Senin, 20 Desember 2010

Indonesian Chemical Engineering Education

Indonesian Chemical Engineering Education

Chemical engineering is the branch of engineering that deals with the application ofphysical science (e.g., chemistry and physics), and life sciences (e.g., biology, microbiologyand biochemistry) with mathematics and economics, to the process of converting rawmaterials or chemicals into more useful or valuable forms. In addition to producing useful materials, modern chemical engineering is also concerned with pioneering valuable new materials and techniques – such as nanotechnology, fuel cells and biomedical engineering.

Chemical engineering 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 engineers in this branch are usually employed under the title of process engineer. A related term with a wider definition is chemical technology. A person employed in this field is called a chemical engineer.


Concepts

Part of a series on
Chemical engineering
Concepts
Unit operations
Unit processes
Chemical engineer
Chemical process
Process integration
Momentum transfer
Heat transfer
Mass transfer
Mechanical operations
Chemical reaction engineering
Chemical kinetics
Chemical process modeling
Chemical technology
Process integration
Branches
Process design · Fluid mechanics
Process systems engineering
Chemical plant design
Chemical thermodynamics
Transport phenomena · *More*
others
Outline of chemical engineering
Index of chemical engineering articles
Education for chemical engineers
List of chemical engineers
List of chemical engineering societies
List of chemical process simulators
Perry's Chemical Engineers' Handbook

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Chemical engineering involves the application of several principles. Key concepts are presented below.

Chemical reaction engineering

Chemical reactions engineering involves managing plant processes and conditions to ensure optimal plant operation. Chemical reaction engineers construct models for reactor analysis and design using laboratory data and physical parameters, such as chemical thermodynamics, to solve problems and predict reactor performance.


Plant design

Chemical engineering design concerns the creation of plans and specification, and income projection of plants. Chemical engineers generate designs according to the clients needs. Design is limited by a number of factors, including funding, government regulations and safety standards. These constraints dictate a plant's choice of process, materials and equipment.


Process design

A unit operation is a physical step in an individual chemical engineering process. Unit operations (such as crystallization, drying and evaporation) are used to prepare reactants, purifying and separating its products, recycling unspent reactants, and controlling energy transfer in reactors.On the other hand, a unit process is the chemical equivalent of a unit operation. Along with unit operations, unit processes constitute a process operation. Unit processes (such as nitration andoxidation) involve the conversion of material by biochemical, thermochemical and other means. Chemical engineers responsible for these are called process engineers.


Transport phenomena

Transport phenomena occur frequently in industrial problems. These include fluid dynamics, heat transfer and mass transfer, which mainly concern momentum transfer, energy transfer and transport of chemical species respectively. Basic equations for describing the three transport phenomena in the macroscopic, microscopic and molecular levels are very similar. Thus, understanding transport phenomena requires thorough understanding of mathematics.

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