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1、中,国,石,油,化,工,股,份,有,限,公,司,C,H,I,N,A,P,E,T,R,O,L,E,U,M,&,C,H,E,M,I,C,A,L,C,O,R,P,O,R,A,T,I,O,N,抚,顺,石,油,化,工,研,究,院,FRIPP,中压加氢裂化技术,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,1.,前言,?,中压加氢裂化具有装置建设投资和操作费,用相对较低的特点,?,尽管中压加氢裂化对原料油的适应性,生,产灵活性和产品质量都不如高压加氢裂化,好,?,受到世界各国炼油工作者的重视,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,1.,前言,?,上世纪七十年代,,F
2、RIPP,开始进行中压加氢,裂化的技术开发,?,1987,年率先在荆门炼化总厂实现工业化,世界上第一套实现工业化的中压加氢裂化装置,?,1989,年、,1990,年和,1996,年分别在齐鲁、辽河,和吉化进行工业应用,?,开发的中压加氢改质技术,1997,年在燕山应用,国内最大的中压加氢改质装置,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,?,中压加氢裂化技术的种类,根据所加工的原料和所生产目的产品的特点,人,们又把中压加氢裂化技术分为,以生产油品为主要目的的中压加氢裂化(,MPHC,),以生产加氢尾油作为蒸汽裂解制乙烯原料为主要
3、,目的的缓和加氢裂化(,MHC,),以改善油品(尤其是劣质柴油)为主要目的的中,压加氢改质(,MHUG,),FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,?,FRIPP,先后进行了大庆、胜利、辽河、中,原等国内原油和中东原油的,AGO,、,LVGO,、,VGO,及催化柴油的中压加氢裂化研究,原料性质对操作条件和产品质量的影响,操作压力对产品质量的影响,转化率对产品质量的影响,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,?,针对不同原料、不同生产目的,提出,适宜的操作条件
4、,适宜的催化剂级配方案,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,原料名称,大庆,VGO,南阳常四线,中原油,馏分范围,,224,?,524,284,?,430,350,?,450,密度,(20,),g/cm,3,0.8515,0.8225,0.8486,S/N,,,m%,0.06/0.047,0.09/0.044,0.29/0.025,工艺条件,总压,,MPa,8.0,6.5,6.86,空速,(,精制,/,裂化,),h,-1,1.7/1.7,1.0/2.0,1.0/2.0,单程转化率,,m%,55,80,80,国内典型原料,M
5、PHC,试验结果,原料油及条件(一),FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,国内典型原料,MPHC,试验结果,产品(一),原料名称,大庆,VGO,南阳常四线,中原油,重石脑油,65,?,180,65,?,177,65,?,180,收率,m%,23.9,27.8,35.1,芳潜,m%,48.0,40.2,43.1,喷气燃料,145,?,270,130,?,250,160,?,260,收率,m%,23.4,29.5,22.4,烟点,mm,28,26,33,芳烃,v%,12.8,12.1,12.4,轻柴油,180,?,350,17
6、7,?,350,180,?,360,收率,m%,27.3,42.7,31.1,十六烷值,52.4,66,65,加氢尾油,350,350,360,收率,m%,44.6,18.6,18.0,BMCI,值,6.9,3.4,2.4,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,原料名称,管输减二,胜利减二,馏分范围,,300,?,500,300,?,530,密度,(20,),g/cm,3,0.8792,0.8801,S/N,,,m%,0.34/0.074,0.44/0.10,工艺条件,总压,,MPa,6.86,7.66,空速,(,精制,/,
7、裂化,),h,-1,0.8/1.6,0.84/1.67,单程转化率,,m%,65,65,国内典型原料,MPHC,试验结果,原料油及条件(二),FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,国内典型原料,MPHC,试验结果,产品(二),原料名称,管输减二,胜利减二,重石脑油,65,?,180,65,?,180,收率,m%,27.9,29.5,芳潜,m%,56.2,55.7,喷气燃料,160,?,260,132,?,282,收率,m%,24.5,-,烟点,mm,17.2,18,芳烃,v%,22,20.7,轻柴油,180,?,350,18
