- Process design (chemical engineering)
Process design is the design of processes for desired physical and/or chemical transformation of materials. Process design is central to
chemical engineeringand it can be considered to be the summit of chemical engineering, bringing together all of the components of that field.
Process design can be the design of new facilities or it can be the modification or expansion of existing facilities. The design starts at a conceptual level and ultimately ends in the form of fabrication and construction plans.
Process design is distinct from
equipmentdesign, which is closer in spirit to the design of unit operations. Processes often include many unit operations.
Process design documents serve to define the design and they ensure that the design components fit together. They are useful in communicating ideas and plans to other engineers involved with the design, to external regulatory agencies, to equipment vendors and to construction contractors.
In order of increasing detail, process design documents include:
*Block Flow Diagrams (BFD): Very simple diagrams composed of rectangles and lines indicating major material or energy flows.
*Process Flow Diagrams (PFD's): Typically more complex diagrams of major unit operations as well as flow lines. They usually include a material balance, and sometimes an energy balance, showing typical or design flowrates, stream compositions, and stream and equipment pressures and temperatures.
*Piping and Instrumentation Diagrams (P&ID's): Diagrams showing each and every pipeline with piping class (carbon steel or stainless steel) and pipe size (diameter). They also show valving along with instrument locations and process control schemes.
Specifications: Written design requirements of all major equipment items.
Process designers also typically write operating manuals on how to start-up, operate and shut-down the process.
Documents are maintained after construction of the process facility for the operating personnel to refer to. The documents also are useful when modifications to the facility are planned.
Designs have objectives and constraints, and even a simple process requires a trade-off among such factors.
Objectives that a design may strive to include:
:*Throughput rate:*Process yield:*Product purity
:*Capital cost:*Available space:*Safety concerns:*Environmental impact and projected
effluents and emissions:*Waste production:*Operating and maintenance costs
Other factors that designers may include are:
Reliability:*Redundancy:*Flexibility:*Anticipated variability in feedstock and allowable variability in product.
ources of Design Information
Designers usually do not start from scratch, especially for complex projects. Often the engineers have
pilot plantdata available or data from full-scale operating facilities. Other sources of information include proprietary design criteria provided by process licensors, published scientific data, laboratory experiments, and input.
The advent of low cost powerful computers has aided complex mathematical simulation of processes, and simulation software is often used by design engineers. Simulations can identify weaknesses in designs and allow engineers to choose better alternatives.
However, engineers still rely on heuristics, intuition, and experience when designing a process. Human creativity is an element in complex designs.
Chemical process modeling
List of Chemical Process Simulators
List of Dynamic Process Simulators
Recommended chemical engineering books
*cite book|author=Kister, Henry Z.|title=
Distillation Design|edition=1st Edition |publisher=McGraw-Hill|year=1992|id=ISBN 0-07-034909-6
*cite book|author=Perry, Robert H. and Green, Don W.|title=
Perry's Chemical Engineers' Handbook|edition=6th Edition| publisher=McGraw-Hill|year=1984|id=ISBN 0-07-049479-7
*cite book|author=Bird, R.B., Stewart, W.E. and Lightfoot, E.N.|title=
Transport Phenomena|edition=Second Edition|publisher=John Wiley & Sons|year=August 2001|id=ISBN 0-471-41077-2
*cite book| author=McCabe, W., Smith, J. and Harriott, P.|edition=7th Edition|title=
Unit Operations of Chemical Engineering|publisher=McGraw Hill|location=|year=2004|id=ISBN 0-07-284823-5
*cite book|author= Seader, J. D., and Henley, Ernest J.|title=Separation Process Principles|publisher=Wiley| location=New York|year=1998|id=ISBN 0-471-58626-9
*cite book|author=Himmelbau, David M.|title=Basic Principles and Calculations in Chemical Engineering|edition=6th Edition|publisher=Prentice-Hall|year=1996|id=ISBN 0133057984
*cite book| author=Editors: Jacqueline I. Kroschwitz and Arza Seidel|edition=5th Edition|title=Kirk-Othmer Encyclopedia of Chemical Technology|publisher=Wiley-Interscience|location=Hoboken, NJ|year=2004|id=ISBN 0-471-48810-0
*cite book|author=King, C.J.|2nd Edition|title=Separation Processes|publisher=McGraw Hill|year=1980|id=ISBN 0-07-034612-7
*cite book|author=Peters, M. S., and Timmerhaus K. D.|year=1991|title=Plant Design and Economics for Chemical Engineers|publisher=McGraw Hill|edition=4th edition|id=ISBN 0-07-100871-3
[http://www.chemicalprocessing.com Chemical Processing Magazine]
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