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Abstract
The demand for 1,3-butadiene, one of the most important raw materials in the rubber industry, is constantly increasing. The Lebedev process is a classical method of producing 1,3-butadiene from ethanol, which is to be optimized with regard to the mixed oxide catalysts used. In this work, the binary MgO/SiO2 solid system was tested with regard to its optimum chemical composition for the catalytic conversion of ethanol to 1,3-butadiene. Furthermore, novel mesoporous mixed oxides were prepared to investigate their textural, structural, and surface chemical properties as well as the catalytic activity. Nitrogen physisorption, scanning electron microscopy (SEM), and temperature-programmed ammonia desorption (NH3-TPD) measurements were carried out and evaluated. It was shown that the optimum yield of 1,3-butadiene is achieved by using MgO/SiO2 mixed oxide catalysts with 85–95 mol% MgO and not, as suggested by Lebedev, with 75 mol% MgO. The NH3-TPD measurements revealed that the maximum acid-site density is achieved with an equimolar up to magnesium-rich composition. During the synthesis of binary MgO/SiO2 solid systems based on mesoporous MgO, a thermally stable and ordered structure was formed in the autoclave, depending on the carbonate used and on the duration of the treatment.
Highlights
Fossil raw materials such as petrol, natural gas, and coal are important sources for fuel production and the chemical industry [1,2]
The large number of polymers synthesized from 1,3-butadiene provides a diverse range of products, with more than half of the end products found in the tire and seal industries [4]
The treatment in the autoclave produces an increasingly ordered and stable structure, which is responsible for the mesoporous structure of the magnesium oxide M2 formed after calcination
Summary
Fossil raw materials such as petrol, natural gas, and coal are important sources for fuel production and the chemical industry [1,2]. Complex mining methods such as the MultiFrac method (fracking) have been increasingly used [3] This has an impact on the availability and price of one of the most important raw materials in the rubber industry, namely 1,3-butadiene [4]. An interesting alternative to the petrochemical production of 1,3-butadiene is the the Lebedev Lebedev as it is based on the use of ethanol obtained from fermentation as a biobased raw material [10]. Of and relatively inexpensive production steam cracking. Total reaction equation equation of of the of ethanol ethanol to to 1,3-butadiene.
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