Wall flow in packed columns

Thambynayagam, R. K. M.

January 1977

No description available.

660.2842

Chemical plant equipment

A method for computer-aided hazard identification of process plants

Parmar, Jayesh C.

January 1986

No description available.

620.86

Chemical plant safety

A modular method for hazard and operability studies of process plant

Jefferson, Matthew

January 1999

The identification of hazards in chemical plants has become increasingly important. Not only have chemical plants become larger and more complex, but some countries now have regulations requiring that some form of formal hazard identification be carried out. With the increased speed of many other parts of the design process, hazard identification is becoming the log-jam in attempts to speed up the design of new plants still further. One of the most popular techniques for hazard identification is a hazard and operability study (HAZOP), in which a group of people attempt to identify creatively the possible hazards by applying a methodical process whereby the effect of deviations to every process variable is considered in every part of the plant. The aim of this thesis is to explore methods of improving hazard identification through the development of the HAZOP technique. This thesis examines possible improvements that can be made through a better understanding of activities and how they are carried out in HAZOP, discusses the possibilities of automated hazard identification based on HAZOP, and in particular presents a novel, modular HAZOP methodology. Modular HAZOP is based around identifying the modules that make up a chemical plant and then using previously generated HAZOP results associated with each of the modules. The hazards associated with these modules will therefore be known and rules are required to deal with the interconnections between modules. Application of these rules determines any additional hazards that might arise from the interconnection of modules. A number of important principles have been identified including, the level of decomposition required, the use of interchangeable sub-modules within modules, the fact that the majority of cause-consequence scenarios exist in adjacent modules, and the categorisation of locally and remotely propagated effects. These provide for a procedure which is adaptable to different plant configurations, but can also be quickly and easily applied. The latter principles enable the simpler fault paths, which make up most of the cause-consequence scenarios, to be identified quickly, leaving a much reduced number of fault paths which require a more thorough analysis.

620.86

Chemical plant; HAZOP

Thermal response analysis of process vessels in the presence of fire loading

Tsolakis, Thomas

January 1997

No description available.

620.86

Chemical plant fires

A Study of the Promotion of Convergence in the Calculation of Complex Chemical Plants

Orbach, Oded

09 1900

This thesis is missing page 147 in all printed copies. - Digitization Centre / Techniques for accelerating the convergence of multi-variable iterative calculations were studied. The study is mainly concerned with iterations which result from the calculation of recycle processes of complex chemical plants. The conditions for convergence and the existence of the solution of linear and non-linear iterations were obtained. Special attention was given to the asymptotic behaviour of the iterations since, in most cases, they approach geometric progression. The convergence of an Alkylation unit simulation was studied by implementation of the "full matrix" technique for accelerating the rate of convergence. The geometric extrapolation technique was described and applied successfully for accelerating the convergence of the calculation of multi-component distillation columns. / Thesis / Doctor of Philosophy (PhD)

convergence

complex chemical plant

Economic trade-offs in process design

Drage, Michael John

January 1992

No description available.

658.2

Chemical plant design/processes

Implementation of adaptive control strategies on chemical plants

Cheow, J. C.

January 1987

No description available.

660

Chemical plant control system

A study of the design expertise for plants handling hazardous materials

Bunn, Adrian R.

January 1987

No description available.

660

Chemical plant safety design

Integration of maintenance optimization in process design and operation under uncertainty

Vassiliadis, Constantine

January 2000

No description available.

660

Process systems; Chemical plant

Heat integration between areas of integrity

Hui, Chi Wai

January 1991

No description available.

547

Chemical plant design/energy savings