Even-carbon predominance of Monomethyl branched alkanes in Humic coal from Junggar Basin,NW China

A series of Monomethyl branched alkanes compounds were detected between nC14-nC36,in immature and low maturity Jurassic humic coal,Junggar basin.2-methyl alkanes and 3-methyl alkanes accounted for the vast majority of the compounds.It is worth noting that the2-methyl alkanes in the humic coal samples show an obvious distribution of even carbon predominances rarely reported in the literature.The results show that with the increase of Pr/Ph(pristane/phytane),the even carbon dominance of 2-methyl alkanes is more obvious,while the odd carbon number distribution of 3-methyl alkanes is weakened.As Pr/Ph increases in the humic coal,the relative content of the hopanes increased,while the relative content of 2-methyl alkanes and 3-methyl alkanes increases first and then decreases.

Contribution of algae and bacteria during humic coal formation in the Taiyuan Formation in the eastern part of North China

The significant differences in properties of humic coal from the Carboniferous TaiyuanFormation and from the Permian Shanxi Formation in North China have acquired a spe-cial interest in recent years. The abnormalities of humic coal from the Taiyuan

Experimental Study on the Method of Extracting Humic Acids from Brown Coal Using Hydrogen Peroxide

[ Objective l The study aimed to discuss the optimal conditions of extracting humic acids from brown coal using hydrogen peroxide （H202）. [ Method] Fulvic acid （FA） was prepared through oxidizing the brown coal from Qujing City, Yunnan Province using H202, and humic acids were extracted from the original brown coal and its residues respectively, then the dominate constituents of humic acids were obtained by using pH grading method, finally their chemical composition of humid acids was characterized by Fourier transform infrared spectrometry and func- tional group content analysis. [Result] The mass ratio of the brown coal and oxidant affected the yield of FA most obviously, followed by oxidization temperature and duration, while oxidant concentration had no obvious effect. The optimum conditions were determined as follows： coal-oxidant ratio was 1 ： 0.60, oxidization temperature was 45 ℃, oxidization duration was 210 min, and the concentration of hydrogen peroxide was 20%. Under the conditions, the yield of FA was up to 20.40%. Analysis of component properties indicated that the content of carboxyl and total acidic groups in FA improved obviously under the optimum conditions, and the content of active functional groups in OHA was higher than that of HA, while the domi- nate constituents of OHA needed higher pH during precipitation compared with those of HA. [ Conclusion] The research could provide a new method to prepare good humic acids using brown coal,

风化煤腐植酸的提取应用研究进展

风化煤含氧量高、发热量低使其失去了作为燃料的价值,作为煤炭资源衍生而来的矿产资源,没有发挥出最大经济价值。但是,风化煤富含腐植酸,可以制备高附加值腐植酸,进而应用于工业、农业等领域。基于风化煤的化学性质和特点,简单介绍了风化煤腐植酸的结构表征方法,对风化煤的预处理方法及碱溶酸析法、催化法、微生物溶解法、絮凝法、序贯溶解法等腐植酸提取方法进行了综述,介绍了风化煤腐植酸的应用研究进展,并提出了风化煤腐植酸提取新工艺的研究方向,为推动风化煤资源的高附加值利用奠定了基础。

煤基与生物基腐植酸配施对土壤结构改良的影响

为探究煤基腐植酸与生物基腐植酸混合对土壤结构的影响并筛选出一种效果最佳的混合比例,本研究采用土壤培养方法,通过将煤基腐植酸与生物基腐植酸按不同质量比设计成复合腐植酸改良半生土,以不施腐植酸为对照(CK),分析培养10、25、50 d时复合腐植酸对土壤团聚体、孔隙度等结构指标的影响。结果显示:土壤各项理化指标整体改良效果表现为50 d>25 d>10 d;土壤团聚体含量、平均质量直径随煤基腐植酸含量增加而增加,单施煤基腐植酸时最佳,培养50 d时土壤团聚体含量较CK组增加116.36%,平均质量直径较CK组增加了21.80%;比较发现,培养10 d时土壤总孔隙度、田间持水量随生物基腐植酸比例增大而增加,容重随之降低,而培养25 d和50 d时,总孔隙度和田间持水量则随煤基腐植酸比例增大而增加,容重随之降低;煤基和生物基腐植酸7∶3组合最佳,50 d时该组合土壤总孔隙度和田间持水量分别较CK组增加10.46%和43.52%,容重降低8.25%。研究表明,煤基腐植酸和生物基腐植酸均可有效改善土壤结构,当混合质量比为7∶3时效果最佳。该混合比例的复合腐植酸可综合生物基腐植酸和煤基腐植酸的优点,有效改善土壤结构,为退化土壤修复提供一定的技术支撑和科学依据。

