探讨大容量油浸式变压器在现场组装过程中的防潮问题。以某500 k V变电站三相一体式变压器为例,对煤油气相干燥技术进行分析说明,结合露点法和萃取法的特点,选择出水率、变压器器身温度和绝缘纸/板含水量等3个参数为依据,提出煤油气相...探讨大容量油浸式变压器在现场组装过程中的防潮问题。以某500 k V变电站三相一体式变压器为例,对煤油气相干燥技术进行分析说明,结合露点法和萃取法的特点,选择出水率、变压器器身温度和绝缘纸/板含水量等3个参数为依据,提出煤油气相干燥终点的综合判断方法,以达到提高大容量变压器绝缘材料的干燥质量和效率的目的。分析大容量变压器在附件组装和真空注油两个组装关键环节中应注意的防潮处理问题,对作业方法和工艺进行优化,有效防止大容量变压器在现场组装过程中受环境和天气影响而受潮。展开更多
The distillation range analysis and elemental analysis of fractioned direct liquefied oil were conducted. Each fraction of liquefied oil contains some nitrogen compounds. Using the acid extraction method and gas chrom...The distillation range analysis and elemental analysis of fractioned direct liquefied oil were conducted. Each fraction of liquefied oil contains some nitrogen compounds. Using the acid extraction method and gas chromatography/mass spectrometry (GC-MS), the basic nitrogen compounds have been separated and identified. Compared with the nitrogen content of the liquefied oil before and after separation, the basic nitrogen compounds account for more than half of all nitrogen compounds. The basic nitrogen compounds in the light liquefied oil are easily separated, and contain more types of basic nitrogen compounds. The results also show that there are many basic nitrogen compounds in liquefied oil, such as pyrrole, aniline, pyridine, quinoline and so on. However, there are fewer other types of basic nitrogen compounds.展开更多
A high-temperature coal tar collected from Xuzhou Coking Plant, Saint-Gobain Pipelines (Xuzhou) Co., Ltd. was exhaustively extracted with petroleum ether (PE). The extract was sequentially eluted through silica ge...A high-temperature coal tar collected from Xuzhou Coking Plant, Saint-Gobain Pipelines (Xuzhou) Co., Ltd. was exhaustively extracted with petroleum ether (PE). The extract was sequentially eluted through silica gel with PE and PE/ethyl acetate (EA) mixed solvents (volume ratio 2:1 ) to afford two eluted frac- tions. The extract and eluted fractions were analyzed with gas chromatography/mass spectrometry. In total, 14 arenols were detected, including phenol, cresols, xylenols, fluorenols, phenanthren-3-ol and pyren-l-ol.展开更多
Four different groups of components were separated from coal under mild conditions of extraction and stripping process. Within these groups, and with pre-separation, individual utilization of all coal components can b...Four different groups of components were separated from coal under mild conditions of extraction and stripping process. Within these groups, and with pre-separation, individual utilization of all coal components can be realized, similar to petroleum components and enhance the inherent value and utilization value of coal, as well as increase environmental benefits. The characteristics of each component were analyzed with measurements by FTIR, GC/MS, TEM and the establishment of caking properties. The results show that coal can be separated into residues, ultra-pure coal, asphaltene components and light components by adding solvents for stripping into the CS2/NMP mixed extraction solution. Those four groups of components present great differences in the presence of carbon and hydrogen elements, in the structure of functional groups, in their macroscopic structure and micro-morphology and caking properties. Every component possesses its own inherent values and approaches. A new idea of coal processes and utilization, similar to the use of petroleum is proposed.展开更多
High-temperature coal tar was extracted with petroleum ether (PE) under ultrasonic irradiation and the extracts were analyzed with gas chromatograph/mass spectrometer. The acearylene fractions including acenaphthyle...High-temperature coal tar was extracted with petroleum ether (PE) under ultrasonic irradiation and the extracts were analyzed with gas chromatograph/mass spectrometer. The acearylene fractions including acenaphthylene, aceanthrylene and cyclopentapyrene were enriched together and named E, which was then transferred to a car- tridge in Isolera-One flash chromatography. Three groups of compounds were eluted out with ethyl acetate/PE mixed solvent (volume ratio 1:9) and named E1, E2 and E3 according to their main components. Acenaphthylene accounted for 78.2% in El, aceanthrylene 71.6% in E2 and cyclopentapyrene 75.9% in E3, respectively. The three groups of acearylenes were purified by Sephadex LH-20 column chromatography with ethanol/cyclohexane mixed solvent (vol- ume ratio 1:4), and then confirmed with nuclear magnetic resonance spectrometer. This method indicates that flash chromatography has a good effect on separating the compounds with a similar structnre after extraction under ultrasonic irradiation.展开更多
