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16 results on '"Lee, Keat Teong"'

1. Third-Generation L-Lactic Acid Biorefinery Approaches: Exploring the Viability of Macroalgae Detritus.

Author

Chong, Soo Ling, Tan, Inn Shi, Foo, Henry Chee Yew, Lam, Man Kee, and Lee, Keat Teong

Subjects
CARBON sequestration, POLYLACTIC acid, RACEMIC mixtures, TECHNOLOGICAL innovations, CHEMICAL synthesis, LACTIC acid
Abstract

Rising concerns over fossil fuel depletion and plastic pollution have driven research into biodegradable alternatives, such as polylactic acid (PLA). Microbial fermentation is preferred for lactic acid production due to its ability to yield enantiomerically pure lactic acid, which is essential for PLA synthesis, unlike the racemic mixture from chemical synthesis. However, commercial lactic acid production using first-generation feedstocks faces challenges related to cost and sustainability. Macroalgae offer a promising alternative with their rapid growth rates and carbon capture capabilities. This review explores recent technological advancements in macroalgae physicochemical characterization, optimization of fermentation conditions, and innovative pretreatment methods to enhance sugar conversion rates for L-LA production. It also covers downstream processes for L-LA recovery, presenting a complete macroalgal biorefinery system. Environmental impacts and economic prospects are assessed through exergy and techno-economic analyses. By valorizing macroalgae detritus, this study underscores its potential to support a sustainable biorefinery industry, addressing economic feasibility and environmental impact. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Advancement of biorefinery-derived platform chemicals from macroalgae: a perspective for bioethanol and lactic acid.

Author

Tong, Kevin Tian Xiang, Tan, Inn Shi, Foo, Henry Chee Yew, Lam, Man Kee, Lim, Steven, and Lee, Keat Teong

Abstract

The extensive growth of energy and plastic demand has raised concerns over the depletion of fossil fuels. Moreover, the environmental conundrums worldwide integrated with global warming and improper plastic waste management have led to the development of sustainable and environmentally friendly biofuel (bioethanol) and biopolymer (lactic acid, LA) derived from biomass for fossil fuels replacement and biodegradable plastic production, respectively. However, the high production cost of bioethanol and LA had limited its industrial-scale production. This paper has comprehensively reviewed the potential and development of third-generation feedstock for bioethanol and LA production, including significant technological barriers to be overcome for potential commercialization purposes. Then, an insight into the state-of-the-art hydrolysis and fermentation technologies using macroalgae as feedstock is also deliberated in detail. Lastly, the sustainability aspect and perspective of macroalgae biomass are evaluated economically and environmentally using a developed cascading system associated with techno-economic analysis and life cycle assessment, which represent the highlights of this review paper. Furthermore, this review provides a conceivable picture of macroalgae-based bioethanol and lactic acid biorefinery and future research directions that can be served as an important guideline for scientists, policymakers, and industrial players. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Self-flocculation of enriched mixed microalgae culture in a sequencing batch reactor.

Author

Gobi, Shanthini, Gobi, Kanadasan, Lee, Keat Teong, and Vadivelu, Vel

Subjects
BATCH reactors, RENEWABLE energy sources, MICROALGAE, SEQUENCING batch reactor process, FLOCCULATION
Abstract

Microalgae-based biodiesel has gained widespread interest as an alternative energy source. Low-cost microalgae harvesting technologies are important for economically feasible biodiesel production. This study investigated, for the first time, the impact of adaptation period and height to diameter (H/D) ratio of a reactor on the growth and self-flocculation of microalgae, without the addition of bacteria. Six reactors were grouped into three sets of experiments, and each reactor was operated for 30 days at similar operating conditions (volume exchange ratio = 25% and settling time = 30 min). In set 1, two 8-L reactors, H5a (H/D ratio: 5) and H8a (H/D ratio: 8), were operated under batch operation. In set 2, reactors H5b and H8b were operated as sequential batch reactors (SBRs) without an adaptation period. In set 3, the reactors H5c and H8c were operated as SBRs with an adaptation period. The findings showed a threefold improvement in biomass productivity for the higher H/D ratio (H8c) and a reduction in biomass loss for microalgae. The H8c reactor exhibited 95% settling efficiency within 5 days, in comparison to 30 days for the H5c reactor. This study demonstrated that a higher H/D ratio and the introduction of an adaptation period in SBR operation positively influences growth and self-flocculation of enriched mixed microalgae culture. [ABSTRACT FROM AUTHOR]

Published
2021
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4. Preparation of flower-like ZnO hierarchical structures for photodegradation of phenol under UV irradiation.

Author

Sin, Jin-Chung, Lam, Sze-Mun, Lee, Keat-Teong, and Mohamed, Abdul

Subjects
ZINC oxide, PHOTODEGRADATION, CRYSTAL structure, PHENOL analysis, ULTRAVIOLET radiation, CHEMICAL synthesis
Abstract

This paper reports the synthesis of flower-like ZnO hierarchical structures via a simple and economical citric acid-mediated hydrothermal route. The as-synthesized flower-like ZnO was characterized in detail by field-emission scanning electron microscopy (FESEM), energy dispersive X-ray, transmission electron microscopy (TEM), X-ray diffraction (XRD), N adsorption-desorption, UV-visible absorption, Fourier-transform infrared (FTIR), and Raman analysis. FESEM and TEM showed that the flower-like ZnO was an assembly of large numbers of interleaving nanosheets of average thickness approximately 88 nm. XRD, FTIR, and Raman results showed that the as-synthesized ZnO products were highly crystalline with the wurtzite structure. Photocatalytic tests indicated that the as-synthesized flower-like ZnO had efficient photocatalytic activity in the degradation of phenol under UV irradiation. The degradation of phenol was further confirmed by the formation of intermediates, identified by use of high-performance liquid chromatography, and the decrease in the total organic carbon concentration. The flower-like ZnO was reused several times without appreciable loss of activity. These characteristics showed the flower-like ZnO hierarchical structure is suitable for practical applications in environmental remediation. [ABSTRACT FROM AUTHOR]

Published
2015
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6. BackMatter.

Author

Lee, Keat Teong and Ofori-Boateng, Cynthia

Published
2013

13. FrontMatter.

Author

Lee, Keat Teong and Ofori-Boateng, Cynthia

Published
2013

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