四种环境材料单施对煤矿区土壤结构和性状的影响研究

为解决煤矿区土地复垦中表层土壤结构差、持水能力低和养分贫瘠等问题,通过土壤培养模拟试验,研究了单施聚丙烯酸钾、黑矾、生化腐植酸和煤基腐植酸等4种材料对土壤改良的效果,并确定了适宜的施用量。结果表明:与对照(CK)相比,4种材料中聚丙烯酸钾能显著降低土壤容重,提高孔隙度和田间持水量,其添加量5 g·kg^(-1)施用7 d时,容重较CK降低了14.02%,孔隙度、田间持水量分别提高了28.31%、54.32%;黑矾能降低土壤pH和速效养分,当添加量5 g·kg^(-1)施用25 d时,pH、有效磷、碱解氮和速效钾较CK分别降低了0.21、30.24%、56.81%、9.77%;两种腐植酸对土壤容重、田间持水量、pH、速效养分均有影响,添加8 g·kg^(-1)生化腐植酸作用25 d时,有效磷和碱解氮较CK提高了15.18%、55.83%,pH降低了0.38,而添加5 g·kg^(-1)煤基腐植酸时,有效磷、碱解氮和速效钾较CK分别提高了12.38%、28.72%、11.47%。研究表明,4种材料能不同程度改善土壤结构、提升水分保持能力、增加速效养分含量。

伊敏褐煤腐植酸结构特征及其分子模型构建

从褐煤中提取腐植酸对于实现褐煤的清洁高效利用具有重要的意义,而探究蒙东地区褐煤腐植酸结构并构建相应的分子模型对于该地区褐煤应用具有广泛的指导作用。采用碱溶酸析法提取蒙东伊敏褐煤的腐植酸,通过采用X射线衍射、^(13)C核磁共振以及X射线光电子能谱等方法对腐植酸的结构特征进行全面表征。结果表明:伊敏褐煤腐植酸中的芳香结构是基础,而脂肪结构主要以交联键以及侧链形式存在;褐煤腐植酸中的芳香团簇尺寸较小,芳香层间距相对较大,且呈现无序排列。根据结构表征相关参数,重构了具有代表性的中国蒙东伊敏褐煤腐植酸分子模型。所构建的伊敏褐煤腐植酸分子结构模型计算数据与实验数据大体吻合,能够充分反映伊敏褐煤腐植酸的化学结构特点。模型中芳香碳结构主要以苯、萘环的形式呈现,少量以菲环形式的存在;脂肪碳主要以较短的侧链和脂肪环形式存在,起到连接芳香基本结构单元的作用。氧元素主要以羧基和酯等O—C=O形式存在,同时还包括一定量的酮、醛、醌、酚、醇以及醚氧,其中羰基C O和醚氧具有交联作用。氮元素则主要以吡咯环的形式存在,并伴有少量的吡啶环和季氮。与西南地区云南褐煤腐植酸结构相比,伊敏褐煤中的芳香碳含量更高且吡咯含氮官能团所占比例也更大,并呈现出一定的地区差异性。

Batch methanogenic fermentation experiments of wastewater from a brown coal low-temperature coke plant

Coke plant effluents with high contents of organic compounds are mainly treated by biological aerobic fermentation after physical pre-treatment. In this study, a brown coal condensate wastewater from a low temperature coking process was fermented under methanogenic conditions in discontinuous experiments. By this fermentation, acetate, propionate, and the main polyphenolic compounds （catechol, resorcinol and hydroquinone） were degraded to a level below the detection limit. The COD was reduced by 72% with a residual concentration of 2.1 g/L. This anaerobic fermented wastewater had a residual BOD5 of 0.66 g/L and 2.2 L CH4 were formed per litre of wastewater. An abiotic pre-treatment for this wastewater with air had a negative effect on the COD reduction and decrease of colour on the methanogenic fermentation due to the autoxidation of polyphenolic compounds to humic-like compounds. This study showed that methanogenic fermentations in the treatment sequence of brown coal coking wastewaters could reduce energy consumption for aeration in further treatment processes and had the potential for a better effluent quality due to a less formation of recalcitrant humic-like compounds.

