Petroleum, Coal Tar, and Related Products

R. Niemeier
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B[a]P may account for more than 75% of the carcinogenic activity of coal tar pitch fume condensate. Individuals who work in tarring facilities, roofing operations, power plants, and asphalt and coke manufacturing facilities may be exposed to benzo[a]pyrene and related PAHs. These mixtures may differ qualitatively and quantitatively. \n \n \n \nCoal tar is completely or nearly completely soluble in benzene and nitrobenzene and it is partially soluble in acetone, carbon disulfide, chloroform, diethyl ether, ethanol, methanol, petroleum ether, hexane, and sodium hydroxide solution, and slightly soluble in water. It has a characteristic naphthalene-like odor. Coal tar is heavier than water and on ignition it burns with a reddish, luminous, and very sooty flame. Coal tar fumes are highly flammable and are easily ignited by heat, sparks, or flames. Vapors are heavier than air. They may travel to a source of ignition and flash back and may form explosive mixtures with air. Vapors will spread along ground and collect in low or confined areas (sewers, basements, tanks). Vapor explosion is a potential hazard indoors, outdoors, or in sewers. Some may polymerize explosively when heated or involved in a fire. Runoff to a sewer may create a fire or explosion hazard. Containers may explode when heated. Coal tar may be transported hot. \n \n \n \nThe greatest complexity occurs when toxicity is based on the effects of a class of compounds or of a material of a certain physical description. Some polynuclear aromatic hydrocarbons (PNAs) and polycyclic aromatic hydrocarbons (PAHs) are carcinogens of varying potency, and they usually exist in mixtures with other PNAs/PAHs and with compounds (activators, promoters, and inhibitors) that modify their activity. Analysis of each individual compound is very difficult and when done does not yield a clear answer. Given the complexity of the mixture of biologically active agents and their interactions, a calculated equivalent dose would have little accuracy. In these instances, it is common to measure some quantity related to the active agents and to base the occupational exposure limit on that index. An occupational exposure limit for PNAs has been based on the total weight of benzene- or hexane-soluble airborne material. This limit may be appropriate for coal tar pitch volatiles (CTPV) for which it was developed, but it may not work for other PNA/PAH containing materials. Crude oil, asphalt fumes, and cracked petroleum stocks may contain PNA/PAH. The coal dust particles mixed in with coal tar pitch volatiles are not soluble in benzene, but almost all of the petroleum-derived materials admixed with PNAs/PAHs are soluble in benzene. \n \n \n \nSome of the highest measured levels of coal tar pitch volatiles have occurred in the aluminum reduction industry, especially in the Soderberg process pot rooms. \n \n \n \nThe problem of differentiating the several classes of compounds in a mixed atmosphere such as coal tar pitch volatiles adds complexity to sampling method selection, and it is sometimes necessary to make, and clearly state alongside the results, certain simplifying assumptions. It is commonly assumed when measuring the more toxic soluble form of an element that the “safe” assumption may be made that the entire element present was soluble. \n \n \n \nIn a study of bioremediation effectiveness, the ability of indigenous soil microorganisms to remove these contaminants from aqueous solutions was determined by GC analysis of organic extracts