Inorganic Chemicals Industry >
Determination of rhodium for catalyst solution of 2-Propylheptanol
Received date: 2024-01-15
Online published: 2024-09-26
Using a mixture of butene and synthesis gas(H2/CO) as raw materials,rhodium/diphosphine ligand was used as a catalyst to generate the intermediate product valeraldehyde through carbonylation reaction.The valeraldehyde is then condensed and hydrogenated to produce the environmentally friendly plasticizer alcohol 2-propylheptanol.This process had the characteristics of low concentration of precious metal rhodium,high aspect ratio of the product,fast reaction,and mild conditions.However,the rhodium concentration in the reaction solution was an important factor affecting the low-pressure carbonylation synthesis reaction.By establishing a method for treating the reaction solution of 2-propylheptanol containing rhodium catalyst and determining the rhodium content in it,the reaction conditions for separating rhodium by extraction method were studied.The rhodium content determination methods under different extraction conditions were compared,and compared with the traditional digestion method and atomic absorption method for directly determining rhodium in organic liquids.The method had the characteristics of mild reaction conditions,convenient processing,and good reproducibility.The results showed that at 80 ℃,5.000 0 g of rhodium containing waste liquid treated with 10.0 mL of nitric acid(1+4),10.0 mL of hydrogen peroxide aqueous solution(H2O2 mass fraction of 30%),and 4.0 mL of toluene for 1 hour,after separation,the rhodium was extracted and separated,and the rhodium was transferred from the oil phase to the water phase.After reaching a constant volume,the rhodium content in the water phase was determined by ICP-AES,with a relative standard deviation(RSD,n=6) of 0.6% and standard recovery rates ranging from 96.80% to 101.19%.
WANG Yong , LI Jixia , ZHANG Guisheng , WANG Pengfei , WANG Benlei . Determination of rhodium for catalyst solution of 2-Propylheptanol[J]. Inorganic Chemicals Industry, 2024 , 56(9) : 142 -146 . DOI: 10.19964/j.issn.1006-4990.2024-0053
| 1 | 颜文革.煤化工C4生产2-丙基庚醇的优势[J].内蒙古石油化工,2013,39(24):41-44. |
| YAN Wenge.Advantages of producing 2- propyl heptanol from C4 of coal chemical industry[J].Inner Mongolia Petrochemical Industry,2013,39(24):41-44. | |
| 2 | 蒋志魁.2-丙基庚醇生产过程中的产品质量控制[J].中国化工贸易,2018(27):253-256. |
| JIANG Zhikui.Control of product quality for 2-PH[J].China chemical trade,2018(27):253-256. | |
| 3 | 王鹏飞,蒋凌云,李晨,等.丁辛醇合成催化剂制备及工业侧线研究[J].无机盐工业,2021,53(5):105-110. |
| WANG Pengfei, JIANG Lingyun, LI Chen,et al.Stndy on preparation and industrial side line experiment of catalyst in synthesis of butyl octanol[J].Inorganic Chemicals Industry,2021,53(5):105- 110. | |
| 4 | 刘新玲.铑催化剂对羰基合成丁醛的影响[J].化工设计通讯,2022,48(6):95-97,123. |
| LIU Xinling.Effect of rhodium catalyst on oxylation of butyraldehyde[J].Chemical Engineering Design Communications,2022,48(6):95-97,123. | |
| 5 | 邱丽,古行乾,郑弦,等.电感耦合等离子体原子发射光谱法测定丁辛醇生产工艺催化剂废液中铑[J].理化检验-化学分册,2021,57(1):81-83. |
| QIU Li, GU Xingqian, ZHENG Xuan,et al.Determination of rhodium in waste produced by catalyst used in production process of butanol octanol by inductively coupled plasma emission spectrometry[J].Physical Testing and Chemical Analysis[Part B(Chemical Analysis)],2021,57(1):81-83. | |
| 6 | BARNES R L.Process for recovery of rhodium values:US,4364907[P].1982-12-21. |
| 7 | 魏小娟,刘秋香,潘剑明,等.氢气还原法测定三碘化铑中铑含量[J].浙江冶金,2012(1):19-20. |
| WEI Xiaojuan, LIU Qiuxiang, PAN Jianming,et al.氢气还原法测定三碘化铑中铑含量[J].1,2012(1):19-20. | |
| 8 | 李光凤,王东.重量法测定三碘化铑中铑的含量[J].科技传播,2013,5(11):131,115. |
| LI Guangfeng, WANG Dong.Determination of rhodium in rhodium triiodide by gravimetry[J].Public Communication of Science & Technology,2013,5(11):131,115. | |
| 9 | 相亚波,丁国栋,郁丰善.水合肼还原纯三氯化铑制备铑粉的工艺研究[J].中国资源综合利用,2021,39(2):1-2,13. |
| XIANG Yabo, DING Guodong, YU Fengshan.Study of preparation technology on rhodium powder by reduction of rhodium(Ⅲ) chloride with hydrazine hydrate[J].China Resources Comprehensive Utilization,2021,39(2):1-2,13. | |
| 10 | 王应进,李秋莹,李玉萍,等.电感耦合等离子体原子发射光谱法测定辛酸铑催化剂中铂钯铅铁铜铝镍[J].冶金分析,2019,39(6):24-28. |
| WANG Yingjin, LI Qiuying, LI Yuping,et al.Determination of platinum,palladium,lead,iron,copper,aluminum,nickel in rhodium octanoate dimer catalyst by inductively coupled plasma atomic emission spectrometry[J].Metallurgical Analysis,2019,39(6):24-28. | |
| 11 | 李继霞,于海斌,李晨,等.丙烯低压羰基合成用废铑催化剂中回收铑及三氯化铑提纯[J].贵金属,2011,32(2):47-51. |
| LI Jixia, YU Haibin, LI Chen,et al.Rhodium recovery from waste rhodium catalyst solution of propylene oxo reaction and rhodium chloride purification[J].Precious Metals,2011,32(2):47-51. | |
| 12 | 王本雷,张桂生,蒋凌云,等.羰基合成废铑液焙烧回收铑制备三氯化铑工艺研究[J].无机盐工业,2023,55(6):104-108. |
| WANG Benlei, ZHANG Guisheng, JIANG Lingyun,et al.Study on preparation process of rhodium trichloride by roasting recovery technology from waste rhodium solution of carbonyl synthes-is[J].Inorganic Chemicals Industry,2023,55(6):104-108. | |
| 13 | 刘伟,刘文,张玉德,等.湿法消解-ICP-AES内标法测定铑派克废料中的铑[J].贵金属,2022,43(1):71-75. |
| LIU Wei, LIU Wen, ZHANG Yude,et al.Determination of rhodium in rhdium parker waste by wet digestion-ICP-AES internal standard method[J].Precious Metals,2022,43(1):71-75. |
/
| 〈 |
|
〉 |