Pyrite Formation in Organic-rich Clay, Calcitic and Coal-Forming Environments

The early diagenetic characteristics of pyrite formation processes in a Miocene freshwater sequence of mixed sediments （coal fragments in clays, sandstones or shales） alternating with continuous brown coal layers was investigated. Based on abundant minerals, the following main sedimentary environments were distinguished： the illite-montmorillonitic （I-M）, calcitic （Ct） and coal-forming environment （CL）. For these hydrogeochemically differing environments the effects of limiting factors on the pyrite formation process （availability of sulphate and Fe, amount of organic matter and participation of organic sulphur） were assessed by correlation analysis. Significant differences in the effects of these limiting factors in the particular environments were observed. These differences were explained taking in account the different oxidative activity, Fe-complex and surface complex forming properties of humic substances in dependence of pH of environment and the abundance of sorptionally active clay minerals. In environments having a relatively low pH and containing clay minerals （I-M- and CL-environments） the oxidative activity of humic substances （Hs） on pyrite precursors was greatly prevented however pyrite formation depended on reactive Fe availability as the consequence of complex formation. On the contrary, in environments with a relatively high pH, as it was the calcitic, the oxidative activity of Hs was greatly enhanced, thus oxidizing the sulfur precursors of pyrite. The oxidation degree of organic matter was probably also a consequence of the differing activity of the humic electron-acceptors.

煤矸石中腐殖酸的提取

采用冷冻—微波活化法对煤矸石进行预处理,经硝酸预氧化,再用焦磷酸钠和NaOH混合溶液作提取剂从煤矸石中提取腐殖酸。表征了预处理前后煤矸石结构特性的变化,考察了硝酸质量浓度和不同提取剂对腐殖酸产率的影响。表征结果显示,煤矸石经冷冻—微波活化预处理后,比表面积增大,内部孔隙增多,孔道贯通。从煤矸石中提取腐殖酸的最佳工艺过程为:在硝酸与煤矸石质量比为1∶4、处理温度为90℃的条件下,经冷冻—微波活化预处理后的煤矸石用质量分数为10%的硝酸溶液预氧化40 min;再以焦磷酸钠与NaOH质量比为1∶1、总质量分数为10%的混合溶液为提取剂,在提取剂与煤矸石液固比为100 mL/g、提取温度为100℃、提取时间为120 min的条件下,进行腐殖酸提取。煤矸石经上述工艺处理后,腐殖酸产率为36.12%。

萃取剂对碱溶酸析法提取风化煤腐植酸结构的影响

为了研究萃取剂对风化煤腐植酸的结构特性的影响,进而优选最佳萃取剂,实现风化煤腐植酸的高效提取,采用鄂尔多斯风化煤为原料,通过碱溶酸析法提取腐植酸,提取时采用氢氧化钾、氢氧化钠作萃取剂,硫酸、盐酸、硝酸、磷酸酸析,对得到的腐植酸进行产率、纯度、紫外、红外、核磁谱图分析。结果表明,萃取剂对碱溶酸析法提取风化煤腐植酸结构的影响主要表现在官能团含量。且氢氧化钾、氢氧化钠萃取磷酸酸析风化煤腐植酸产率均最高,分别为39.10%、42.70%。

改性煤矸石基沸石对水中腐殖酸的吸附性能

以煤矸石为原料,采用NaOH碱熔水热合成法制备NaX型沸石,并采用阳离子表面活性剂双十二烷基二甲基溴化铵(DDAB)对其进行改性。采用比表面积测试法、X射线衍射仪、扫描电子显微镜和傅里叶变换红外光谱等表征手段对改性沸石(surfactant modified zeolite,SMZ)进行表征分析。选用CCD响应曲面法构建以腐殖酸(humic acid,HA)浓度、初始pH和改性沸石投加量为影响因素,HA去除率为响应值的预测模型,确定最佳吸附条件。结果表明,SMZ表面变得粗糙,DDAB成功负载到沸石外表面。各影响因素对吸附效果的影响顺序依次为:pH>HA浓度>吸附剂投加量。最佳吸附条件下的HA浓度为10mg/L、pH为4.55、改性沸石投加量为5.5g/L,此时对应的HA去除率为88.71%。本研究表明,煤矸石基改性沸石对HA的吸附性能明显提升,对去除水中HA具有潜在的应用价值。

