Software for design of experiments and response modelling of cake ltration applications
Mikko, Huhtanen (2012-04-28)
Väitöskirja
Mikko, Huhtanen
28.04.2012
Lappeenranta University of Technology
Acta Universitatis Lappeenrantaensis
Julkaisun pysyvä osoite on
https://urn.fi/URN:ISBN:978-952-265-230-0
https://urn.fi/URN:ISBN:978-952-265-230-0
Tiivistelmä
Filtration is a widely used unit operation in chemical engineering. The huge
variation in the properties of materials to be ltered makes the study of
ltration a challenging task. One of the objectives of this thesis was to show
that conventional ltration theories are di cult to use when the system
to be modelled contains all of the stages and features that are present in a
complete solid/liquid separation process. Furthermore, most of the ltration
theories require experimental work to be performed in order to obtain critical
parameters required by the theoretical models.
Creating a good overall understanding of how the variables a ect the
nal product in ltration is somewhat impossible on a purely theoretical
basis. The complexity of solid/liquid separation processes require experimental
work and when tests are needed, it is advisable to use experimental
design techniques so that the goals can be achieved.
The statistical design of experiments provides the necessary tools for recognising
the e ects of variables. It also helps to perform experimental work
more economically. Design of experiments is a prerequisite for creating empirical
models that can describe how the measured response is related to the
changes in the values of the variable.
A software package was developed that provides a ltration practitioner
with experimental designs and calculates the parameters for linear regression
models, along with the graphical representation of the responses. The
developed software consists of two software modules. These modules are
LTDoE and LTRead. The LTDoE module is used to create experimental
designs for di erent lter types. The lter types considered in the software
are automatic vertical pressure lter, double-sided vertical pressure lter,
horizontal membrane lter press, vacuum belt lter and ceramic capillary
action disc lter. It is also possible to create experimental designs for those
cases where the variables are totally user de ned, say for a customized ltration
cycle or di erent piece of equipment. The LTRead-module is used to
read the experimental data gathered from the experiments, to analyse the
data and to create models for each of the measured responses.
Introducing the structure of the software more in detail and showing some
of the practical applications is the main part of this thesis. This approach
to the study of cake ltration processes, as presented in this thesis, has been
shown to have good practical value when making ltration tests.
variation in the properties of materials to be ltered makes the study of
ltration a challenging task. One of the objectives of this thesis was to show
that conventional ltration theories are di cult to use when the system
to be modelled contains all of the stages and features that are present in a
complete solid/liquid separation process. Furthermore, most of the ltration
theories require experimental work to be performed in order to obtain critical
parameters required by the theoretical models.
Creating a good overall understanding of how the variables a ect the
nal product in ltration is somewhat impossible on a purely theoretical
basis. The complexity of solid/liquid separation processes require experimental
work and when tests are needed, it is advisable to use experimental
design techniques so that the goals can be achieved.
The statistical design of experiments provides the necessary tools for recognising
the e ects of variables. It also helps to perform experimental work
more economically. Design of experiments is a prerequisite for creating empirical
models that can describe how the measured response is related to the
changes in the values of the variable.
A software package was developed that provides a ltration practitioner
with experimental designs and calculates the parameters for linear regression
models, along with the graphical representation of the responses. The
developed software consists of two software modules. These modules are
LTDoE and LTRead. The LTDoE module is used to create experimental
designs for di erent lter types. The lter types considered in the software
are automatic vertical pressure lter, double-sided vertical pressure lter,
horizontal membrane lter press, vacuum belt lter and ceramic capillary
action disc lter. It is also possible to create experimental designs for those
cases where the variables are totally user de ned, say for a customized ltration
cycle or di erent piece of equipment. The LTRead-module is used to
read the experimental data gathered from the experiments, to analyse the
data and to create models for each of the measured responses.
Introducing the structure of the software more in detail and showing some
of the practical applications is the main part of this thesis. This approach
to the study of cake ltration processes, as presented in this thesis, has been
shown to have good practical value when making ltration tests.
Kokoelmat
- Väitöskirjat [1092]