、两段加氢裂化工艺的特点？ ·········································································· - 25 - 第四章：石油化工原料和产品 ··························································································· - 25 - 第一节：石油气和合成气 ··························································································· - 25 -1、石油气的分类？ ····························································································· - 25 -2、天然气？········································································································· - 25 -3、石油气体的主要利用途径？ ·········································································· - 25 -4、石油气脱硫的作用？······················································································ - 26 -5、气体脱硫分为哪两类基本类型？··································································· - 26 -6、石油分离的产品有几种？ ·············································································· - 26 -7、合成气的原料 ································································································· - 26 -第三节：石油烃裂解制烯烃························································································ - 26 -1、石油烃裂解的产品？······················································································ - 26 -2、烃类裂解过程的“一次反应”··········································································· - 27 -- 2 -。