郭家沟富油煤细菌降解产腐殖酸研究

通过单因素实验和正交实验,分别得到荧光假单胞菌和蜡样芽孢杆菌降解郭家沟富油煤提取腐殖酸的最优工艺条件,将最优工艺条件下得到的2种生物腐殖酸与碱性萃取剂法得到的化学腐殖酸利用元素分析、UV-vis、FTIR、XRD及有机质元素检测法进行了对比。研究发现,荧光假单胞菌和蜡样芽孢杆菌在煤浆浓度为0.5 g/50 mL、提取时间14 d时,对煤样腐殖酸的最高提取率分别为32.87%和38.23%;而碱提取法对煤样腐殖酸最高提取率为42.70%。元素分析表明,2种生物腐殖酸与化学腐殖酸相比,H、N及S含量较高,O、C含量较低;UV-vis、FTIR表明2种生物腐殖酸与化学腐殖酸相比分子量较小,芳香度较低;XRD表明2种生物腐殖酸与化学腐殖酸相比芳香层片间距较大,碳层数较少;营养元素分析表明2种生物腐殖酸与化学腐殖酸相比,N、P、K、Ca、Mg的含量远远大于化学腐殖酸。虽然生物腐殖酸的提取率比化学腐殖酸低,但微生物提取具有反应条件温和、清洁无污染、有机质元素含量高等优点。

天宝红沙梁煤矿风化煤腐植酸提取工艺研究

以天宝红沙梁煤矿风化煤为原料并从中提取腐植酸,详细分析了影响萃取率的主要因素,用以确定最佳工艺参数。以腐植酸萃取率为指标,考察了提取剂种类、浓度、浸泡时间、固液比等因素对腐植酸萃取率的影响。研究结果表明,从风化煤中提取游离腐植酸时,选用稀HCl和NaOH效果较好,且当稀HCl浓度为1.70 mol/L、NaOH浓度为1.12 mol/L、稀HCl浸泡时间约4 h、NaOH浸泡时间约11 h、风化煤与稀HCl固液比为2∶25时,为天宝红沙梁煤矿风化煤提取腐植酸的最佳条件。

含煤岩系中煤层的差异沉积响应与油气勘探——以玛湖斜坡区侏罗系八道湾组为例

含煤岩系中不同类型煤层的差异沉积响应,及对邻近砂砾岩成岩成储效应的影响目前研究比较薄弱。基于野外露头、孢粉组合、井—震剖面、岩心相序、测井响应、扫描电镜、电子探针能谱等资料,对研究区稳定厚煤层、局限薄煤层进行了差异沉积响应分析。结果表明,以逆冲断裂I、II为代表的盆缘边界断裂复活及盆地基底的振荡性沉降,为研究区提供了厚层泥炭聚积、宽缓古斜坡背景—广覆式湖侵、阻碍沼泽排水—防止有机质氧化、降低河流梯度—弱化陆源碎屑干扰等四方面有利条件,在近湖盆区首次湖泛面附近形成大面积分布的稳定厚煤层,显微组分指示其成煤沼泽一直保持较佳的滞水还原条件。局限薄煤层分布较零散,具较明显的相控特征,多分布于水动力较弱的扇间/河道间等低能相带,显微组分指示其成煤沼泽存在局部滞水还原条件稍差的半氧化阶段。准同生期—早成岩期,煤系腐殖酸形成早成岩期长石粒内溶孔,溶蚀颗粒成分以富钙斜长石为主。溶蚀产物高岭石胶结物产状以紧贴颗粒的最内部环边为主,纯度高。长石颗粒溶蚀—高岭石充填—压塌缩聚作用形成高岭石完全拟颗粒、高岭石部分拟颗粒,前者纯度高,后者纯度较低。中成岩期,烃源有机酸形成中成岩期长石粒内溶孔,溶蚀组分以钾长石为主,溶蚀残留组分以钠长石为主。溶蚀产物高岭石胶结物产状以颗粒的外层环边或充填粒间孔隙为主,纯度较低。煤系腐殖酸对邻近的砂砾岩储层质量影响以抑制性为主,限定沉积相带、粒度条件下,稳定厚煤层垂向辐射厚度10~30 m,辐射带砂砾岩孔隙度减少2.3%~5.2%,渗透率减小(1.3~2.1)×10^(-3)μm^(2);局限薄煤层垂向辐射厚度3~8 m,辐射带砂砾岩孔隙度减少1.2%~3.5%,渗透率减小(0.8~1.9)×10^(-3)μm^(2)。高刚性颗粒含量是煤系砂砾岩储层原生粒间孔,尤其是准同生期—早成岩期煤系腐殖酸溶孔有效保存的前提条件,高岭石、硅质等溶蚀产物的迁出程度进一步制约着孔隙的有效性。

