Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit

Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit

Once natural gas liquids (NGLs) have been separated from natural gas stream, they are further separated into their component parts, or fractions, using a distillation process known as fractionation. Distillation is the primary separation process widely used in the natural gas processing. Although it...

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Main Authors: Rahimi, Ahmad Nafais, Mustafa, Mohd. Faris, Zaine, Muhammd Zakwan, Ibrahim, Norazana, Ibrahim, Kamarul Asri, Yusoff, Nooryusmiza, Al-Mutairi, Eid M., Abd. Hamid, Mohd. Kamaruddin
Format: Conference or Workshop Item
Language:English
Published: 2015
Subjects:
TK Electrical engineering. Electronics Nuclear engineering
Online Access:http://eprints.utm.my/id/eprint/62095/1/NorazanaIbrahim2015_OptimalSynthesisofEnergyEfficiencyImprovement.pdf
http://eprints.utm.my/id/eprint/62095/
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Institution: Universiti Teknologi Malaysia
Language: English
id my.utm.62095
record_format eprints
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic TK Electrical engineering. Electronics Nuclear engineering
spellingShingle TK Electrical engineering. Electronics Nuclear engineering
Rahimi, Ahmad Nafais
Mustafa, Mohd. Faris
Zaine, Muhammd Zakwan
Ibrahim, Norazana
Ibrahim, Kamarul Asri
Yusoff, Nooryusmiza
Al-Mutairi, Eid M.
Abd. Hamid, Mohd. Kamaruddin
Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit
description Once natural gas liquids (NGLs) have been separated from natural gas stream, they are further separated into their component parts, or fractions, using a distillation process known as fractionation. Distillation is the primary separation process widely used in the natural gas processing. Although it has many advantages, the main drawback is its large energy requirement, which can significantly influence the overall plant profitability. Another question that needs to be answered here is there any systematic study and analysis to improve energy saving for the NGLs fractionation plant without having major modifications to the separation units, which is more practical to implement. The large energy requirement of these processes can be systematically reduced by determining the optimal sequence using driving force method. Therefore, the objective of this paper is to present the study and analysis of the energy saving improvement for the NGLs fractionation plant by using driving force method which will require only minor or less modifications to the separation units. Generally, the concept of driving force was applied in designing an energy efficient distillation column [Gani and Bek-Pedersen, 2004]. However, the concept has been extended its application in designing energy efficient distillation columns sequence [Mustafa et. al., 2014]. To perform the studies and analysis, the energy efficient NGLs fractionation plant methodology is developed. Basically, the methodology consists of four hierarchical steps. In the first step, the energy that is obtained from the base NGLs sequence will be used as guidance for the next step where the base NGLs sequence is developed from a simple and reliable short-cut method. In the second step, the energy efficiency in distillation column will be improved through driving force method where the optimum sequence will be determined in this step. In the third step, the optimum sequence was analyzed in term of energy analysis by using a simple and reliable shortcut method distillation column in Aspen HYSYS environment. In the final step, the comparison between the existing sequence and the optimum sequence by using driving force method will be done and at the same time the economic performance for the optimum sequence is also evaluated in this step. Then, the return of investment (ROI) will be calculated to make sure that the proposed modification to improve energy saving is practical. The capability of this methodology is tested in designing an optimal energy efficient distillation columns sequence of NGLs fractionation unit. The existing NGLs fractionation unit consists of nine compounds (methane, ethane, propane, i-butane, nbutane, i-pentane, n-pentane, n-hexane, n-heptane) with direct-splitter-direct sequence was simulated using a simple and reliable short-cut method within Aspen HYSYS environment. A total of 519.68 MW energy used to achieve 99.9% of product recovery. A new optimal sequence determined by driving force method was simulated using a short-cut method within Aspen HYSYS environment where a total of 376.60 MW of energy was used of the same product recovery. The results show that the maximum of 27.53 % energy reduction was able to achieve by changing the sequence suggested by the driving force method. It can be concluded that, the sequence determined by the driving force method is able to reduce energy used for NGLs fractionation. All of this findings show that the methodology is able to design energy efficient distillation columns for NGLs fractionation sequence in an easy, practical and systematic manner.
format Conference or Workshop Item
author Rahimi, Ahmad Nafais
Mustafa, Mohd. Faris
Zaine, Muhammd Zakwan
Ibrahim, Norazana
Ibrahim, Kamarul Asri
Yusoff, Nooryusmiza
Al-Mutairi, Eid M.
Abd. Hamid, Mohd. Kamaruddin
author_facet Rahimi, Ahmad Nafais
