Green and Sustainable Chemistry in Practice: Development and Industrialization of a Novel Process for Polycarbonate Production from CO2 without Using Phosgene
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In this article, the authors focused on the world's first process succeeded in development and industrialization by Asahi Kasei Corp. for producing an aromatic polycarbonate (PC) using CO2 as starting material.Abstract:
This review focuses on the world’s first process succeeded in development and industrialization by Asahi Kasei Corp. for producing an aromatic polycarbonate (PC) using CO2 as starting material.1 The carbonate group of PC links directly to the residual aromatic groups of the bisphenol. Until Asahi Kasei’s new process is revealed, all of carbonate groups of PC in the world were derived from CO as starting material. Furthermore, more than about 90% of PC has been produced by so-called “phosgene process”, and the PC contains Cl-impurities. It needs to use not only highly toxic and corrosive phosgene made from CO and Cl2 as a monomer, but also very large amounts of CH2Cl2 and water, and needs to clean a large amount of waste water. The new process enables high-yield production of the two products, Cl-free and high-quality PC and high-purity monoethylene glycol (MEG), starting from ethylene oxide (EO), by-produced CO2 and bisphenol-A. PC produced by the new process has many excellent properties compared with conventional PCs. The new process not only overcomes drawbacks in the conventional processes, but also achieves resource and energy conservation. The reduction of CO2 emissions (0.173 t/PC 1 t) is also achieved in the new process, because all CO2 is utilized as the component consisting main chains of the products. The newly constructed commercial plant of Chimei-Asahi Corp. (Taiwan), a joint venture between Asahi Kasei Corp. and Chi Mei Corp., has been successfully operating at full-production since June 2002. The initial capacity (PC:50,000 t/y) is now increased to 150,000 t/y. A typical example of the Green and Sustainable Chemistry (GSC) contributing to society and mankind has been realized.read more
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Journal ArticleDOI
Sustainable Conversion of Carbon Dioxide: An Integrated Review of Catalysis and Life Cycle Assessment
Jens Artz,Thomas Müller,Katharina Thenert,Johanna Kleinekorte,Raoul Meys,André Dirk Sternberg,André Bardow,Walter Leitner,Walter Leitner +8 more
TL;DR: The motivation to develop CO2-based chemistry does not depend primarily on the absolute amount of CO2 emissions that can be remediated by a single technology and is stimulated by the significance of the relative improvement in carbon balance and other critical factors defining the environmental impact of chemical production in all relevant sectors in accord with the principles of green chemistry.
Journal ArticleDOI
Opportunities and prospects in the chemical recycling of carbon dioxide to fuels
TL;DR: In this paper, the opportunities and prospects in the chemical recycling of carbon dioxide to fuels, as a complementary technology to carbon sequestration and storage (CSS), are analyzed, and it is remarked that the requisites for this objective are (i) minimize as much as possible the consumption of hydrogen (or hydrogen sources), (ii) produce fuels that can be easily stored and transported, and (iii) use renewable energy sources.
Journal ArticleDOI
Thermal, electrochemical, and photochemical conversion of CO2 to fuels and value-added products
TL;DR: In this paper, a review compares various alternate fuels and value-added products from conversion of carbon dioxide such as simple molecules to higher hydrocarbon fuels and polymers, and summarizes the advantages and disadvantages of different methods of conversion.
Journal ArticleDOI
Biodegradation of aliphatic and aromatic polycarbonates.
Trishul Artham,Mukesh Doble +1 more
TL;DR: In order to facilitate the biodegradation of polymers few pretreatment techniques which include photo-oxidation, gamma-irradiation, or use of chemicals have been tested.
Journal ArticleDOI
Generation, capture, and utilization of industrial carbon dioxide
TL;DR: CO(2), perhaps the most widely discussed and feared chemical in modern society, is as fundamental to their survival as water, and like water the authors need to better understand the human as well as natural production and consumption of CO(2) so that they can attempt to get these into a sustainable balance.
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A novel non-phosgene polycarbonate production process using by-product CO2 as starting material
Shinsuke Fukuoka,Mamoru Kawamura,Kyosuke Komiya,Masahiro Tojo,Hiroshi Hachiya,Kazumi Hasegawa,Muneaki Aminaka,Hirosige Okamoto,Isaburo Fukawa,Shigenori Konno +9 more
TL;DR: Asahi Kasei as discussed by the authors developed a new green process for producing an aromatic polycarbonate based on bisphenol-A without using phosgene and methylene chloride.