文摘探讨大容量油浸式变压器在现场组装过程中的防潮问题。以某500 k V变电站三相一体式变压器为例,对煤油气相干燥技术进行分析说明,结合露点法和萃取法的特点,选择出水率、变压器器身温度和绝缘纸/板含水量等3个参数为依据,提出煤油气相干燥终点的综合判断方法,以达到提高大容量变压器绝缘材料的干燥质量和效率的目的。分析大容量变压器在附件组装和真空注油两个组装关键环节中应注意的防潮处理问题,对作业方法和工艺进行优化,有效防止大容量变压器在现场组装过程中受环境和天气影响而受潮。
文摘The distillation range analysis and elemental analysis of fractioned direct liquefied oil were conducted. Each fraction of liquefied oil contains some nitrogen compounds. Using the acid extraction method and gas chromatography/mass spectrometry (GC-MS), the basic nitrogen compounds have been separated and identified. Compared with the nitrogen content of the liquefied oil before and after separation, the basic nitrogen compounds account for more than half of all nitrogen compounds. The basic nitrogen compounds in the light liquefied oil are easily separated, and contain more types of basic nitrogen compounds. The results also show that there are many basic nitrogen compounds in liquefied oil, such as pyrrole, aniline, pyridine, quinoline and so on. However, there are fewer other types of basic nitrogen compounds.
基金subsidized by the Fund from the Natural Science Foundation of China for Innovative Research Group (Grant50921002)the Priority Academic Program Development of Jiangsu Higher Education Institutions
文摘A high-temperature coal tar collected from Xuzhou Coking Plant, Saint-Gobain Pipelines (Xuzhou) Co., Ltd. was exhaustively extracted with petroleum ether (PE). The extract was sequentially eluted through silica gel with PE and PE/ethyl acetate (EA) mixed solvents (volume ratio 2:1 ) to afford two eluted frac- tions. The extract and eluted fractions were analyzed with gas chromatography/mass spectrometry. In total, 14 arenols were detected, including phenol, cresols, xylenols, fluorenols, phenanthren-3-ol and pyren-l-ol.
基金Projects 50474066 and 50874108 supported by the National Natural Science Foundation of Chinathe Scientific Research Key Project Fund of the Ministry of Education (107055)+1 种基金the Jiangsu Natural Science Foundation (BK2007038)the Open Fund of Key Laboratory of the Education Ministry of Coal Process and Clean Utilization (CPEUKF06-03, CPEUKF08-06) for their financial support
文摘Four different groups of components were separated from coal under mild conditions of extraction and stripping process. Within these groups, and with pre-separation, individual utilization of all coal components can be realized, similar to petroleum components and enhance the inherent value and utilization value of coal, as well as increase environmental benefits. The characteristics of each component were analyzed with measurements by FTIR, GC/MS, TEM and the establishment of caking properties. The results show that coal can be separated into residues, ultra-pure coal, asphaltene components and light components by adding solvents for stripping into the CS2/NMP mixed extraction solution. Those four groups of components present great differences in the presence of carbon and hydrogen elements, in the structure of functional groups, in their macroscopic structure and micro-morphology and caking properties. Every component possesses its own inherent values and approaches. A new idea of coal processes and utilization, similar to the use of petroleum is proposed.
基金Supported by National Natural Science Foundation of China for Innovative Research Group(No.50921002)the Program of the Universities in Jiangsu Province for Development of High-Tech Industries(No.JHB05-33)the Fundamental Research Funds for the Central Universities (China University of Mining and Technology,No.2010ZDP02B03)
文摘High-temperature coal tar was extracted with petroleum ether (PE) under ultrasonic irradiation and the extracts were analyzed with gas chromatograph/mass spectrometer. The acearylene fractions including acenaphthylene, aceanthrylene and cyclopentapyrene were enriched together and named E, which was then transferred to a car- tridge in Isolera-One flash chromatography. Three groups of compounds were eluted out with ethyl acetate/PE mixed solvent (volume ratio 1:9) and named E1, E2 and E3 according to their main components. Acenaphthylene accounted for 78.2% in El, aceanthrylene 71.6% in E2 and cyclopentapyrene 75.9% in E3, respectively. The three groups of acearylenes were purified by Sephadex LH-20 column chromatography with ethanol/cyclohexane mixed solvent (vol- ume ratio 1:4), and then confirmed with nuclear magnetic resonance spectrometer. This method indicates that flash chromatography has a good effect on separating the compounds with a similar structnre after extraction under ultrasonic irradiation.
