Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification

With the current energy and environmental crisis, hydrogen economy has now gained a positive outlook. This alternative form of energy becomes more attractive when produced from a sustainable source such as biomass, especially for an agricultural country such as Malaysia. However, the thermochemical...

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Main Authors: Inayat, Abrar, Ahmad, Murni M, Abdul Mutalib, M I, Yusup, Suzana
Format: Conference or Workshop Item
Language:English
Published: 2011
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Online Access:http://scholars.utp.edu.my/id/eprint/7041/1/Cost_Minimization_Model_for_Heat_Recovery_for_Hydrogen_Production_From_Biomass_Steam_Gasification_%28AIChE_AM_2011%29.pdf
http://scholars.utp.edu.my/id/eprint/7041/
http://apps.aiche.org/Proceedings/Abstract.aspx?PaperID=228396
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spelling oai:scholars.utp.edu.my:70412023-01-04T01:45:20Z http://scholars.utp.edu.my/id/eprint/7041/ Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification Inayat, Abrar Ahmad, Murni M Abdul Mutalib, M I Yusup, Suzana TP Chemical technology With the current energy and environmental crisis, hydrogen economy has now gained a positive outlook. This alternative form of energy becomes more attractive when produced from a sustainable source such as biomass, especially for an agricultural country such as Malaysia. However, the thermochemical conversion of biomass into hydrogen can be energy intensive due to its endothermic nature. In this work, a simple linear mathematical problem (LP) has been developed to design a heat integrated flowsheet for an energy efficient hydrogen production from oil palm empty fruit bunch via steam gasification with in situ CO2 capture. The LP transshipment model targets to minimize the utility cost by considering the heat content of process streams at a fixed number of temperature intervals. Three constrained matches are imposed for the synthesized flowsheet for the hydrogen production with hot and cold utility requirements of 1420 hJ/h and 832 kJ/h respectively. The proposed model is able to predict a minimum utility cost of US$ 8.76/ kJ h. The minimum of heat load for hot and cold utilities solved are 631.20 kJ/h and 0.743 kJ/h respectively. This gives an energy savings of approximately 55% in hot utilities and 98% in cold utilities. Furthermore, the production cost of hydrogen is predicted to decrease from US$ 1.91 to 1.80 per kg of H2 via the optimization approach. A result comparison is made with a previous heat integration work on the flowsheet that was based on pinch analysis. 2011-10-21 Conference or Workshop Item PeerReviewed application/pdf en http://scholars.utp.edu.my/id/eprint/7041/1/Cost_Minimization_Model_for_Heat_Recovery_for_Hydrogen_Production_From_Biomass_Steam_Gasification_%28AIChE_AM_2011%29.pdf Inayat, Abrar and Ahmad, Murni M and Abdul Mutalib, M I and Yusup, Suzana (2011) Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification. In: AIChE Annual Meeting 2011 (AIChE 2011), 16-21 Oct 2011, Minneapolis, MN, USA. http://apps.aiche.org/Proceedings/Abstract.aspx?PaperID=228396
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
Inayat, Abrar
Ahmad, Murni M
Abdul Mutalib, M I
Yusup, Suzana
Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification
description With the current energy and environmental crisis, hydrogen economy has now gained a positive outlook. This alternative form of energy becomes more attractive when produced from a sustainable source such as biomass, especially for an agricultural country such as Malaysia. However, the thermochemical conversion of biomass into hydrogen can be energy intensive due to its endothermic nature. In this work, a simple linear mathematical problem (LP) has been developed to design a heat integrated flowsheet for an energy efficient hydrogen production from oil palm empty fruit bunch via steam gasification with in situ CO2 capture. The LP transshipment model targets to minimize the utility cost by considering the heat content of process streams at a fixed number of temperature intervals. Three constrained matches are imposed for the synthesized flowsheet for the hydrogen production with hot and cold utility requirements of 1420 hJ/h and 832 kJ/h respectively. The proposed model is able to predict a minimum utility cost of US$ 8.76/ kJ h. The minimum of heat load for hot and cold utilities solved are 631.20 kJ/h and 0.743 kJ/h respectively. This gives an energy savings of approximately 55% in hot utilities and 98% in cold utilities. Furthermore, the production cost of hydrogen is predicted to decrease from US$ 1.91 to 1.80 per kg of H2 via the optimization approach. A result comparison is made with a previous heat integration work on the flowsheet that was based on pinch analysis.
format Conference or Workshop Item
author Inayat, Abrar
Ahmad, Murni M
Abdul Mutalib, M I
Yusup, Suzana
author_facet Inayat, Abrar
Ahmad, Murni M
Abdul Mutalib, M I
Yusup, Suzana
author_sort Inayat, Abrar
title Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification
title_short Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification
title_full Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification
title_fullStr Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification
title_full_unstemmed Cost Minimization Model for Heat Recovery for Hydrogen Production from Biomass Steam Gasification
title_sort cost minimization model for heat recovery for hydrogen production from biomass steam gasification
publishDate 2011
url http://scholars.utp.edu.my/id/eprint/7041/1/Cost_Minimization_Model_for_Heat_Recovery_for_Hydrogen_Production_From_Biomass_Steam_Gasification_%28AIChE_AM_2011%29.pdf
http://scholars.utp.edu.my/id/eprint/7041/
http://apps.aiche.org/Proceedings/Abstract.aspx?PaperID=228396
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