QSPR Study on the Boiling Points of Some Oxygenand Sulfur-containing Organic Compounds

Structural and thermodynamic parameters of 56 oxygen-containing and 56 sulfur- containing organic compounds were computed at the B3LPY/6-311G＊＊ level using density functional theory （DFT） method. Furthermore,the dependent equations between the experimental data of boiling points （Tb） and theoretical parameters were proposed with SPSS12.0 for windows software,whose correlation coefficients R2 are 0.933 and 0.945. These dependent equations were validated by cross-validation method （q2 are 0.923 and 0.929,respectively）. VIF （variance inflation factors） and t-value methods were also used to verify the significance and self-correlationship of each variable. Results indicate that our dependent equation exhibits good prediction ability,and molecular polarizability （α） is the main factor affecting the Tb of oxygen- and sulfur-containing organic compounds. To our interest,obvious dependence could also be found among the oxygen- and sulfur-containing organic compounds＇ experimental data of boiling points （Tb） with R^2 of 0.857.

Tracing of natural gas migration by light hydrocarbons:A case study of the Dongsheng gas field in the Ordos Basin,NW China

Based on the analysis of light hydrocarbon compositions of natural gas and regional comparison in combination with the chemical components and carbon isotopic compositions of methane,the indication of geochemical characteristics of light hydrocarbons on the migration features,dissolution and escape of natural gas from the Dongsheng gas field in the Ordos Basin is revealed,and the effect of migration on specific light hydrocarbon indexes is further discussed.The study indicates that,natural gas from the Lower Shihezi Formation(Pix)in the Dongsheng gas field displays higher iso-C5-7contents than n-C5-7contents,and the C6-7light hydrocarbons are composed of paraffins with extremely low aromatic contents(<0.4%),whereas the C7light hydrocarbons are dominated by methylcyclohexane,suggesting the characteristics of coal-derived gas with the influence by secondary alterations such as dissolution.The natural gas from the Dongsheng gas field has experienced free-phase migration from south to north and different degrees of dissolution after charging,and the gas in the Shiguhao area to the north of the Borjianghaizi fault has experienced apparent diffusion loss after accumulation.Long-distance migration in free phase results in the decrease of the relative contents of the methylcyclohexane in C7 light hydrocarbons and the toluene/n-heptane ratio,as well as the increase of the n-heptane/methylcyclohexane ratio and heptane values.The dissolution causes the increase of isoheptane values of the light hydrocarbons,whereas the diffusion loss of natural gas in the Shiguhao area results in the increase of n-C5-7contents compared to the iso-C5-7contents.

An Innovative Method for the Determination of Sulfur-containing Compounds by Vapor Molecular Absorption Spectrometry

Since the most sensitive resonance lines of nonmetallic elements are situated in vacuum ultraviolet region （below 190 nm）, they can not be directly determined with a common AAS instrument covering the spectral range from 190 to 700 nm. The molecular absorption spectrometry is often used for the determination of nonmetallic elements. Syty et al. used vapor molecular absorption spectrometry（VMAS） to determine the sulfur dioxide and sulfide, in which a hydrogen hollow cathode lamp was used as a continuum source to determine SO;at 210 nm and a deuterium arc

Deciphering the Origin of Abiotic Organic Compounds on Earth:Review and Future Prospects

The geologic production of abiotic organic compounds has been the subject of increasing scientific attention due to their use in the global carbon flux balance,by chemosynthetic biological communities,and for energy resources.Extensive analysis of methane(CH_(4))and other organics in diverse geologic settings,combined with thermodynamic modelings and laboratory simulations,have yielded insights into the distribution of specific abiotic organic molecules on Earth and the favorable conditions and pathways under which they form.This updated and comprehensive review summarizes published results of petrological,thermodynamic,and experimental investigations of possible pathways for the formation of particular species of abiotic simple hydrocarbon molecules such as CH_(4),and of complex hydrocarbon systems,e.g.,long-chain hydrocarbons and even solid carbonaceous matters,in various geologic processes,distinguished into three classes:(1)pre-to early planetary processes;(2)mantle and magmatic processes;and(3)the gas/water-rock reaction processes in low-pressure ultramafic rock and high-pressure subduction zone systems.We not only emphasize how organics are abiotically synthesized but also explore the role or changes of organics in evolutionary geological environments after synthesis,such as phase transitions or organic-mineral interactions.Correspondingly,there is an urgent need to explore the diversity of abiotic organic compounds prevailing on Earth.

