1) model gasoline
汽油模型
2) gasoline
汽油
1.
Upgrading performance of some new types of zeolite catalyst for catalytic cracking gasoline;
几种新型分子筛对催化裂化汽油的改质性能研究
2.
Oligomerization performance of hexene and its influence on olefinic alkylation of thiophenic sulfur in gasoline;
汽油烷基化脱硫中己烯的聚合及对噻吩烷基化的影响
3.
Experience Model of Gasoline Stabilization Additive;
汽油安改剂经验模型探讨
3) naphtha
汽油
1.
The influence of the different distillation range of catalytic cracking naphtha,operating temperature and space velocity were investigated in fixed-micro-reaction unit for deducing olefin content in cracking naphtha and producing gasoline blend components with high octane number.
为降低催化裂化汽油的烯烃含量,生产高辛烷值的调合组分,在固定床微反装置上考察了催化裂化汽油性质、反应温度、空速对芳构化反应的影响。
2.
The 220 kt/a hydrogenation unit for FCC naphtha to reduce olefin and sulfur is evaluated in this paper.
阐述了220 kt/a催化裂化汽油加氢脱硫异构降烯烃装置的运行和标定情况。
3.
The results of commercial trial for upgrading coker naphtha in FCC unit were presented.
报道焦化汽油催化裂化改质的工业试验结果。
4) Petrol
汽油
1.
Measures to Increase the Standards of the Petrol Quality;
提高汽油产品质量标准的措施
2.
Application of Alkali - Free Sweetening of Petrol on Equipment of Catalytic;
汽油无碱脱臭工艺在催化裂化装置的应用
3.
Experimental Investigation on Fusion Expanding of Fuel Supply System Non-metal Material Soaked in Methanol-petrol;
甲醇汽油对供油系非金属件溶胀性试验研究
5) net gasoline
凈汽油;无铅汽油
6) FCC naphtha
FCC汽油
1.
Alkylation reactions of thiophenic compounds with olefin contained in FCC naphtha on USY zeolite catalyst were investigated.
以USY分子筛催化FCC汽油中噻吩类硫化物与烯烃的烷基化反应,采用DL-2B-EE微库仑仪测定反应前后硫分布的变化,考察了USY分子筛的制备条件和烷基化反应温度对其催化性能的影响。
2.
The full range FCC naphtha selective hydrodesulfurization technologies (OCT-M and FRS) have been developed by FRIPP based upon properties of FCC naphtha from Chinese refineries and successfully applied on many commercial units with satisfactory results.
针对国内FCC汽油特点,抚顺石油化工研究院(FRIPP)开发了FCC汽油选择性加氢脱硫技术(OCT-M)和全馏分FCC汽油选择性加氢脱硫技术(FRS),并在多套工业装置上成功应用,装置均能生产硫质量分数不大于150μg/g的国标Ⅲ号汽油,也可以调整操作参数生产硫质量分数不大于50μg/g的国标Ⅳ号汽油。
3.
The development of full range FCC naphtha hydrodesulfurization (FRS) process developed by SINOPEC Fushun Research Institute of Petroleum and Petrochemicals (FRIPP) is described in respect of pilot plant testing, process flow, factors affecting selectivity, sulfur removal rate of typical full-range FCC naphtha and its commercial application in SINOPEC Jiujiang Company.
介绍抚顺石油化工研究院(FRIPP)开发的全馏分FCC汽油加氢脱硫技术(FRS),包括其中试开发情况,如工艺流程、影响选择性的因素、典型全馏分FCC汽油的脱硫效果。
参考词条
补充资料:AutoCad 教你绘制三爪卡盘模型,借用四视图来建模型
小弟写教程纯粹表达的是建模思路,供初学者参考.任何物体的建摸都需要思路,只有思路多,模型也就水到渠成.ok废话就不说了.建议使用1024X768分辨率
开始
先看下最终效果
第一步,如图所示将窗口分为四个视图
第二步,依次选择每个窗口,在分别输入各自己的视图
第三步,建立ucs重新建立世界坐标体系,捕捉三点来确定各自的ucs如图
第四步,初步大致建立基本模型.可以在主视图建立两个不同的圆,在用ext拉升,在用差集运算.如图:
第五步:关键一步,在此的我思路是.先画出卡爪的基本投影,在把他进行面域,在进行拉升高度分别是10,20,30曾t形状.如图:
第六步:画出螺栓的初步形状.如图
第七步:利用ext拉升圆,在拉升内六边形.注意拉升六边行时方向与拉升圆的方向是相反的.
之后在利用差集运算
第八步:将所得内螺栓模型分别复制到卡爪上,在利用三个视图调到与卡爪的中心对称.效果如图红色的是螺栓,最后是差集
第九步:阵列
第10步.模型就完成了
来一张利用矢量处理的图片
说明:补充资料仅用于学习参考,请勿用于其它任何用途。