Chemical Engineering

Chemical engineering is about transformation. It's about gaining fundamental knowledge about a substance, then using that knowledge to synthesize a solution to an important medical, mechanical, or societal need. It also largely involves the design, improvement and maintenance of processes involving chemical or biological transformations for large-scale manufacture. Chemical engineers ensure the processes are operated safely, sustainably and economically. 

Chemical engineering is applied in the manufacture of a wide variety of products. The chemical industry scope manufactures inorganic and organic industrial chemicals, ceramics, fuels and petrochemicals, agrochemicals (fertilizers, insecticides, herbicides), plastics and elastomers, oleochemicals, explosives, detergents and detergent products (soap, shampoo, cleaning fluids), fragrances and flavors, additives, dietary supplements and pharmaceuticals. 

Process design - The design of processes for desired physical and/or chemical transformation of materials. Process design is central to chemical engineering and it can be considered as the summit of chemical engineering, bringing together all of the components of the field. Chemical process modeling is a computer modeling technique used in process design. The system components and connections are represented as a process flow diagram. Simulations can be as simple as the mixing of two substances in a tank, or as complex as an entire alumina refinery 

Heat & Mass transfer - Heat transfer is the transition of thermal energy from a hotter mass to a cooler mass resulting in a thermal equilibrium. Similarly mass transfer is the transfer of mass from high concentration to low concentration. It is commonly used in molecular and convective transport of atoms and molecules within physical systems. 

Membrane separation - Processes for separating the components of mixtures by using thin barriers between two miscible fluids; any trans-membrane force leads to preferential transport of one or more feed components. It is the key in many processes such as filtration, reverse osmosis, desalination used for water purification. 

Thermodynamics - Study of energy conversion between heat and mechanical work, and subsequently the macroscopic variables such as temperature, volume and pressure. Its usage describes how systems respond to changes in their surroundings. The principles, concepts and laws/postulates of classical and statistical thermodynamics require quantitative knowledge of thermodynamic properties from a macroscopic to a molecular level. 

Here are some useful topics of Chemical Engineering

Process Dynamics and Control 
Advanced Mass Transfer 
Advanced Thermodynamics 
Optimization Techniques in Process Design 
Advanced Heat Transfer 
Clean Coal Technology 
Combustion Engineering 
Mineral Beneficiation 
Chemical Reactor Analysis 
Systems Engineering 
Polymer Engineering 
Project Engineering 
Process Modeling and Simulation 
Advanced Mathematical Techniques in Chemical Engineering 
Real Time Intelligent Process Systems 
Novel Separation Processes 
Industrial Pollution Control 
Petroleum Refinery Engineering 
Petrochemical Technology 

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