Inhibitory effect of coriander(Coriandrum sativum L.)extract marinades on the formation of polycyclic aromatic hydrocarbons in roasted duck wings

Coriander(Coriandrum sativum L.)is recognized for its antioxidant property,as a kind of natural phenolic-rich ingredient.Polycyclic aromatic hydrocarbons(PAHs)present a class of heat-driven hazards in foods,especially the processed meat.In this study,the effect of coriander root and leaf extract on the formation and inhibition of PAH8 in roasted duck wings was firstly investigated.Coriander root extract(CRE)and coriander leaf extract(CLE)with five concentration groups(200,400,600,800,1000 mg/L)were prepared respectively to marinate the duck wings.CRE marinade exhibited greater inhibitory effect on PAH8 formation in roasted duck wings that ranged from 65.0%-87.4%.The electron spin resonance study indicated a significantly positive correlation between PAH8 and free radical level,suggesting the participation of radicals in PAHs formation.Also,it was speculated that the inhibitory effect on PAH8 was related to the phenolic compounds identified in coriander marinades.CRE made greater inhibitory effect on the formation of PAH8 and could be considered as a kind of natural source to mitigate PAHs in heat-processed meat products.

鄂尔多斯盆地大牛地气田上古生界致密气轻烃地球化学特征

大牛地气田是鄂尔多斯盆地典型致密砂岩大气田之一。为了更深入了解该区天然气的成因和来源,揭示天然气运移相态,对大牛地气田上古生界致密气开展了轻烃地球化学特征分析。研究表明,该区上古生界致密气C5-7轻烃组成具有异构烷烃优势分布,C6-7轻烃组成中芳烃含量整体偏低(<10%),甚至未检出芳烃,C7轻烃组成具有甲基环己烷优势分布特征,甲基环己烷相对含量均超过50%。上二叠统下石盒子组天然气K_(1)值、K_(2)值均与二叠系山西组和石炭系太原组天然气一致,而δ^(13)C_(1)值则与山西组天然气一致,与太原组天然气有明显不同。与山西组天然气相比,下石盒子组天然气整体具有偏低的苯/正己烷、苯/环己烷和甲苯/正庚烷比值,以及明显偏高的正庚烷/甲基环己烷比值。轻烃地球化学特征及烷烃气碳氢同位素组成综合表明,大牛地气田上古生界天然气为典型煤成气,其中山西组和太原组天然气均为原地自生自储,而下石盒子组天然气为下伏山西组烃源岩生成的天然气经历了游离相垂向运移聚集形成,太原组烃源岩不具有显著贡献。受天然气运移和水溶等作用影响,庚烷值、异庚烷值、苯/正己烷比值等轻烃指标直接用于判识大牛地气田致密气成熟度会存在偏差。

天然气运移轻烃地球化学示踪--以鄂尔多斯盆地东胜气田为例

基于天然气中轻烃化合物组成分析和区域性对比,结合组分和甲烷碳同位素组成特征,揭示轻烃地球化学特征对鄂尔多斯盆地东胜气田上古生界天然气运移和水溶及逸散等示踪作用,探讨运移作用对特定轻烃指标的关联效应。研究表明:①东胜气田二叠系下石盒子组天然气C5−7异构烷烃含量高于正构烷烃,C6−7轻烃组成呈链烷烃优势分布且芳香烃含量明显偏低(小于4.0%),C7轻烃主体呈甲基环己烷优势分布,整体表现出煤成气特征且受到了水溶等作用影响;②东胜气田天然气经历了自南向北的游离相运移,并在充注后发生不同程度的水溶作用,其中泊尔江海子断裂以北什股壕地区天然气在聚集后具有明显的散失;③长距离的游离相运移导致天然气C7轻烃中甲基环己烷相对含量和甲苯/正庚烷值降低、正庚烷/甲基环己烷值和庚烷值增大,水溶作用导致轻烃异庚烷值增大,天然气散失导致什股壕地区天然气中C5−7正构烷烃相对异构烷烃含量增加。