8、0,?,350,收率,m%,28.5,27.74,十六烷值,52.3,48.3,加氢尾油,350,350,收率,m%,34.3,33.25,BMCI,值,5.4,6.2,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,原,料,油,沙中,VGO,伊轻,VGO,沙轻,VGO,伊轻减二,馏份范围,/,314,527,329,543,342,492,325,461,密度,,g/cm,3,0.9180,0.9083,0.9155,0.9048,S/N,,,m%,2.46/0.073,1.58/0.145,2.29/0.082,1.47/0.11
9、7,操作条件,氢压,/MPa,10.0,10.0,10.0,10.0,空速(,R,1,/R,2,),h,-1,1.0/1.2,1.0/1.2,1.2/1.5,1.2/1.5,370,单程转化率,80,80,60,70,典型中东原料,MPHC,试验结果,原料油及条件,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,2.FRIPP,在中压加氢裂化领域的技术研究,原,料,油,沙中,VGO,伊轻,VGO,沙轻,VGO,伊轻减二,重石脑油,82,?,132,82,?,132,65,?,165,65,?,165,收率,/m%,14.7,15.5,15.8,17.2,芳潜,/m%,62.33,
10、61.5,65.5,66.4,喷气燃料,132,?,282,132,?,282,165,?,260,165,?,260,收率,/m%,37.1,37.9,18.5,-,烟点,/mm,25,23,15,18,芳烃,/v%,15.8,13.3,27.7,19.3,柴油,282,?,370,282,?,370,165,?,370,165,?,370,收率,/m%,14.1,14.7,39.2,47.3,S/N/g/g,30/5,30/5,30/5,30/5,十六烷值,59.2,64,44.3,48.7,十六烷指数,(D4737),48,53.4,芳烃,/m%,20.0,21.9,19.4,14.6,
11、未转化油,370,370,370,370,收率,/m%,22.3,20.1,40.2,31.1,BMCI,值,10.2,10.3,17.3,15.8,典型中东原料,MPHC,试验结果,产品,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,3.FRIPP,中压加氢裂化技术工业应用结果,?,荆门中压加氢裂化,原料油,南阳常四,密度,(20,)/g/cm,3,0.8255,馏分范围,/,303,439,硫,/,氮,/,?,g/g,468/509,工艺条件,压力(入口),/MPa,7.0,空速,(,精制,/,裂化,)/h,-1,0.95/2.13,65,?,180,重石,收率,29.8,
12、芳潜,/m%,39.4,180,?,260,航煤,收率,17.6,烟点,/mm,28,180,?,330,柴油,收率,40,十六烷值,74,330,尾油,收率,22,BMCI,值,5.8,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,3.FRIPP,中压加氢裂化技术工业应用结果,?,齐鲁缓和加氢裂化,原料油,胜利,VGO,密度,(20,),g/cm,3,0.8781,馏分范围,,320,?,530,硫,,m%,0.38,氮,,?,g/g,1100,工艺条件,压力,MPa,7.6,体积空速,h,-1,1.57,LPG,3.5,石脑油,收率,,m%,14.5,MONC,62.5,柴
13、油,,收率,,m%,20.6,十六烷值,42,尾油,,收率,,m%,61.8,BMCI,值,16.7,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,3.FRIPP,中压加氢裂化技术工业应用结果,?,燕山中压加氢改质,原料油名称,大庆减二、重油催柴,馏分范围,243,?,480,密度,g/cm,3,0.8560,S/N,m%,0.093/0.081,工艺条件,氢压,MPa,8.0,催化剂,(,精制,/,裂化,3936/3825,温度,(,精制,/,裂化,),365/360,空速,(,精制,/,裂化,),h,-1,1.01/1.3,FRIPP,中压加氢裂化技术,FRIPP,,,SI
14、NOPEC,3.FRIPP,中压加氢裂化技术工业应用结果,?,燕山中压加氢改质,重石脑油,65,180,芳潜,m%,63.5,产率,m%,18.6,喷气燃料,180,240,烟点,mm,18,芳烃,m%,27.0,产率,m%,20.3,轻柴油,180,340,240,340,十六烷值,47.1,57.3,凝点,-25,-16,产率,m%,45.1,25.0,加氢尾油,340,BMCI,值,6.2,产率,m%,30.4,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,4.FRIPP,中压加氢裂化技术特点,?,催化剂类型多,品种齐全,可根据用户的特殊要求,选择最适宜的催化剂,?,催化
15、剂具有降低加氢裂化尾油,T95,点(干点),和富集链烷烃的功能,尾油,T95,点(干点)可比原料降低,20,40,尾油链烷烃含量,50%,?,乙烯产率高,裂解炉管清焦周期长(,45,天),FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,试验用原料油主要性质,原料油,直馏,VGO,密度,(20,?,C),,,g/cm,3,0.8866,馏程,,?,C,:,IBP/10%,275/366,90%/95%,502,/,520,EBP,541,残炭,,m%,0.15,硫,,m%,0.73,氮,,?,g/g,663,BMCI,值,33.9,4.FRIPP,中压加氢裂化技术特点,FRIPP,
