Hydrocracking diversity in n-dodecane isomerization on Pt/ZSM-22 and Pt/ZSM-23 catalysts and their catalytic performance for hydrodewaxing of lube base oil

Nobel metallic Pt/ZSM-22 and Pt/ZSM-23 catalysts were prepared for hydroisomerization of normal dodecane and hydrodewaxing of heavy waxy lube base oil.The hydroisomerization performance of n-dodecane indicated that the Pt/ZSM-23 catalyst preferred to crack the C-C bond near the middle of n-dodecane chain,while the Pt/ZSM-22 catalyst was favorable for breaking the carbon chain near the end of n-dodecane.As a result,more than 2%of light products(gas plus naphtha)and3%more of heavy lube base oil with low-pour point and high viscosity index were produced on Pt/ZSM-22 than those on Pt/ZSM-23 while using the heavy waxy vacuum distillate oil as feedstock.

Commercial Application of the ICR Series Lube Isodewaxing Catalysts

This article illustrates the application of the ICR series lube oil isodewaxing catalysts in commercial scale and proposes the strategy on long cycle operation and optimization of catalysts. The results of commercial application of the catalyst have revealed that the catalyst after pretreatment including drying, sulfidation and reduction can process VGO into base oils meeting the HVI II and HVI II+ standards, and can manufacture base oils meeting the HVI III standard after incorporating the filtrate oil or gatch from acetone-benzene solvent dewaxing unit. The nitrogen content of the feed oil to the IDW reactor should be controlled at 1.0—1.5 ppm, while the CO and CO2 contents in fresh hydrogen is strictly controlled to avoid poisoning of the IDW-HDF catalysts.

Efficient degradation of lube oil by a mixed bacterial consortium

A laboratory study was performed to assess the biodegradation of lube oil in bio-reactor with 304# stainless steel as a biofilm carrier. Among 164 oil degrading bacterial cultures isolated from oil contaminated soil samples, Commaonas acidovorans Px1, Bacillus sp. Px2, Pseudomonas sp. Px3 were selected to prepare a mixed consortium for the study based on the efficiency of lube oil utilization. The percentage of oil degraded by the mixed bacterial consortium decreased slightly from 99% to 97.2% as the concentration of lube oil was increased from 2000 to 10,000 mg/L. The degradation of TDOC （total dissolved organic carbon） showed a similar tendency compared with lube oil removal, which indicated that the intermediates in degradation process hardly accumulated. Selected mixed bacterial consortium showed their edge compared to activated sludge. Scanning electron microscopy （SEM） photos showed that biofilms on stainless steel were robust and with a dimensional framework constructed by EPS （extracellular polymeric substances）, which could promote the biodegradation of hydrocarbons. The increase of biofilm followed first-order kinetics with rate of 0.216 μg glucose/（cm2·day） in logarithm phase. With analysis of Fourier transform infrared spectroscopy （FT-IR） and gas chromatography-mass spectrometry （GC-MS） combined with removal of lube oil and TDOC, mixed bacterial consortium could degrade benzene and its derivatives, aromatic ring organic matters with a percentage over 97%.

Development Prospective ofCNPC's Lube Oil Production

Aftertherestructuringprocess,CNPCgotstrengthenedinlubricatonoilproductionintermsofresource,technologyandproductioncapacity.Howtomakefulluseoftheseadvantagesandenlargethemarketsharearethecriticalissuestohandle.CNPCshallacceleratethetechnologicalrenova...

Study on Tribological Behaviors of Boron-Nitrogen Modified Fatty Acid as Water-Based Lube Additives

A new type of boron-nitrogen modified fatty acid as water base lube additive was prepared and the chemical structure characterized by infrared spectrum.The tribological properties of the additive in water were evaluated by friction testers.The morphographies and tribochemical species of the worn surfaces were analyzed by means of X-ray Photoelectron Spectroscope(XPS).The results showed that the additive is excellent in increasing load-carrying capacity,anti-wear and friction-reducing abilities of water.The lubrication mechanism is inferred that a high strength adsorption film and a tribochemical reaction film are formed on the rubbing surfaces due to the carrier effect of the long chain fatty acid molecules,high reaction activities of nitrogen,electron-deficient orbit of boron and their synergisms.