不同烟熏时间鸡腿肉香气化合物与危害物及相关前体物研究

为探究不同熏制时间下熏鸡风味成分和危害物的变化及其与前体物的关系,利用色谱质谱等技术对香气化合物、杂环胺(HAs)、晚期糖基化终末产物(AGEs)、多环芳烃(PAHs)、还原糖、游离氨基酸与脂肪酸等进行定性定量分析。结果表明,在熏鸡腿中共鉴定出67种香气化合物,气味活性值(OAVs)>1的香气化合物有24种,以愈创木酚贡献率最大。随着熏制时间增加,酚类化合物、HAs、AGEs和4种多环芳烃(PAH4)含量显著升高(P<0.05),而水分、肌酐和葡萄糖则逐渐减少。9H-吡啶并[3,4-b]吲哚(Norharman)、羧甲基赖氨酸(CML)、羧乙基赖氨酸(CEL)和?(Chr)是熏鸡中主要潜在危害物,熏制12 h后的含量分别为37.38 ng·g^(-1)、123.94μg·g^(-1)、180.13μg·g^(-1)和41.10μg·kg^(-1)。最佳熏制时间为6 h,长时间熏制不利于熏鸡香气化合物的保持且伴生大量危害物。相关性分析表明,壬醛、1-辛烯-3-醇、2,5-二甲基吡嗪等关键香气化合物含量与还原糖、部分游离氨基酸和不饱和脂肪酸含量显著负相关;Norharman、CEL和PAH4等含量与多种游离氨基酸、水分等含量显著或极显著负相关;苯丙氨酸、甲硫氨酸、酪氨酸和色氨酸等含量同时与香气化合物和危害物含量显著(P<0.05)或极显著正/负相关(P<0.01)。本研究揭示了熏鸡熏制过程中香气化合物与危害物协同伴生关系,可为熏鸡风味保持和危害物消减提供数据基础。

燃煤机组烟气挥发性有机物排放特征

为了解不同容量燃煤机组烟气挥发性有机物(VOCs)的排放特性和不同尾部空气污染物控制设备(APCDs)对VOCs的控制作用,在福建省国投云顶湄洲湾电力公司400 MW亚临界对冲燃烧机组和1 000 MW超超临界切圆燃烧机组进行在线法和离线法采样测试,获取烟气中甲烷、非甲烷总烃和其他VOCs的全流程浓度。结果表明,1 000 MW机组SCR前的非甲烷总烃质量浓度(24.66 mg/m^(3))低于400 MW机组(33.36 mg/m^(3))。由于1 000 MW机组负荷和炉膛温度高,且煤在切圆燃烧炉内比对冲燃烧停留时间长,故煤燃烧更彻底。两机组SCR系统均能脱除超过70%的非甲烷总烃,400 MW和1 000 MW机组的SCR脱除效果分别为88.43%和74.32%。而在静电除尘过程(ESP)中,高压静电场可能会导致飞灰释放部分VOCs,增加烟气VOCs浓度。经所有APCDs后,400 MW机组和1 000 MW机组的VOCs排放质量浓度分别为8.40和8.47 mg/m^(3),整体脱除率为73.98%和63.02%,几乎未检出甲烷。离线测试结果:印尼煤燃烧后VOCs主要为正己烷、苯系物和苯甲醛。各固体样品(如煤、灰、石膏)有机物浓度分析显示,VOCs种类与机组大小无明显关联。这些发现有助于深入理解燃煤电厂对空气质量影响及优化污染控制设备设计。燃煤电厂实际运营中需依具体情况优化污染控制设备,以达到最大脱除效果,也需考虑机组大小和运行效率,有效控制VOCs排放。

润滑油基础油氧化过程研究

本研究旨在深入探究不同来源的润滑油基础油在热、氧环境下的性能指标、结构变化以及氧化过程变化。通过采用赛波特色度仪、傅里叶变换红外光谱仪、气相色谱-质谱联用仪以及热重分析仪等仪器,对润滑油基础油的氧化行为进行系统的表征分析。研究结果显示,在热、氧环境下,石油基基础油由于含有较多的环烷烃,其性能较易受到氧化影响而发生改变。合成基础油的性能同样会发生变化,但变化幅度相对较小。因此,合成基础油可以使润滑油性能保持相对稳定,但与石油基基础油之间的差异并不显著。

