Numerical Simulation for Rock Fracturing Process under Action of Disc Cutter
p.3054
p.3054
The Preventing Coal and Gas Outburst Technology of Middle Distance and Low Permeability and Upper Protective Layer
p.3059
p.3059
The Roof Broken Mechanism of Fully Mechanized Coal Face with Super Thick and Loose Layer
p.3068
p.3068
Research and Prediction of Yellow Soil Moisture Content in Guizhou Province Based on ARIMA Model
p.3076
p.3076
Energy Analysis and Optimization of Methyl Chlorosilane Separation
p.3082
p.3082
The Optimization of CO2 Huff and Puff Well Location in Ultra-Low Permeability Reservoir
p.3086
p.3086
Prediction of the Flow, Reaction and Heat Transfer for Glass Furnace Firing Petroleum Coke
p.3090
p.3090
A Coke Quality Prediction Model Based on Support Vector Machine
p.3097
p.3097
Research on Materials Corrosion Failure Model of Liquefied Natural Gas (LNG) Cylinder for Vehicle
p.3102
p.3102
Energy Analysis and Optimization of Methyl Chlorosilane Separation
Abstract:
The main problem of existing methyl chlorosilane separation process is high energy consumption and low products purity. Based on the column grand composite curve is established by Aspen Plus and combined with the process integration technology, a modification of the process is proposed to improve the energy efficiency. Compared with the original process, the total condense and reboiler duty decrease by 8.47%, 8.96% respectively.
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Periodical:
Advanced Materials Research (Volumes 690-693)
Pages:
3082-3085
Citation:
Online since:
May 2013
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© 2013 Trans Tech Publications Ltd. All Rights Reserved
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