预处理手段对氧化煤中腐植酸的产率的影响

这是一篇矿物加工工程领域的论文。煤炭资源在开采和储存过程中会形成大量的氧化煤,造成煤炭资源的浪费和环境污染,从氧化煤中提取腐植酸可以达到氧化煤资源高值化利用的目的。为进一步提高氧化煤中腐植酸的含量和利用效率,本文采用H_(2)O_(2)氧化、浓H_(2)SO_(4)氧化以及反浮选三种手段对氧化煤样品进行预处理,考查了其对氧化煤中腐植酸含量的影响并运用傅立叶红外光谱(FTIR)分析了含氧官能团的变化情况。实验结果表明,氧化和反浮选均能提高腐植酸的利用效率,使用H_(2)O_(2)氧化后,煤样中腐植酸含量由21.58%提高到43.62%;通过浓H_(2)SO_(4)氧化后,腐植酸含量达到48.51%,腐植酸提取率达到81.08%。经反浮选处理提取腐植酸,可脱除部分矿物质,腐植酸富集在沉物中,腐植酸提取率也有提高,经氧化处理后提取的腐植酸含氧基团增加,亲水性增强。

矿物源腐殖酸的提纯及其在日用化学品上的应用展望

根据腐殖酸的结构和性质,阐述了从低阶煤中提取腐殖酸的方法。为提高腐殖酸的提取率及腐殖酸的活性,详细介绍了机械活化法、氧化降解法、微生物降解法等原料煤的预处理活化方法。基于棕黑腐殖酸与黄腐酸的溶解性差异,分别总结了棕黑腐殖酸与黄腐酸的纯化方法。概述了高纯度腐殖酸类物质在医药领域的研究和应用及添加高纯度腐殖酸类物质的日用化学品研发情况,并对其应用前景进行了展望。

吐哈盆地侏罗系煤成液态烃生成演化的热模拟实验研究

利用绝对密闭式干热解方法对吐哈盆地侏罗系腐殖煤的液态烃生成演化规律进行了研究。研究结果表明,煤在低成熟阶段(R_0=0.40％～0.65％)的液态烃产率变化幅度较小、地球化学特征也保持未熟—低熟特征;热解物产率曲线在R_0=0.58％～0.59％阶段呈现一个低谷;液态烃大量生成于R_0=0.65％阶段,产率峰值出现于R_0=1.09％阶段。进一步通过热模拟产物Pr/Ph、Pr/nC_(17)、Ph/nCl_(18)及饱/芳值等参数的变化规律、热解物正构烷烃分布特征、热模拟残渣的热解色谱特征,及与典型煤成油进行对比研究.证实了侏罗系煤成液态烃主要生成并排驱于成熟阶段(R_0=0.65％～1.09％)。

腐殖煤气态产物演化特征的模拟实验研究

本文较详细地探讨了成熟阶段腐殖煤在加水热模拟过程中气态产物的演化特征。成熟阶段的煤仍具有相当的生烃潜力，其主要生烃阶段仍以生油为主，生气相对较少。生油高峰之后由于液态产物的大量热裂解才开始进入气态烃的大量生成阶段。由于地质条件下煤中的可溶有机质十分丰富，在高演化阶段由可溶有机质进一步裂解是煤成气的重要来源。非烃主要形成于早期阶段。成熟煤生成的气态烃中甲烷为之主要成分，非烃中Ｈ２为主，其次为ＣＯ２，甲烷的碳同位素值明显低于乙烷，而乙烷和丙烷的碳同位素值差别较小，并且随演化程度的增加各气态组分的碳同位素值差别愈来愈小。

腐殖煤干酪根裂解气主生气成熟度上限探讨

烃源岩主生气成熟度上限的确定对含气盆地天然气资源量评价和主生气阶段的确定具有重要的意义。对不同成熟度的15个腐殖煤样开展了生气热解实验和氢、碳、氧元素含量测定，生气热解实验是在800℃高温下进行，结果表明低成熟度煤总产气率最高，随着成熟度的增加，产气率逐渐降低，在Ro为0．6％～2．3％范围内的煤产气率降低幅度很大，从61m^3／吨·TOC降到11m^3／吨·TOC，在Ro达到2．3％之后煤产气率很低，随着成熟度的增加，产气率缓慢降低。不同成熟度煤的H／C值也呈现相似的变化规律，在Ro〈2．3％的煤中，H／C值随成熟度的增加快速降低，在此之后，H／C值缓慢降低，因此，认为Ro=2．3％为腐殖煤的干酪根裂解气主生气成熟度上限。