Mustafa, Mohd. Faris
Zaine, Muhammd Zakwan
Ibrahim, Norazana
Ibrahim, Kamarul Asri
Yusoff, Nooryusmiza
Al-Mutairi, Eid M.
Abd. Hamid, Mohd. Kamaruddin
author_sort Rahimi, Ahmad Nafais
title Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit
title_short Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit
title_full Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit
title_fullStr Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit
title_full_unstemmed Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit
title_sort optimal synthesis of energy efficiency improvement for ngls indirect sequence fractionation unit
publishDate 2015
url http://eprints.utm.my/id/eprint/62095/1/NorazanaIbrahim2015_OptimalSynthesisofEnergyEfficiencyImprovement.pdf
http://eprints.utm.my/id/eprint/62095/
_version_ 1643655320727191552
spelling my.utm.620952017-08-07T07:40:22Z http://eprints.utm.my/id/eprint/62095/ Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit Rahimi, Ahmad Nafais Mustafa, Mohd. Faris Zaine, Muhammd Zakwan Ibrahim, Norazana Ibrahim, Kamarul Asri Yusoff, Nooryusmiza Al-Mutairi, Eid M. Abd. Hamid, Mohd. Kamaruddin TK Electrical engineering. Electronics Nuclear engineering Once natural gas liquids (NGLs) have been separated from natural gas stream, they are further separated into their component parts, or fractions, using a distillation process known as fractionation. Distillation is the primary separation process widely used in the natural gas processing. Although it has many advantages, the main drawback is its large energy requirement, which can significantly influence the overall plant profitability. Another question that needs to be answered here is there any systematic study and analysis to improve energy saving for the NGLs fractionation plant without having major modifications to the separation units, which is more practical to implement. The large energy requirement of these processes can be systematically reduced by determining the optimal sequence using driving force method. Therefore, the objective of this paper is to present the study and analysis of the energy saving improvement for the NGLs fractionation plant by using driving force method which will require only minor or less modifications to the separation units. Generally, the concept of driving force was applied in designing an energy efficient distillation column [Gani and Bek-Pedersen, 2004]. However, the concept has been extended its application in designing energy efficient distillation columns sequence [Mustafa et. al., 2014]. To perform the studies and analysis, the energy efficient NGLs fractionation plant methodology is developed. Basically, the methodology consists of four hierarchical steps. In the first step, the energy that is obtained from the base NGLs sequence will be used as guidance for the next step where the base NGLs sequence is developed from a simple and reliable short-cut method. In the second step, the energy efficiency in distillation column will be improved through driving force method where the optimum sequence will be determined in this step. In the third step, the optimum sequence was analyzed in term of energy analysis by using a simple and reliable shortcut method distillation column in Aspen HYSYS environment. In the final step, the comparison between the existing sequence and the optimum sequence by using driving force method will be done and at the same time the economic performance for the optimum sequence is also evaluated in this step. Then, the return of investment (ROI) will be calculated to make sure that the proposed modification to improve energy saving is practical. The capability of this methodology is tested in designing an optimal energy efficient distillation columns sequence of NGLs fractionation unit. The existing NGLs fractionation unit consists of nine compounds (methane, ethane, propane, i-butane, nbutane, i-pentane, n-pentane, n-hexane, n-heptane) with direct-splitter-direct sequence was simulated using a simple and reliable short-cut method within Aspen HYSYS environment. A total of 519.68 MW energy used to achieve 99.9% of product recovery. A new optimal sequence determined by driving force method was simulated using a short-cut method within Aspen HYSYS environment where a total of 376.60 MW of energy was used of the same product recovery. The results show that the maximum of 27.53 % energy reduction was able to achieve by changing the sequence suggested by the driving force method. It can be concluded that, the sequence determined by the driving force method is able to reduce energy used for NGLs fractionation. All of this findings show that the methodology is able to design energy efficient distillation columns for NGLs fractionation sequence in an easy, practical and systematic manner. 2015 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/62095/1/NorazanaIbrahim2015_OptimalSynthesisofEnergyEfficiencyImprovement.pdf Rahimi, Ahmad Nafais and Mustafa, Mohd. Faris and Zaine, Muhammd Zakwan and Ibrahim, Norazana and Ibrahim, Kamarul Asri and Yusoff, Nooryusmiza and Al-Mutairi, Eid M. and Abd. Hamid, Mohd. Kamaruddin (2015) Optimal synthesis of energy efficiency improvement for NGLS indirect sequence fractionation unit. In: International Conference on Low Carbon Asia (ICLCA2015), Johor, Malaysia, 11-12 Okt, 2015, Johor Bahru, Johor.

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