16、中压加氢裂化技术,FRIPP,,,SINOPEC,加氢裂化主要工艺条件,原料油,直馏,VGO,反应器,R-1/R-2,催化剂,FF-16/FC-12,体积空速,,h,-1,1.12/1.48,反应总压,,MPa,10.7,氢油体积比,850:1/1150:1,反应温度,,?,C,368/370,精制油氮,,?,g/g,15,350,?,C,单程转化率,,m%,72,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,产品分布,(,m%,对新鲜进料),H,2,S+NH,3,0.90,C,1,0.10,C,2,0.07,C,3,0.89,iC,4,1
17、.52,nC,4,0.61,65,?,C,轻石脑油,5.92,65170,?,C,重石脑油,27.94,170260,?,C,喷气燃料,22.21,260350,?,C,柴油,13.54,350,?,C,尾油,28.17,C,5,+,液收,,,m%,97.78,化学氢耗,,m%,1.87,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,产品主要性质,产品,轻石脑油,重石脑油,航煤,柴油,尾油,密度,(20,?,C),,,g/cm,3,0.6561,0.7393,0.7977,0.8067,0.8320,馏,程,?,C,IBP/10%,65/9
18、7,169/183,268/279,360/371,30%/50%,108/118,191/200,285/293,392/412,70%/90%,131/148,211/228,303/318,439,/,481,EBP,170,247,330,520,硫,,?,g/g,0.5,0.5,2,5,5,氮,,?,g/g,0.5,0.5,1,1,2,芳潜,,m%,51.9,十六烷值,66.6,BMCI,值,9.6,链烷烃含量,,m%,66.9,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,伊朗,VGO,原料油主要性质,原料油,伊朗,VGO,密度
19、,(20,?,C),,,g/cm,3,0.9164,馏程,,?,C,:,IBP/10%,328/,376,30%/50%,400/430,70%/90%,455/,499,95%/EBP,514,/,531,残炭,,m%,0.32,硫,,m%,1.60,氮,,?,g/g,1475,BMCI,值,48.2,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,伊朗,VGO,加氢裂化主要工艺条件,原料油,伊朗,VGO,反应器,R-1/R-2,催化剂,FF-36/FC-120,体积空速,,h,-1,1.05/1.38,反应总压,,MPa,12.0,氢油体
20、积比,850/1250,反应温度,,?,C,384/374,精制油氮,,?,g/g,5,10,350,?,C,单程转化率,,m%,71.8,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,伊朗,VGO,加氢裂化产品分布,(m%,对新鲜进料,),H,2,S+NH,3,1.88,C,1,C,2,0.26,C,3,C,4,1.76,65,?,C,轻石脑油,5.10,65165,?,C,重石脑油,26.17,165260,?,C,喷气燃料,24.81,260350,?,C,柴油,14.04,350,?,C,尾油,28.25,C,5,+,液收,,,m%
21、,98.37,化学氢耗,,m%,2.27,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,伊朗,VGO,加氢裂化产品主要性质,产品,轻石脑油,重石脑油,航煤,柴油,尾油,密度,(20,?,C),,,g/cm,3,0.64,0.7502,0.8111,0.8219,0.8354,馏,程,?,C,IBP/10%,77/101,180/189,269/279,339/,379,30%/50%,111/121,196/204,285/292,396/417,70%/90%,134/149,214/230,301/316,443/,490,95%/EB
22、P,156/170,236/248,320/330,509,/,520,硫,,?,g/g,0.5,0.5,2,5,5,氮,,?,g/g,0.5,0.5,1,1,2,芳潜,,m%,58.4,芳烃含量,9.5v%,6.4m%,4.4m%,十六烷指数,(ASTM D 4737-96a),烟点,:22mm,71.8,BMCI,值,10.4,链烷烃含量,,m%,57.8,58.1,4.FRIPP,中压加氢裂化技术特点,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,4.FRIPP,中压加氢裂化技术特点,?,催化剂不含易流失、强腐蚀性(如,F,、,Cl,、,Br,等)卤族助剂,不会对本装置及下游设备产生腐蚀,?,催化剂活性稳定性好,具有良好的再生性能,一个运转为,2,7,年,多数催化剂运转周期都在,4,年以上,已有多种类型催化剂经受国内外催化剂再生公司,的再生考验,催化剂活性、选择性恢复良好,FRIPP,中压加氢裂化技术,FRIPP,,,SINOPEC,感谢各位光临,
