Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints
The highly exothermic nature of the low density polyethylene (LDPE) polymerization process and the heating-cooling prerequisite in tubular reactor can lead to thermal runaway and can also create fouling problems. Both problems need to be considered when optimizing the LDPE production to ensure th...
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my-usm-ep.468222021-11-17T03:42:11Z Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints 2019-08-01 Azmi, Ashraf T Technology TP155-156 Chemical engineering The highly exothermic nature of the low density polyethylene (LDPE) polymerization process and the heating-cooling prerequisite in tubular reactor can lead to thermal runaway and can also create fouling problems. Both problems need to be considered when optimizing the LDPE production to ensure the highest profit and a safe operation can be achieved. However, this is not an easy task since the conversion of the monomer (XM), which is normally proportional to high profits, could be achieved at high reaction temperatures and could lead to a high fouling formation. Consequently, in this work, the dynamic optimization study to obtain the optimum production of the LDPE under thermal safety and fouling resistance constraints is carried out. Prior to the dynamic optimization study, the kinetic rate parameters estimation is carried out. A mathematical model is developed and validated using industrial data. For thermal safety considerations, a suitable form of energy balance is developed and the reactor critical temperature ( ) is determined. For the fouling study, fouling resistance (Rf) is used as the fouling measurement. This study uses the changes in the heat transfer coefficient (U) determined from industrial data in order to obtain the maximum reactor fouling resistance. Based on the sensitivity studies, monomer flow rate (FM), initiator flow rate (FI), solvent flow rate (FS) and reactor inlet pressure (Pin) are selected as the optimized parameter variables while reactor jacket temperature (TJ) is selected as the optimized control variable in the dynamic optimization. In the dynamic optimization study, the optimization problems are solved using dynopt coded programming which is based on orthogonal collocation (OC) and sequential quadratic programming (SQP) methods. In different constraints case studies, the results show that the optimization case without thermal safety and fouling resistance constraints gives a higher XM than the optimization case with and constraints. Five different objective functions (OF) are considered to identify the most optimum reactor performance. The thermal safety and fouling resistance constraints are considered and are successfully satisfied in all the cases. The highest of 365.99 ℃ and of 49.48 cm2. s.K /cal are obtained by maximum XM and maximum profit OFs, respectively. These values are below the and allowed which are 366 ℃ and 50 cm2. s.K /cal, respectively. The most optimum reactor output is obtained from the maximum profit OF with the profit earned of RM328.18 million/year while the and ,sucessfully satisfied at 365.87 ℃ and 49.48 cm2.s.K/cal respectively. Overall, the complex relation of the LDPE tubular reactor process parameters and the trade-off balance between the input-output parameters are handled very well by the dynamic optimization. 2019-08 Thesis http://eprints.usm.my/46822/ http://eprints.usm.my/46822/1/Dynamic%20Optimization%20Of%20Low%20Density%20Polyethylene%20Production%20In%20Tubular%20Reactor%20Under%20Thermal%20Safety%20And%20Fouling%20Resistance%20Constraints.pdf application/pdf en public phd doctoral Universiti Sains Malaysia Pusat Pengajian Kejuruteraan Kimia |
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T Technology TP155-156 Chemical engineering Azmi, Ashraf Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints |
description |
The highly exothermic nature of the low density polyethylene (LDPE)
polymerization process and the heating-cooling prerequisite in tubular reactor can lead
to thermal runaway and can also create fouling problems. Both problems need to be
considered when optimizing the LDPE production to ensure the highest profit and a
safe operation can be achieved. However, this is not an easy task since the conversion
of the monomer (XM), which is normally proportional to high profits, could be achieved
at high reaction temperatures and could lead to a high fouling formation.
Consequently, in this work, the dynamic optimization study to obtain the optimum
production of the LDPE under thermal safety and fouling resistance constraints is
carried out. Prior to the dynamic optimization study, the kinetic rate parameters estimation
is carried out. A mathematical model is developed and validated using industrial data.
For thermal safety considerations, a suitable form of energy balance is developed and
the reactor critical temperature ( ) is determined. For the fouling study, fouling
resistance (Rf) is used as the fouling measurement. This study uses the changes in the
heat transfer coefficient (U) determined from industrial data in order to obtain the
maximum reactor fouling resistance. Based on the sensitivity studies, monomer flow rate (FM), initiator flow rate (FI), solvent flow rate (FS) and reactor inlet pressure (Pin) are selected as the optimized parameter variables while reactor jacket temperature (TJ) is selected as the optimized
control variable in the dynamic optimization. In the dynamic optimization study, the optimization problems are solved using dynopt coded programming which is based on orthogonal collocation (OC) and sequential quadratic programming (SQP) methods. In different constraints case
studies, the results show that the optimization case without thermal safety and
fouling resistance constraints gives a higher XM than the optimization case
with and constraints. Five different objective functions (OF) are considered to identify
the most optimum reactor performance. The thermal safety and fouling resistance constraints are considered and are successfully satisfied in all the cases. The highest of 365.99 ℃ and of 49.48 cm2. s.K /cal are obtained by maximum XM and maximum profit OFs, respectively. These values
are below the and allowed which are 366 ℃ and 50 cm2. s.K /cal, respectively. The most optimum reactor output is obtained from the maximum profit OF with the profit earned of RM328.18 million/year while the and ,sucessfully satisfied at 365.87 ℃ and 49.48 cm2.s.K/cal respectively. Overall, the complex relation of the LDPE tubular reactor process parameters and the trade-off balance between the input-output parameters are handled very well by the dynamic
optimization. |
format |
Thesis |
qualification_name |
Doctor of Philosophy (PhD.) |
qualification_level |
Doctorate |
author |
Azmi, Ashraf |
author_facet |
Azmi, Ashraf |
author_sort |
Azmi, Ashraf |
title |
Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints |
title_short |
Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints |
title_full |
Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints |
title_fullStr |
Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints |
title_full_unstemmed |
Dynamic Optimization Of Low Density Polyethylene Production In Tubular Reactor Under Thermal Safety And Fouling Resistance Constraints |
title_sort |
dynamic optimization of low density polyethylene production in tubular reactor under thermal safety and fouling resistance constraints |
granting_institution |
Universiti Sains Malaysia |
granting_department |
Pusat Pengajian Kejuruteraan Kimia |
publishDate |
2019 |
url |
http://eprints.usm.my/46822/1/Dynamic%20Optimization%20Of%20Low%20Density%20Polyethylene%20Production%20In%20Tubular%20Reactor%20Under%20Thermal%20Safety%20And%20Fouling%20Resistance%20Constraints.pdf |
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1747821731705257984 |