Polyhydroxyalkanoate production from food industry residual streams using mixed microbial cultures

Ilke Pala-Ozkok; Gülsüm Emel Zengin; Didem Okutman Taş; Nevin Yağcı; Didem Güven; H. Güçlü Insel; Emine Çokgör

doi:10.1016/B978-0-323-90178-9.00010-X

Polyhydroxyalkanoate production from food industry residual streams using mixed microbial cultures

Ilke Pala-Ozkok, Gülsüm Emel Zengin, Didem Okutman Taş, Nevin Yağcı, Didem Güven, H. Güçlü Insel, Emine Çokgör

Department of Environmental Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

5 Citations (Scopus)

Abstract

Polyhydroxyalkanoates (PHAs) as the next-generation bio-based polymers offer a renewable alternative to traditional petroleum-based counterparts. They can be derived from a wide variety of high carbon content feedstocks including food, biofuel, agricultural products, and carbon dioxide. PHAs have the potential to replace petroleum-based polymers in nearly every function from packaging and single use to durable products. PHAs have been marketed as environmentally friendly bioplastics with less CO₂ emission, and enhanced sustainability, as well as independence from petroleum sources. Limitations in both cost efficiency and performance of state-of-the-art PHAs have been obstacles for the commercial application of these promising biopolymers. In this chapter, PHA production from food wastes/wastewaters is evaluated with a focus on renewable feedstocks, enrichment strategies for mixed microbial cultures, pretreatment, downstream processes, and pilot-scale applications.

Original language	English
Title of host publication	Clean Energy and Resource Recovery
Subtitle of host publication	Wastewater Treatment Plants as Biorefineries, Volume 2
Publisher	Elsevier
Pages	265-284
Number of pages	20
ISBN (Electronic)	9780323901789
ISBN (Print)	9780323901796
DOIs	https://doi.org/10.1016/B978-0-323-90178-9.00010-X
Publication status	Published - 1 Jan 2021

Bibliographical note

Publisher Copyright:
© 2022 Elsevier Inc. All rights reserved.

Keywords

Bio-based polymers
Downstream processes
Food industry
Mixed microbial cultures
Pilot-scale applications
Polyhydroxyalkanoate

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/B978-0-323-90178-9.00010-X

Cite this

Pala-Ozkok, I., Zengin, G. E., Taş, D. O., Yağcı, N., Güven, D., Insel, H. G., & Çokgör, E. (2021). Polyhydroxyalkanoate production from food industry residual streams using mixed microbial cultures. In Clean Energy and Resource Recovery: Wastewater Treatment Plants as Biorefineries, Volume 2 (pp. 265-284). Elsevier. https://doi.org/10.1016/B978-0-323-90178-9.00010-X

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Polyhydroxyalkanoate production from food industry residual streams using mixed microbial cultures. / Pala-Ozkok, Ilke; Zengin, Gülsüm Emel; Taş, Didem Okutman et al.
Clean Energy and Resource Recovery: Wastewater Treatment Plants as Biorefineries, Volume 2. Elsevier, 2021. p. 265-284.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

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AU - Pala-Ozkok, Ilke

AU - Zengin, Gülsüm Emel

AU - Taş, Didem Okutman

AU - Yağcı, Nevin

AU - Güven, Didem

AU - Insel, H. Güçlü

AU - Çokgör, Emine

PY - 2021/1/1

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N2 - Polyhydroxyalkanoates (PHAs) as the next-generation bio-based polymers offer a renewable alternative to traditional petroleum-based counterparts. They can be derived from a wide variety of high carbon content feedstocks including food, biofuel, agricultural products, and carbon dioxide. PHAs have the potential to replace petroleum-based polymers in nearly every function from packaging and single use to durable products. PHAs have been marketed as environmentally friendly bioplastics with less CO2 emission, and enhanced sustainability, as well as independence from petroleum sources. Limitations in both cost efficiency and performance of state-of-the-art PHAs have been obstacles for the commercial application of these promising biopolymers. In this chapter, PHA production from food wastes/wastewaters is evaluated with a focus on renewable feedstocks, enrichment strategies for mixed microbial cultures, pretreatment, downstream processes, and pilot-scale applications.

AB - Polyhydroxyalkanoates (PHAs) as the next-generation bio-based polymers offer a renewable alternative to traditional petroleum-based counterparts. They can be derived from a wide variety of high carbon content feedstocks including food, biofuel, agricultural products, and carbon dioxide. PHAs have the potential to replace petroleum-based polymers in nearly every function from packaging and single use to durable products. PHAs have been marketed as environmentally friendly bioplastics with less CO2 emission, and enhanced sustainability, as well as independence from petroleum sources. Limitations in both cost efficiency and performance of state-of-the-art PHAs have been obstacles for the commercial application of these promising biopolymers. In this chapter, PHA production from food wastes/wastewaters is evaluated with a focus on renewable feedstocks, enrichment strategies for mixed microbial cultures, pretreatment, downstream processes, and pilot-scale applications.

KW - Bio-based polymers

KW - Downstream processes

KW - Food industry

KW - Mixed microbial cultures

KW - Pilot-scale applications

KW - Polyhydroxyalkanoate

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SN - 9780323901796

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EP - 284

BT - Clean Energy and Resource Recovery

PB - Elsevier

ER -

Polyhydroxyalkanoate production from food industry residual streams using mixed microbial cultures

Abstract

Bibliographical note

Keywords

UN SDGs

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