微小间隙内润滑油剪切流动引发的不稳定振动现象分析

针对微小间隙内润滑油剪切流动引发的不稳定振动现象,建立轴颈截面温差、转子热弯曲和转子振动求解模型。以2台发电机组的周期性振动波动为对象,分析润滑油温和不平衡力对汽轮发电机振动的影响。结果表明:轴承微小间隙内润滑油剪切流动带来的热弯曲效应在一定条件下有可能引发机组不稳定振动;适当增大进油温度、增加密封瓦间隙可以减小转子热弯曲变形,降低振动波动;不平衡力会激发起较大的涡动轨迹,通过动平衡方法可以减小轴承最大与最小油膜厚度差值,降低轴颈截面温差,稳定振动状态。

高选择性润滑油异构脱蜡催化剂RIW-30的研究与开发

在深入化反应机理的基础上,通过分析现有催化剂的特点,进行文献调研和试验研究,成功合成了具有特定结构和硅铝比的BCM-168分子筛。通过控制BCM-168分子筛的关键物化性质指标并优化催化剂配方,开发了具有高异构选择性的润滑油异构脱蜡催化剂RIW-30。分子筛工业放大和催化剂制备重复性试验结果表明,BCM-168分子筛和RIW-30催化剂制备技术具有较好的重复性。以RIW-30催化剂加工加氢裂化尾油、减四线加氢处理生成油和蜡下油等原料时,主产品收率高、黏度指数损失低,RIW-30有很好的活性、异构选择性和原料适应性。与现有工业催化剂RIW-2相比,采用RIW-30催化剂加工加氢裂化尾油时,黏度指数损失减少4,主产品收率提高4~5百分点。工业应用结果表明,采用RIW-30催化剂可以在较温和的反应条件下生产HVIⅢ类基础油,润滑油收率高,黏度指数损失小,催化剂整体性能优于RIW-2催化剂。

润滑油基础油生产阶段碳足迹核算与评价

润滑油基础油需求稳定增长,“双碳”背景下,碳足迹评估成为促进产业绿色转型的新途径。基于英国标准协会制定的核算标准PAS 2050基本原理,对核算关键参数进行适应性优化,建立符合国内润滑油基础油生产实际的碳足迹核算方法。以某企业润滑油基础油产品为评价对象,核算其生产阶段碳足迹,并对生产工艺、单元装置、排放源等的影响进行评价,针对性地提出减排措施和建议。结果表明,老三套、加氢、异构脱蜡3种工艺下的碳足迹(以二氧化碳当量计)分别为437.9,372.4,494.4 kg/t,加氢裂化装置和润滑油加氢装置是减排的关键装置,蒸汽、电力、燃料气及循环水系统是重点排放源。从加快新能源替代、提高装置能效、加强碳排放因子监测、公用工程系统优化等方面提出减排建议,助力企业高质量可持续发展。

甘油三酯催化转化为柴油、喷气燃料和润滑油基础油

将生物质转化为可持续燃料和化学品对于解决环境问题、减少碳排放、增强能源安全以及促进经济和社会发展至关重要.在众多生物质原料中,来自不同来源的甘油三酯,如植物油、动物脂肪和微藻油,因其低氧含量和脂肪酸单元中的高度石蜡骨架,与石油衍生烃的结构相似,而特别适合生产可持续的烃燃料和化学品.这意味着通过相对简单的催化转化过程,就能有效地将甘油三酯转化为烃类产物.本文概述了甘油三酯通过加氢过程转化为无氧燃料(如柴油和喷气燃料)以及润滑油基础油等高附加值产品的过程.此外,还根据反应机理讨论了所需催化剂的重要结构性质,以及甘油三酯的不同脂肪酸组成对催化转化过程的影响.