of biotreated groundwater. Changes in potential environmental and human health hazards associated with the biodegradation of this material were determined at intervals by “Microtox” assays and fish toxicity and teratogenicity tests. \n \n \nKeywords: \n \nAlkanes; \nasphalt; \ncoal tar; \ncoal tar pitch; \ncrude oil; \ndiesel fuel; \ngasoline; \nguidelines; \nheating oil; \njet fuel; \nliquefied gas; \nmedicinal products; \nnatural gas; \noccupations; \noils; \npetroleum distillates; \nproduction; \nprocesses; \nregulations; \ntar distillation; \nthinners; \ntoxic effects; \nuse; \nU.S. exposure limits; \nwaxes","PeriodicalId":19820,"journal":{"name":"Patty's Toxicology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2012-08-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Patty's Toxicology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1002/0471435139.TOX022.PUB2","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 2

Abstract

The chemical composition of coal tar, coal tar pitch, and related materials is complex and variable. The estimated number of compounds present in these complex mixtures is in thousands. Because of variation in source materials and manufacturing processes, including different temperatures and times of carbonization, no two coal tars or pitches are chemically identical, and their toxicity may differ with their origin. In general, however, approximately 80% of the total carbon present in coal tars exists in aromatic form. Benzo[a]pyrene (B[a]P) is probably the most potent, widespread occupational carcinogen in coal tar, coal tar pitch and its volatiles, coke oven emissions, and creosote, all of which have corresponding work exposure standards; however, there is no occupational workplace standard for B[a]P in the United States. B[a]P may account for more than 75% of the carcinogenic activity of coal tar pitch fume condensate. Individuals who work in tarring facilities, roofing operations, power plants, and asphalt and coke manufacturing facilities may be exposed to benzo[a]pyrene and related PAHs. These mixtures may differ qualitatively and quantitatively. Coal tar is completely or nearly completely soluble in benzene and nitrobenzene and it is partially soluble in acetone, carbon disulfide, chloroform, diethyl ether, ethanol, methanol, petroleum ether, hexane, and sodium hydroxide solution, and slightly soluble in water. It has a characteristic naphthalene-like odor. Coal tar is heavier than water and on ignition it burns with a reddish, luminous, and very sooty flame. Coal tar fumes are highly flammable and are easily ignited by heat, sparks, or flames. Vapors are heavier than air. They may travel to a source of ignition and flash back and may form explosive mixtures with air. Vapors will spread along ground and collect in low or confined areas (sewers, basements, tanks). Vapor explosion is a potential hazard indoors, outdoors, or in sewers. Some may polymerize explosively when heated or involved in a fire. Runoff to a sewer may create a fire or explosion hazard. Containers may explode when heated. Coal tar may be transported hot. The greatest complexity occurs when toxicity is based on the effects of a class of compounds or of a material of a certain physical description. Some polynuclear aromatic hydrocarbons (PNAs) and polycyclic aromatic hydrocarbons (PAHs) are carcinogens of varying potency, and they usually exist in mixtures with other PNAs/PAHs and with compounds (activators, promoters, and inhibitors) that modify their activity. Analysis of each individual compound is very difficult and when done does not yield a