加氢裂化精制段芳烃饱和深度对断侧链和开环反应的影响

通过调节加氢裂化精制段工艺条件参数得到不同芳烃饱和率的精制油,按照烃分子的环结构数目进行分类和数据处理,并结合反应热力学数据研究了芳烃饱和深度对精制段的断侧链和开环反应的影响。结果表明:加氢裂化精制段的断侧链反应以一环烃为主,且芳烃饱和率提高,烷基苯环π键向烷基环己烷σ键的转化,使得反应物形成正碳离子的稳定性降低,这可能是导致断侧链反应平衡常数变小和反应速率变慢的主要原因;低芳烃饱和率下,含硫化合物(噻吩类)等环状烃分子加氢脱除是开环反应的主体,随着芳烃饱和率提高,四环及以上环状烃分子发生开环反应转化为低环数环状烃,而三环及以下环状烃主要发生芳烃饱和反应转化为相同环数的环烷烃。

油气储运中油气回收技术的应用

在油品装车、装船过程中,大量的挥发性油气会进入大气,导致资源的浪费和周边环境的污染。为了解决这个难题,将对罐区现有设备与其他成熟的技术进行对比分析,阐述各项技术的优缺点及我公司现有设施的使用情况。

注塑加工行业废气治理方案探究

首先,对塑胶行业的挥发性有机化合物产生环节进行分析。然后,从处理措施、收集模式、控制方式等角度着手,探讨了注塑加工行业对挥发性有机化合物污染的治理方案,以便达到节能减排目的,实现注塑加工行业的可持续发展。

复合烃油对不同粒级辉钼矿的浮选强化机理及应用

本文通过单矿物浮选试验、实际矿浮选试验、接触角测试、红外光谱分析、扫描电镜能谱分析等,系统研究了复合烃油对不同粒级辉钼矿浮选行为的影响及作用机理。结果表明:复合烃油对辉钼矿的浮选效果优于煤油和中性油,煤油与中性油的质量比为1∶1时,实际矿浮选可获得钼精矿品位为45.20%,回收率为83.04%的指标,比煤油作为捕收剂时的回收率提高4.30%。机理研究表明,复合烃油可以同时吸附在辉钼矿的非极性“面”和极性“棱”上,既保证了粗粒辉钼矿的表面疏水性,又提高了细粒辉钼矿的表面疏水性,强化了辉钼矿的浮选效果。复合烃油能提高辉钼矿的整体浮选回收率,对钼资源的高效回收具有十分重要的意义。

Mechanism of Forming Hydrocarbon in Coal Measures

The forming condition of coal and coaly organic matter is analyzed. The dynamics of hydrocarbon generation of coal and coaly organic matter is discussed. It has been pointed out that the temperature is the main predominant factor for the hydrocarbon generation of coal; chemical effect of structural pressing and shearing force accelerates the evolution of hydrocarbon derived from coal, and is the prerequisite for the hydrocarbons to be expelled from coal. The existence of atoms of N, S, O etc. is the prerequisite for forming the hydrocarbons at early evolution stage. The importance of NSO compounds in the evolution of hydrocarbon generation has been emphasized.

轻烃地球化学特征对天然气来源和运移相态的约束——以四川盆地西部新场气田侏罗系气藏为例

新场气田侏罗系是四川盆地川西坳陷天然气稳产的重要产层之一,但是新场气田侏罗系天然气来源和成藏特征的认识存在较大争议。为了更有效地揭示川西坳陷侏罗系天然气成藏过程和富集机理,在分析新场气田不同层位天然气轻烃化合物组成的基础上,探讨了轻烃参数判识成熟度的适用性,并揭示了轻烃地球化学特征对成烃成藏的指示意义。研究结果表明:(1)新场气田侏罗系天然气C_(5)—C_(7)轻烃组成中异构烷烃相对正构烷烃呈优势分布,C_(7)轻烃组成中甲基环己烷呈明显的优势分布,甲基环己烷指数均大于60%,为典型的煤成气;C_(6)—C_(7)轻烃组成中芳烃含量明显低于链烷烃和环烷烃。(2)上侏罗统蓬莱镇组气藏主要为上三叠统须家河组三段烃源岩生成的天然气以游离相运移聚集形成,中侏罗统沙溪庙组气藏与部分蓬莱镇组气藏主要为须家河组五段烃源岩生成的天然气以水溶相和游离相运移聚集形成。(3)蓬莱镇组气藏天然气C_(6)—C_(7)轻烃组成中芳烃含量明显偏低,异庚烷值明显偏高,主要源自不同类型化合物在溶解度、极性等方面的差异影响。结论认为,天然气在运移聚集过程中受水溶、吸附等作用的影响,运用C_(6)—C_(7)轻烃组成、异庚烷值分别进行天然气成因类型和成熟度判识时需特别谨慎。

