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Seokhwan Hwang
Researcher at Pohang University of Science and Technology
Publications - 139
Citations - 6302
Seokhwan Hwang is an academic researcher from Pohang University of Science and Technology. The author has contributed to research in topics: Anaerobic digestion & Acidogenesis. The author has an hindex of 34, co-authored 124 publications receiving 5409 citations. Previous affiliations of Seokhwan Hwang include Utah State University.
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Group-Specific Primer and Probe Sets to Detect Methanogenic Communities Using Quantitative Real-Time Polymerase Chain Reaction
TL;DR: The primer and probe sets designed in this study can be used to detect and quantify the order-level methanogenic groups in anaerobic biological processes and various environments.
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Absolute and relative QPCR quantification of plasmid copy number in Escherichia coli
TL;DR: Real-time QPCR based methods for determination of plasmid copy number in recombinant Escherichia coli cultures are presented and are convenient to perform and cost-effective compared to the traditionally used Southern blot method.
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A comprehensive microbial insight into two-stage anaerobic digestion of food waste-recycling wastewater
TL;DR: The overall process performance was relatively stable compared to the dynamic changes in the microbial structures and the acidogenic performance in a two-stage anaerobic digestion system treating food waste-recycling wastewater.
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Quantitative analysis of methanogenic community dynamics in three anaerobic batch digesters treating different wastewaters
TL;DR: The results suggested that more attention to quantitative as well as qualitative approaches on microbial communities is needed for fundamental understanding of anaerobic processes, particularly under dynamic or transitional conditions.
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Qualitative and quantitative assessment of microbial community in batch anaerobic digestion of secondary sludge.
TL;DR: The ordination of microbial community structures demonstrated that the quantitative methanogenic structure converged to the seed inoculum while the bacterial and archaeal DGGE band patterns diverged, providing an insight into the microbial behavior in the transitional phase (e.g., a start-up period) of anaerobic sludge digestion.