润滑油加氢装置节能降耗途径探讨

30万t/a润滑油加氢装置开工以来,通过优化工艺参数、改变进料方式、电机增设变频、优化换热网络和精细化管理等方式开展了一系列节能降耗工作,取得了明显的效果,使装置的平均EO能耗下降2.98 kg/t。

滑油分油机常见故障及其维保措施

介绍了海上采油平台使用滑油分油机的工作原理、故障现象及故障分析,并提出相应的处理措施,确保滑油分油机的合理使用、正确的日常维护保养。

润滑油加氢装置缠绕管式换热器设计与应用

换热器是影响润滑油加氢装置安全运行的关键设备,为提高换热器长周期运行效率,对螺纹锁紧环式传统换热器与缠绕管式换热器进行了比对研究,发现缠绕管式换热器运行稳定、管程与壳程之间产生内漏的可能性极小,是一种换热效率较高的换热设备。在某公司600 kt/a润滑油加氢异构脱蜡装置改造中,通过换热参数计算,用1台缠绕管式换热器代替了3台螺纹锁紧环式换热器,运行结果表明:热端温差下降了20℃、节省燃料气0.08t/h,总压降减小了200kPa,压缩机耗电功率减小了18kw/h。改造后3年运行期间没有出现质量缺陷,可以在同类装置中推广使用。

Utilizing an auxiliary portable lube oil heating system in Aliabad Katoul-Iran V94.2 gas turbine during standstill mode:a case study

In a gas turbine power plant,the lubrication oil must be hot enough for the turbine start-up where the unit is in standstill mode.Currently,the strategy to heat the lubrication oil of ANSALDO V94.2 gas turbine power plant is operating the units in turning gear mode or interval mode.However,these strategies cause to suffering the power plant from high power consumption rate and aging.In this study,an auxiliary portable heating system was added to the unit 5 of the MAPNA built MGT-70(an Iranian version of V94.2)Aliabad Katoul-Iran power plant for increasing the lube oil temperature.Irreversibility,cost-effectiveness,and availability of the proposed heating system are studied by the concepts of exergy,economy,and reliability analyses,respectively.The result of the exergy analysis shows that by using the auxiliary portable lube oil heating system the exergy destruction decreases about 94.7%and 92.6%in comparison with turning gear mode and interval mode,respectively.The result of the economic analysis shows that the auxiliary portable heating system consumes less power rather than turning gear mode.Moreover,it is a cost-effective system which has no penalty and no non-profit production.Finally,the reliability analysis shows that the auxiliary portable lube oil heating system is a reliable tool during its lifetime.

HVIⅡ^(+)10润滑油基础油在涡轮机油中的应用研究

基于中国石化茂名分公司的润滑油基础油资源,针对近年来生产涡轮机油出现的锈蚀和过滤性不合格问题,从基础油和添加剂两方面开展涡轮机油产品配方的应用考察工作,分析了HVIⅡ^(+)10(茂名)和不同功能剂、防锈剂的配伍问题。结果表明:在功能剂A同样剂量的情况下,应用基础油HVIⅡ^(+)10(茂名)调制的涡轮机油产品防锈性能和过滤性能均较差,选用AC 716防锈剂补强可以解决问题;应用功能剂B和功能剂C,可以改善L-TSA(A级)涡轮机油的过滤性和防锈性能。

氯气压缩机运行中存在的问题及解决办法

介绍了离心式氯气压缩机的结构和工作原理,针对该设备在运行过程中出现的问题提出了解决办法。

Pt/ZSM-22催化剂酸性原位调控及加氢异构性能

采用水热法合成ZSM-22分子筛并制备催化剂载体,通过负载贵金属Pt,制备出高分散Pt/H-ZSM-22加氢异构催化剂。以n-C_(12)为原料,考察催化剂的加氢异构性能,在正构烷烃加氢异构反应过程中,通过在原料油中引入一定量含氮物种二正丁胺,使其在催化剂酸性位上发生化学吸附,对催化剂酸性进行原位调控,考察催化剂性能变化。结果表明,随着反应温度提高,酸性调控后的Pt/N-ZSM-22液体收率下降缓慢,且转化率达到85%以上时,Pt/N-ZSM-22的异构选择性比Pt/H-ZSM-22高出约3个百分点。酸性调控后的Pt/N-ZSM-22可通过提高反应温度进行含氮物种脱附,恢复催化剂酸位点的可接近性。采用酸性调控后的催化剂用于以加氢裂化尾油为原料的加氢异构反应,基础油收率均较调控前催化剂有明显提高。

