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高分子吸附剂净化汽轮机油中微量水分的研究 被引量:3
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作者 张秀玲 冯喜京 +2 位作者 孔淑芳 贾晓鸣 孙晓然 《河北理工学院学报》 2003年第4期134-137,141,共5页
针对汽轮机油中微量水分的净化合成了一种高分子吸附剂,实验研究了高分子吸附剂在水中与在含微量水的油中的吸水性能。研究了去除汽轮机油中微量水分的工艺等。实验结果表明,高分子吸附剂可使汽轮机油中的水分降至0 03%以下。它不但净... 针对汽轮机油中微量水分的净化合成了一种高分子吸附剂,实验研究了高分子吸附剂在水中与在含微量水的油中的吸水性能。研究了去除汽轮机油中微量水分的工艺等。实验结果表明,高分子吸附剂可使汽轮机油中的水分降至0 03%以下。它不但净化效果好,成本低; 展开更多
关键词 高分子吸附剂 汽轮机油 水分净化 吸附机理 抗磨性 防锈性 再生使用
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STUDY ON CARRIER PURIFICATION TECHNOLOGY FOR HYDRAULIC OIL
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作者 张晞 《Journal of China University of Mining and Technology》 1996年第2期69-73,共5页
The surface feature of contaminative oil is analysed and the theory of carrier purification technology for hydraulic oil is put forward. Experiments have been done in laboratory. The main performance of the purified o... The surface feature of contaminative oil is analysed and the theory of carrier purification technology for hydraulic oil is put forward. Experiments have been done in laboratory. The main performance of the purified oil has got to a level of new oil. 展开更多
关键词 hydraulic oil are getting carrier PURIFICATION
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The Soil Moisture and Net Primary Production Affected by CO_2 and Climate Change Using a Coupled Model
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作者 PENG Jing DAN Li 《Atmospheric and Oceanic Science Letters》 CSCD 2014年第4期269-274,共6页
In this paper, a coupled model was used to estimate the responses of soil moisture and net primary production of vegetation(NPP) to increasing atmospheric CO2 concentration and climate change. The analysis uses three ... In this paper, a coupled model was used to estimate the responses of soil moisture and net primary production of vegetation(NPP) to increasing atmospheric CO2 concentration and climate change. The analysis uses three experiments simulated by the second-generation Earth System Model(CanESM2) of the Canadian Centre for Climate Modelling and Analysis(CCCma), which are part of the phase 5 of the Coupled Model Intercomparison Project(CMIP5). The authors focus on the magnitude and evolution of responses in soil moisture and NPP using simulations modeled by CanESM, in which the individual effects of increasing CO2 concentration and climate change and their combined effect are separately accounted for. When considering only the single effect of climate change, the soil moisture and NPP have a linear trend of 0.03 kg m–2 yr–1 and –0.14 gC m–2 yr–2, respectively. However, such a reduction in the global NPP results from the decrease of NPP at lower latitudes and in the Southern Hemisphere, although increased NPP has been shown in high northern latitudes. The largest negative trend is located in the Amazon basin at –1.79 gC m–2 yr–2. For the individual effect of increasing CO2 concentration, both soil moisture and NPP show increases, with an elevated linear trend of 0.02 kg m–2 yr–1 and 0.84 gC m–2 yr–2, respectively. Most regions show an increasing NPP, except Alaska. For the combined effect of increasing atmospheric CO2 and climate change, the increased soil moisture and NPP exhibit a linear trend of 0.04 kg m–2 yr–1 and 0.83 gC m–2 yr–2 at a global scale. In the Amazon basin, the higher reduction in soil moisture is illustrated by the model, with a linear trend of –0.39 kg m–2 yr–1, for the combined effect. Such a change in soil moisture is caused by a weakened Walker circulation simulated by this coupled model, compared with the single effect of increasing CO2 concentration(experiment M2), and a consequence of the reduction in NPP is also shown in this area, with a linear trend of-0.16 gC m-2 yr-2. 展开更多
关键词 increasing atmospheric CO2 climate change soil moisture net orimarv oroduction coupled model
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Recent advances in nanoporous graphene membrane for gas separation and water purification 被引量:8
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作者 Chengzhen Sun Boyao Wen Bofeng Bai 《Science Bulletin》 SCIE EI CAS CSCD 2015年第21期1807-1823,共17页
Graphene is a one-atom-thick sheet of graphite comprising sp2-hybridized carbon atoms arranged in the hexagonal honeycomb lattices. By removing the honeycomb lattices and forming nanopores with specific geometry and s... Graphene is a one-atom-thick sheet of graphite comprising sp2-hybridized carbon atoms arranged in the hexagonal honeycomb lattices. By removing the honeycomb lattices and forming nanopores with specific geometry and size, nanoporous graphene has been demonstrated as a very high-efficiency separation membrane, due to the ultrafast molecular permeation rate for its one-atom thickness. This review focuses on the recent advances in nanoporous graphene membrane for the applications of gas separation and water purification, with a major emphasis on the molecular permeation mechanisms and the advanced fabrication methods of this state-of-the-art membrane. We highlight the advanced theoretical and experimental works and discuss the gas/water molecular transport mechanisms through the graphene nanopores accompanied with theoretical models. In addition, we summarize some representative membrane fabrication methods, covering the graphene transfer to porous substrates and the pore generation. We anticipate that this review can provide a platform for understanding the current challenges to make the conceptual membrane a reality and attracting more and more attentions from scientists and engineers. 展开更多
关键词 Nanoporous graphene Gas separationWater purification Molecular permeationmechanism Membrane fabrication
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Intensive photocatalytic activity enhancement of Bi5O7I via coupling with band structure and content adjustable BiOBrxI1-x 被引量:1
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作者 Xin Li Tiedan Chen +3 位作者 Haili Lin Jing Cao Hongwei Huang Shifu Chen 《Science Bulletin》 SCIE EI CSCD 2018年第4期219-227,共9页
Band structure and component content are the key factors for determining the activity of semiconductor heterojunction. In this study, a novel Bi5O7I/BiOBrxI1-x heterostructure was synthesized by a simple hydrobromic ... Band structure and component content are the key factors for determining the activity of semiconductor heterojunction. In this study, a novel Bi5O7I/BiOBrxI1-x heterostructure was synthesized by a simple hydrobromic (HBr) acid etching method through transforming partial of Bi5O7I to I ion doped BiOBr (BiOBrxI1-x) at room temperature without adding extra dopant. Both the band structure and component content of Bi5O7I/BiOBrxI1-x alter with the additive HBr acid. The Bi5O7I/BiOBrxI1-x (S3.0) sample exhibits the best photocatalytic activity, 6 times higher than that of pure Bis071, for the degradation of methyl orange under visible-light (2 〉 420 nm). The activity enhancement of Bi5O7I/BiOBrxI1-x is primarily ascribed to the improved separation efficiency of photocharges, originated from the adjustable band structure and component content, The significant findings of this paper provide a facile way to construct highly efficient semiconductor heterojunction via playing the synergetic effect of adjustable band struc- ture and component content for purifying organic pollutants in wastewater. 展开更多
关键词 Bi5O7I/BiOBrxI1-xBand structureComponent contentPhotocatalytic activity
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