Systematically structural identification of nitric compounds in crude oil with chemometric resolution

Aimed at the problem of classification of non-hydrocarbons of crude oil, the theoretical standpoint that the polarity of a compound depends on the whole structure and composition of molecule instead of a kind of heteroatom or its functional group was presented. A method was established for the systematically structural identification of nitric compounds in crude oil. The pre-fractionation of a crude oil sample into 7 fractions was performed by di- adsorption column chromatography with neutral aluminum oxide and silica gel. Subsequently, the individual components were obtained by using capillary column gas chromatography, and the types of compounds were detected by a mass spectrometer. In combination with a chemometric resolution, the compounds of fraction were further identified. This method can relieve the difficulty of classical analysis in identifying those species with very low contents or without being completely separated. The structures of 168 nitric compounds in a crude oil sample were determined by this method.

挥发性有机物催化控制研究进展与应用

挥发性有机物(VOCs)所致的区域性大气污染日趋严峻,高效减排与控制VOCs是实现PM_(2.5)和O_(3)协同控制的关键,催化净化作为一种节能环保的VOCs高效控制技术得到了广泛研究。本文从VOCs排放特征和污染物类型的角度出发,总结了当前研究在高性能催化体系、微观反应转化机制、VOCs控制工程应用等方面取得的进展,并提出该技术的未来发展方向。

二噁英及类二噁英污染物致免疫毒性作用机制研究进展

二噁英是芳烃受体(aryl hydrocarbon receptor,AHR)的高效外源配体,已知可以通过AHR发挥免疫毒性作用。经典的AHR毒性通路是指AHR由配体激活后进入细胞核,并与芳烃受体核转运蛋白(AHR nuclear translocator,ARNT)形成复合物,诱导二噁英反应元件(dioxin response element,DRE)控制的下游免疫相关基因的表达。但新的研究表明二噁英诱导免疫毒性还存在多种非经典的AHR通路,即激活后的AHR与其他信号通路(如炎症反应、细胞周期和信号转导)中的关键蛋白之间发生相互串扰,影响细胞功能。该过程中,AHR直接或以AHR-ARNT复合物的形式与其他转录因子相互作用,协同募集到共识或非共识DRE位点并与之结合,进而影响关键分子的转录和表达。目前已有许多与二噁英结构相似的物质被证明具有类二噁英的AHR激活活性,包括部分多氯联苯、多环芳烃和多溴联苯醚等,被称为类二噁英物质(dioxin-like compounds,DLCs)。DLCs可以通过激活AHR影响免疫系统,但一些研究表明,部分DLCs的免疫毒性可通过非AHR依赖的途径产生,这些途径可能包括导致细胞氧化应激、影响细胞呼吸爆发反应、促进细胞凋亡和干扰线粒体功能等。总之,与二噁英相比,DLCs的免疫毒性作用机制并不清晰,还需要更为系统的研究。

In_(2)O_(3)基催化剂在热催化二氧化碳加氢反应中的研究进展

CO_(2)催化加氢被认为是生产高附加值化学品和燃料最实用的途径之一。然而由于其化学惰性、C–C键偶联过程的高能垒和诸多的竞争反应,因此,开发高效的催化剂以促进CO_(2)的活化并转化为多样的化工产物显得至关重要。近年来,氧化铟因具有丰富的氧缺陷位点,在催化CO_(2)加氢方面对甲醇的高选择性以及对CO_(2)转化的高活性引起了人们的广泛关注。本工作主要对In_(2)O_(3)的结构及其与氧化物负载或金属元素掺杂的复合催化剂用于催化CO_(2)加氢制备甲醇的催化性能进行了综述。探讨了In_(2)O_(3)与不同类型的分子筛的接近度和元素迁移在CO_(2)加氢制烃类产物中的影响。并对In_(2)O_(3)基催化剂在CO_(2)选择性加氢方面存在的挑战和发展方向进行了总结。