clear answer. Given the complexity of the mixture of biologically active agents and their interactions, a calculated equivalent dose would have little accuracy. In these instances, it is common to measure some quantity related to the active agents and to base the occupational exposure limit on that index. An occupational exposure limit for PNAs has been based on the total weight of benzene- or hexane-soluble airborne material. This limit may be appropriate for coal tar pitch volatiles (CTPV) for which it was developed, but it may not work for other PNA/PAH containing materials. Crude oil, asphalt fumes, and cracked petroleum stocks may contain PNA/PAH. The coal dust particles mixed in with coal tar pitch volatiles are not soluble in benzene, but almost all of the petroleum-derived materials admixed with PNAs/PAHs are soluble in benzene. Some of the highest measured levels of coal tar pitch volatiles have occurred in the aluminum reduction industry, especially in the Soderberg process pot rooms. The problem of differentiating the several classes of compounds in a mixed atmosphere such as coal tar pitch volatiles adds complexity to sampling method selection, and it is sometimes necessary to make, and clearly state alongside the results, certain simplifying assumptions. It is commonly assumed when measuring the more toxic soluble form of an element that the “safe” assumption may be made that the entire element present was soluble. In a study of bioremediation effectiveness, the ability of indigenous soil microorganisms to remove these contaminants from aqueous solutions was determined by GC analysis of organic extracts of biotreated groundwater. Changes in potential environmental and human health hazards associated with the biodegradation of this material were determined at intervals by “Microtox” assays and fish toxicity and teratogenicity tests. Keywords: Alkanes; asphalt; coal tar; coal tar pitch; crude oil; diesel fuel; gasoline; guidelines; heating oil; jet fuel; liquefied gas; medicinal products; natural gas; occupations; oils; petroleum distillates; production; processes; regulations; tar distillation; thinners; toxic effects; use; U.S. exposure limits; waxes
采购产品石油,煤焦油和相关产品
煤焦油、煤焦油沥青及相关材料的化学成分复杂多变。在这些复杂混合物中存在的化合物估计有数千种。由于原料和制造工艺的差异,包括不同的温度和碳化时间,没有两种煤焦油或沥青的化学成分是相同的,它们的毒性可能因其来源而异。然而,一般来说,煤焦油中大约80%的碳以芳香形式存在。苯并[a]芘(B[a]P)可能是煤焦油、煤焦油沥青及其挥发物、焦炉排放物和杂酚油中最有效、最广泛的职业致癌物,所有这些都有相应的工作接触标准;然而,美国并没有针对B[a]P的职业工作场所标准。B[a]P可能占煤焦油沥青烟冷凝物致癌性的75%以上。在沥青设施、屋顶作业、发电厂以及沥青和焦炭生产设施工作的个人可能会接触到苯并[a]芘和相关的多环芳烃。这些混合物在质量和数量上可能不同。煤焦油完全或几乎完全溶于苯和硝基苯,部分溶于丙酮、二硫化碳、氯仿、乙醚、乙醇、甲醇、石油醚、己烷和氢氧化钠溶液,微溶于水。它有一种典型的类似萘的气味。煤焦油比水重,点燃后燃烧时发出红色的、明亮的、烟熏的火焰。煤焦油烟雾是高度易燃的,很容易被热、火花或火焰点燃。蒸气比空气重。它们可能到达点火源并回弹,并可能与空气形成爆炸性混合物。蒸汽会沿地面扩散,并聚集在低矮或密闭的地方(下水道、地下室、水箱)。蒸汽爆炸在室内、室外或下水道都是一种潜在的危险。有些在加热或起火时会发生爆炸性聚合。流入下水道可能产生火灾或爆炸危险。容器受热时可能爆炸。煤焦油可以热运输。当毒性是基于一类化合物或具有某种物理性质的材料的作用时,就会出现最复杂的情况。一些多核芳烃(PNAs)和多环芳烃(PAHs)是不同效力的致癌物,它们通常与其他PNAs/PAHs以及与改变其活性的化合物(激活剂、启动剂和抑制剂)混合存在。分析每一个单独的化合物是非常困难的,即使完成了也不能得到一个明确的答案。考虑到生物活性制剂混合物及其相互作用的复杂性,计算出的等效剂量几乎不准确。在这些情况下,通常测量一些与活性剂有关的量,并根据该指数确定职业暴露限值。PNAs的职业暴露限值是基于苯或己烷可溶性空气传播物质的总重量。该限值可能适用于煤焦油沥青挥发物(CTPV),但它可能不适用于其他含PNA/PAH的材料。原油、沥青油烟和裂解的石油原料可能含有PNA/PAH。煤焦油沥青挥发物中混合的煤尘颗粒不溶于苯,而与PNAs/PAHs混合的石油衍生物质几乎都溶于苯。一些最高水平的煤沥青挥发物已经发生在铝还原行业,特别是在索德伯格工艺锅室。在混合大气中区分几类化合物(如煤焦油沥青挥发物)的问题增加了采样方法选择的复杂性,有时有必要做出某些简化假设,并在结果旁边清楚地说明。在测量一种元素的毒性更强的可溶形式时,通常假设可以做出“安全”的假设,即存在的整个元素都是可溶的。在一项生物修复效果的研究中,通过气相色谱分析生物处理过的地下水的有机提取物,确定了本地土壤微生物从水溶液中去除这些污染物的能力。通过" Microtox "试验和鱼类毒性和致畸性试验,每隔一段时间确定与这种材料的生物降解有关的潜在环境和人类健康危害的变化。关键词:烷烃;沥青;煤焦油;煤焦油沥青;原油;柴油;汽油;指导方针;燃料油;喷气燃料;液化气体;医药产品;天然气;职业;油;石油馏分油;生产;流程;法规;焦油蒸馏;稀释剂;毒性作用;使用;美国暴露限值;蜡
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