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美国的甲基异丁基酮和甲基异丁基醇
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作者 万大明 《南化科技信息》 1995年第2期22-28,共7页
关键词 甲基丁基 甲基异丁基醇
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双丙酮醇脱水加氢催化剂的研究 被引量:1
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作者 刘佳 慎炼 《化工时刊》 CAS 2016年第1期5-8,共4页
浸渍法制备Ni-Al_2O_3催化剂,催化双丙酮醇脱水加氢合成甲基异丁基酮和甲基异丁基醇,通过TEM和BET等方法表征催化剂。探讨了载体中ZrO_2含量,以及反应温度,进料量等工艺条件对反应结果的影响。实验结果表明:在载体中复合ZrO_2的成分,可... 浸渍法制备Ni-Al_2O_3催化剂,催化双丙酮醇脱水加氢合成甲基异丁基酮和甲基异丁基醇,通过TEM和BET等方法表征催化剂。探讨了载体中ZrO_2含量,以及反应温度,进料量等工艺条件对反应结果的影响。实验结果表明:在载体中复合ZrO_2的成分,可以促进催化剂的脱水能力,同时加强催化剂的加氢能力,但也会造成高沸点副产物的增加。 展开更多
关键词 浸渍法 双丙酮 甲基丁基 甲基异丁基醇
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MIBK加氢制MIBC热力学研究 被引量:2
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作者 祁文博 艾抚宾 +2 位作者 乔凯 袁毅 彭绍忠 《天然气化工—C1化学与化工》 CAS CSCD 北大核心 2019年第2期95-99,共5页
计算了MIBK加氢制MIBC气相及液相反应的标准摩尔生成焓及反应温度范围内的平衡常数。计算结果表明,反应平衡常数随反应温度的升高而减小,较低的反应温度有利于反应的进行。此外,研究了反应温度、压力及氢酮比对反应平衡转化率的影响,确... 计算了MIBK加氢制MIBC气相及液相反应的标准摩尔生成焓及反应温度范围内的平衡常数。计算结果表明,反应平衡常数随反应温度的升高而减小,较低的反应温度有利于反应的进行。此外,研究了反应温度、压力及氢酮比对反应平衡转化率的影响,确定出MIBK加氢制MIBC适宜的反应条件为:反应温度≯240℃,反应压力≮3.5MPa,氢酮比≮2。为该技术的工艺条件设计提供了理论依据。 展开更多
关键词 MIBK 甲基丁基 加氢 MIBC 甲基异丁基醇 热力学
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Recovery of Sillimanite from Beach Sands--An Operator's Nightmare?
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作者 Chivukula Venkata Gopala Krishna Murty Leon Rademeyer +3 位作者 Natarajan JaiSankar Patruni Bhavya Manjeera Prasana-sampath Challa Venkata Ramachandra Murthy 《Journal of Earth Science and Engineering》 2013年第4期270-281,共12页
Sillimanite, chemically named aluminum silicate, 3Al2O3SiO2 is one of the three forms of alumino silicate polymorphs and commonly encountered in aluminous metamorphic, plutonic and volcanic rocks and their weathering ... Sillimanite, chemically named aluminum silicate, 3Al2O3SiO2 is one of the three forms of alumino silicate polymorphs and commonly encountered in aluminous metamorphic, plutonic and volcanic rocks and their weathering products. Traditionally in India, sillimanite is upgraded by froth floatation technique using oleic acid as a collector cum frother, sodium silicate as depressant and soda ash as pH regulator. At TSPL (Trimex Sands Pvt Ltd), conventional mechanical float cells are installed to float sillimanite. In addition to the usual problems associated with conventional cells, poor flow ability of the sillimanite concentrate is experienced in dry circuit due to the presence of sodium oleate. Fine garnet in the sillimanite concentrate contributes to high iron content in the final product, making sillimanite separation a nightmare for operators (lower recoveries coupled with inferior grades). Various efforts were made to improve the performance of the circuit such as introduction of additional frother like MIBC (methyl ISO butyl carbinol), optimizing the operating parameters such as pulp density, collector dosage, depressant dosage, air flow rate, pH etc., use of collector aids, stage wise addition of reagents etc.. The challenges faced to produce a sillimanite product with stringent quality norms and the efforts made to improve the grade and recovery are described in this paper. 展开更多
关键词 SILLIMANITE froth flotation conventional mechanical cell.
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Effect of polyamide on selectivity of its supported Raney Ni catalyst 被引量:1
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作者 Haibin Jiang Shuliang Lu +4 位作者 Xiaohong Zhang Baoliang Tian Hui Peng Wei Dai Jinliang Qiao 《Science China Chemistry》 SCIE EI CAS CSCD 2016年第6期776-780,共5页
A newly-developed polyamide supported Raney Ni catalyst, which is suitable for use in fix-bed reactions with high selectivity, was studied in this paper. Selective hydrogenation of acetone to isopropanol was chosen as... A newly-developed polyamide supported Raney Ni catalyst, which is suitable for use in fix-bed reactions with high selectivity, was studied in this paper. Selective hydrogenation of acetone to isopropanol was chosen as a probe reaction. It has been found that clean preparation of isopropanol could be achieved, that is to say, the two main byproducts(isopropyl ether and methyl-iso-butyl carbinol) could be eliminated with the newly-developed polyamide supported Raney Ni catalyst. The elimination of these side reactions was attributed to the adsorption effect of polyamide support and a model was proposed. The proposed model was further proved by hydroamination reaction of acetone. According to this model, catalyst support can play an important role in chemical reactions. Different products could be produced when different catalyst support is used, the main reaction and side reactions can even be reversed sometimes when the chemicals, active component of catalyst and reaction condition are the same. This model could help to improve catalytic selectivity of many Raney metal catalysts used routinely in chemical and oil refining industry, and is also useful for hydrogenation reactions in pharmaceutical and food industry. 展开更多
关键词 POLYAMIDE Raney Ni ACETONE
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