Estimation of bioenergy potential for local biomass in the United Arab Emirates

Muhammad Tahir Ashraf; Chuanji Fang; Tomasz Bochenski; Iwona Cybulska; Ayah Alassali; Akinleye Sowunmi; Rashed Farzanah; Grzegorz Przemyslaw Brudecki; Tanmay Chaturvedi; Sabeera Haris; Jens Ejbye Schmidt; Mette Hedegaard Thomsen

doi:10.9755/ejfa.2015-04-060

Estimation of bioenergy potential for local biomass in the United Arab Emirates

Muhammad Tahir Ashraf, Chuanji Fang, Tomasz Bochenski, Iwona Cybulska, Ayah Alassali, Akinleye Sowunmi, Rashed Farzanah, Grzegorz Przemyslaw Brudecki, Tanmay Chaturvedi, Sabeera Haris, Jens Ejbye Schmidt, Mette Hedegaard Thomsen^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

31 Citations (Scopus)

Abstract

The wide range of biomass spectrum in the United Arab Emirates (UAE) can be used for bioenergy production. The objective of this study is to highlight this potential by analyzing the bioethanol and biomethane potential of biomasses found in the UAE. Eighteen different biomass species and their fractions, including lignocellulose (date palm, Moringa peregrina, mangroves, and garden trimmings), halophytes (Salicornia sinus-persica and Salicornia bigelovii), seagrass (Halodule uninervis, Halophila ovalis, and Halophila stipulacea), macroalgae (Ulva Sp., Padina boergesenii, and Colppmenia sinuosa), and wastes (municipal and manures), were analyzed for bioenergy potential. Bioethanol production ranged from 55 to 359 kg ethanol/ton and biomethane production from 72 to 288 L CH₄/kg from biomass of species selected here. Results indicate that lignocellulosic biomass furnishes higher bioethanol potential, whereas macroalgae (P. boergesenii) has the least bioethanol potential and washed S. bigelovii, lignocellulosic garden trimmings, and camel manure are best suited for biomethane production. Significant variations in bioethanol and biomethane potential have also been noticed between different biomass fractions.

Original language	English
Journal	Emirates Journal of Food and Agriculture
Volume	28
Issue number	2
Pages (from-to)	99-106
Number of pages	8
ISSN	2079-052X
DOIs	https://doi.org/10.9755/ejfa.2015-04-060
Publication status	Published - 17 Jan 2016
Externally published	Yes

Keywords

Bioenergy potential
Bioethanol
Biomass
Biomethane
Waste to energy

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title = "Estimation of bioenergy potential for local biomass in the United Arab Emirates",

abstract = "The wide range of biomass spectrum in the United Arab Emirates (UAE) can be used for bioenergy production. The objective of this study is to highlight this potential by analyzing the bioethanol and biomethane potential of biomasses found in the UAE. Eighteen different biomass species and their fractions, including lignocellulose (date palm, Moringa peregrina, mangroves, and garden trimmings), halophytes (Salicornia sinus-persica and Salicornia bigelovii), seagrass (Halodule uninervis, Halophila ovalis, and Halophila stipulacea), macroalgae (Ulva Sp., Padina boergesenii, and Colppmenia sinuosa), and wastes (municipal and manures), were analyzed for bioenergy potential. Bioethanol production ranged from 55 to 359 kg ethanol/ton and biomethane production from 72 to 288 L CH4/kg from biomass of species selected here. Results indicate that lignocellulosic biomass furnishes higher bioethanol potential, whereas macroalgae (P. boergesenii) has the least bioethanol potential and washed S. bigelovii, lignocellulosic garden trimmings, and camel manure are best suited for biomethane production. Significant variations in bioethanol and biomethane potential have also been noticed between different biomass fractions.",

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author = "Ashraf, {Muhammad Tahir} and Chuanji Fang and Tomasz Bochenski and Iwona Cybulska and Ayah Alassali and Akinleye Sowunmi and Rashed Farzanah and Brudecki, {Grzegorz Przemyslaw} and Tanmay Chaturvedi and Sabeera Haris and Schmidt, {Jens Ejbye} and Thomsen, {Mette Hedegaard}",

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T1 - Estimation of bioenergy potential for local biomass in the United Arab Emirates

AU - Ashraf, Muhammad Tahir

AU - Fang, Chuanji

AU - Bochenski, Tomasz

AU - Cybulska, Iwona

AU - Alassali, Ayah

AU - Sowunmi, Akinleye

AU - Farzanah, Rashed

AU - Brudecki, Grzegorz Przemyslaw

AU - Chaturvedi, Tanmay

AU - Haris, Sabeera

AU - Schmidt, Jens Ejbye

AU - Thomsen, Mette Hedegaard

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AB - The wide range of biomass spectrum in the United Arab Emirates (UAE) can be used for bioenergy production. The objective of this study is to highlight this potential by analyzing the bioethanol and biomethane potential of biomasses found in the UAE. Eighteen different biomass species and their fractions, including lignocellulose (date palm, Moringa peregrina, mangroves, and garden trimmings), halophytes (Salicornia sinus-persica and Salicornia bigelovii), seagrass (Halodule uninervis, Halophila ovalis, and Halophila stipulacea), macroalgae (Ulva Sp., Padina boergesenii, and Colppmenia sinuosa), and wastes (municipal and manures), were analyzed for bioenergy potential. Bioethanol production ranged from 55 to 359 kg ethanol/ton and biomethane production from 72 to 288 L CH4/kg from biomass of species selected here. Results indicate that lignocellulosic biomass furnishes higher bioethanol potential, whereas macroalgae (P. boergesenii) has the least bioethanol potential and washed S. bigelovii, lignocellulosic garden trimmings, and camel manure are best suited for biomethane production. Significant variations in bioethanol and biomethane potential have also been noticed between different biomass fractions.

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ER -

Estimation of bioenergy potential for local biomass in the United Arab Emirates

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Keywords

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