农用柴油机活塞环组机油消耗和窜气的灰色关联分析与预测

活塞环组的润滑和密封性能直接影响柴油机的动力性、经济性和排放特性,机油消耗量(lube oil consumption,LOC)和窜气量(crankcase blow-by,CB)是评估活塞环组润滑和密封性能优劣的主要指标。为探究影响农用柴油机活塞环组LOC和CB的影响因素及LOC和CB对影响因素的敏感程度,该研究提出农用柴油机活塞环组LOC和CB的多影响因素系统分析及预测方法。以YNF40农用柴油机为对象,首先搭建柴油机LOC和CB测试台架,建立活塞环组运动学与动力学仿真模型并验证模型的精确度和可靠度,然后采用灰色关联分析(grey relation analysis,GRA)得到不同影响因素的灰色关联度(grey relational grade,GRG),并基于此进行影响因素敏感性分析,最后基于BP神经网络建立不同转速工况下LOC和CB瞬态变化的时间序列预测模型。多因素GRG分析结果表明:对活塞环组LOC和CB影响最敏感和最不敏感的因素分别是活塞第一环槽下边缘倒角和活塞第三环槽背隙,其对应的GRG分别为0.89279和0.58361,得到目标与影响因素敏感程度的降序排列为:第一环槽下边缘倒角、顶环开口间隙、第一环槽下侧环岸间隙、第二环槽侧隙、第二环槽下边缘倒角、第二环开口间隙、第三环槽上边缘倒角、油环开口间隙、第二环槽上边缘倒角、第一环槽背隙、顶环切向弹力、第三环槽上侧环岸间隙、顶环环槽下侧轮廓倾角、第二环槽下侧环岸间隙、第一环槽上侧环岸间隙、配缸间隙、第三环槽侧隙、第一环槽上边缘倒角、顶环环槽上侧轮廓倾角、第一环槽侧隙、第二环槽上侧环岸间隙、第三环槽下边缘倒角、第二环槽背隙、第三环槽下侧环岸间隙、顶环上端缩减量、第三环槽背隙。LOC和CB随活塞第一环槽下边缘倒角和活塞第三环槽背隙变化的平均标准差分别为2.81、3.90和0.003、0.209。各影响因素与LOC和CB的GRG越大,LOC和CB随影响因素变化的平均标准差越大,对影响因素越敏感。BP神经网络时间序列预测结果表明:预测值与真实值的变化趋势较一致且都分布在95%置信带以内,模型具有较高的预测精度。研究结果可为农用柴油机提高热效率、减少和控制碳排放提供有效指导。

润滑油基础油规格的修订建议

基础油是构成润滑油的主体,其质量优劣对润滑油的性能起至关重要的作用。随着设备技术进步以及世界范围内对环保要求的日益苛刻,迫切需要制定出更高质量水平的基础油规格标准,以提高基础油市场竞争力。本文建议标准制定借鉴国际通用API分类,同时考虑我国基础油生产实际、性能要求及生产企业和用户的实际需求。新标准对基础油的分类和主要性能指标都作出了具体要求,有利于基础油质量和市场竞争力的提升。

核电厂润滑油冷却器泄漏原因分析

在电厂给水泵汽轮机系统中,润滑油冷却器泄漏会导致油侧进水,影响机组的安全运行。针对某电厂润滑油冷却器铜管泄露现象,采用氦气查漏试验、涡流检测及宏观检查等多种方法分析发现,铜管泄露原因是折流支撑板处产生的凹陷引起。查明润滑油冷却器铜管泄露的原因并进行排除,才能保证润滑油冷却器安全稳定运行。