Synthesis of Chemical Precursors via the Catalytic Hydrogenation of 2-Chloropropene

IF 0.6 4区工程技术 Q4 ENERGY & FUELS

Journal of The Japan Petroleum Institute Pub Date : 2021-07-01 DOI:10.1627/JPI.64.211

S. Sugiyama, Shino Endo, Teppei Moroyama, Yuka Hiwada, N. Shimoda

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引用次数: 0

Abstract

Allyl chloride, which is a cross-linking agent for synthetic resins and a synthetic intermediate that is used as an alkylating agent for pharmaceuticals, is often utilized and synthesized at production sites related organochlorides. In the synthesis process of allyl chloride, however, 2-chloropropene (2-PEN) is produced as the by-product and that is a problem because it essentially has no practical use. In this study, it was investigated about the hydrogenation of 2-PEN to 2-chloropropane (2-PAN) and propylene, which are precursors for various chemical products. The commercially available palladium catalysts such as OleMax 201, OleMax 301, OleMax 600, and HyFlex 500 were used for 2-PEN hydrogenation. The maximum yield of 2-PAN (10.6 %) was detected at 348 K, P(H2) = 13.5 kPa and P(2-PEN) = 8.8 kPa, on OleMax 600 (0.5 g), while the maximum yield of propylene (26.0 %) was realized under the same reaction conditions, with the exception of using at P(H2) = 7.9 kPa on HyFlex 500 (0.5 g). The selective formation of propylene such as 8.9, 100, and 8.9 % for the conversion of 2-PEN, the selectivity of propylene, and the yield of propylene, respectively, was realized on OleMax 201. The selective formation of 2-PAN, however, was not observed on all catalysts. Palladium loading strongly influenced the catalytic activity, but had none on either the specific surface area, or basic and acidic properties.

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2-氯丙烯催化加氢合成化学前体的研究

丙烯氯是合成树脂的交联剂，也是用作药物烷基化剂的合成中间体，通常在与有机氯化物相关的生产现场使用和合成。然而，在合成氯丙烯的过程中，会产生2-氯丙烯(2-PEN)，这是一个问题，因为它基本上没有实际用途。本研究研究了2-PEN加氢制2-氯丙烷(2-PAN)和丙烯的过程，这两种物质是多种化工产品的前体。使用市售的钯催化剂OleMax 201、OleMax 301、OleMax 600和HyFlex 500进行2-PEN加氢。2-PAN的最高产量(10.6%)被发现在348 K, P (H2) = 13.5 kPa和P (2-PEN) = 8.8 kPa, OleMax 600 (0.5 g),而丙烯(26.0%)的最高产量实现了在相同的反应条件下,除了使用在P (H2) = 7.9 kPa HyFlex 500 (0.5 g)。丙烯的选择性形成如8.9,100年为8.9%,2-PEN的转换,丙烯的选择性和丙烯的产量,分别于201年OleMax实现。然而，并不是在所有的催化剂上都观察到2-PAN的选择性形成。负载钯对催化活性有较大影响，但对比表面积、碱性和酸性均无影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of The Japan Petroleum Institute 工程技术-工程：石油

CiteScore

1.70

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： “Journal of the Japan Petroleum Institute”publishes articles on petroleum exploration, petroleum refining, petrochemicals and relevant subjects (such as natural gas, coal and so on). Papers published in this journal are also put out as the electronic journal editions on the web. Topics may range from fundamentals to applications. The latter may deal with a variety of subjects, such as: case studies in the development of oil fields, design and operational data of industrial processes, performances of commercial products and others