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1. MiDAS 5: Global diversity of bacteria and archaea in anaerobic digesters

Author

Morten Kam Dahl Dueholm, Kasper Skytte Andersen, Anne-Kirstine C. Korntved, Vibeke Rudkjøbing, Madalena Alves, Yadira Bajón-Fernández, Damien Batstone, Caitlyn Butler, Mercedes Cecilia Cruz, Åsa Davidsson, Leonardo Erijman, Christof Holliger, Konrad Koch, Norbert Kreuzinger, Changsoo Lee, Gerasimos Lyberatos, Srikanth Mutnuri, Vincent O’Flaherty, Piotr Oleskowicz-Popiel, Dana Pokorna, Veronica Rajal, Michael Recktenwald, Jorge Rodríguez, Pascal E. Saikaly, Nick Tooker, Julia Vierheilig, Jo De Vrieze, Christian Wurzbacher, and Per Halkjær Nielsen

Subjects
Science
Abstract

Abstract Anaerobic digestion of organic waste into methane and carbon dioxide (biogas) is carried out by complex microbial communities. Here, we use full-length 16S rRNA gene sequencing of 285 full-scale anaerobic digesters (ADs) to expand our knowledge about diversity and function of the bacteria and archaea in ADs worldwide. The sequences are processed into full-length 16S rRNA amplicon sequence variants (FL-ASVs) and are used to expand the MiDAS 4 database for bacteria and archaea in wastewater treatment systems, creating MiDAS 5. The expansion of the MiDAS database increases the coverage for bacteria and archaea in ADs worldwide, leading to improved genus- and species-level classification. Using MiDAS 5, we carry out an amplicon-based, global-scale microbial community profiling of the sampled ADs using three common sets of primers targeting different regions of the 16S rRNA gene in bacteria and/or archaea. We reveal how environmental conditions and biogeography shape the AD microbiota. We also identify core and conditionally rare or abundant taxa, encompassing 692 genera and 1013 species. These represent 84–99% and 18–61% of the accumulated read abundance, respectively, across samples depending on the amplicon primers used. Finally, we examine the global diversity of functional groups with known importance for the anaerobic digestion process.

Published
2024
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2. Methylosinus trichosporium OB3b bioaugmentation unleashes polyhydroxybutyrate-accumulating potential in waste-activated sludge

Author

Hyerim Eam, Dayoung Ko, Changsoo Lee, and Jaewook Myung

Subjects
Type II methanotrophs, Activated sludge, Polyhydroxybutyrate (PHB), Waste resource recovery, Microbiology, QR1-502
Abstract

Abstract Background Wastewater treatment plants contribute approximately 6% of anthropogenic methane emissions. Methanotrophs, capable of converting methane into polyhydroxybutyrate (PHB), offer a promising solution for utilizing methane as a carbon source, using activated sludge as a seed culture for PHB production. However, maintaining and enriching PHB-accumulating methanotrophic communities poses challenges. Results This study investigated the potential of Methylosinus trichosporium OB3b to bioaugment PHB-accumulating methanotrophic consortium within activated sludge to enhance PHB production. Waste-activated sludges with varying ratios of M. trichosporium OB3b (1:0, 1:1, 1:4, and 0:1) were cultivated. The results revealed substantial growth and methane consumption in waste-activated sludge with M. trichosporium OB3b-amended cultures, particularly in a 1:1 ratio. Enhanced PHB accumulation, reaching 37.1% in the same ratio culture, indicates the dominance of Type II methanotrophs. Quantification of methanotrophs by digital polymerase chain reaction showed gradual increases in Type II methanotrophs, correlating with increased PHB production. However, while initial bioaugmentation of M. trichosporium OB3b was observed, its presence decreased in subsequent cycles, indicating the dominance of other Type II methanotrophs. Microbial community analysis highlighted the successful enrichment of Type II methanotrophs-dominated cultures due to the addition of M. trichosporium OB3b, outcompeting Type I methanotrophs. Methylocystis and Methylophilus spp. were the most abundant in M. trichosporium OB3b-amended cultures. Conclusions Bioaugmentation strategies, leveraging M. trichosporium OB3b could significantly enhance PHB production and foster the enrichment of PHB-accumulating methanotrophs in activated sludge. These findings contribute to integrating PHB production in wastewater treatment plants, providing a sustainable solution for resource recovery. Graphical abstract

Published
2024
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3. Enhanced methane production with co-feeding spent coffee grounds using spare capacity of existing anaerobic food waste digesters

Author

Danbee Kim, Junho Cha, and Changsoo Lee

Subjects
Medicine, Science
Abstract

Abstract With increasing coffee consumption worldwide, the efficient and sustainable management of spent coffee grounds (SCG) has become increasingly challenging. This study investigated the anaerobic co-digestion of small amounts of SCG with food waste (FW) at increasing co-feeding ratios of 1:100–1:10 (volatile solids basis) to assess the possibility of SCG treatment using the spare capacity of existing anaerobic digesters. Co-feeding SCG increased methane production compared to FW mono-digestion in the tested range of co-feeding ratios without compromising process stability. Methane yield did not further increase when the SCG/FW ratio increased above 4%, and process failure occurred at a 1:10 co-feeding ratio without trace element supplementation. The enhanced methanogenic performance was attributed to increased protein removal efficiency, which was potentially related to the promotion of peptide hydrolysis. The overall results suggest that co-feeding appropriate small amounts of SCG to FW digesters can be a realistic sustainable option for SCG management.

Published
2024
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4. Ammonia concentration and recovery in an up-scaled electrochemical cell through screening of cation exchange membrane

Author

Seongmin Choi, Wonjun Lee, Hanwoong Kim, Gwangtaek Lee, Changsoo Lee, Dae-Yeol Cheong, Won-Keun Son, and Kwiyong Kim

Subjects
ammonia, electrochemical concentration, nutrient recovery, cation exchange membrane, upscaled electrochemical cell, Environmental technology. Sanitary engineering, TD1-1066
Abstract

An intensifying global alarm over excessive total ammonia nitrogen (TAN) calls for innovative recovery strategies. Although electrochemically-driven TAN concentration and recovery have been explored, limited research on upscaling lab-scale advancements with careful system engineering leaves a notable gap in practical application. Here, in the context of implementing an upscaled electrochemical system, we carefully chose a suitable cation exchange membrane to ensure the best ammonium migration, energy efficiency, and stability. Systematically examining the effects of applied current density and loading rate using Neosepta CSE, we achieved final concentrated TAN levels in the receiving catholyte, reaching 836.7 mM (4.4-fold), 778.8 mM (3.5-fold), and 980.4 mM (2.8-fold), with nitrogen flux values of 801, 817, and 955 g-N m−2 d−1 for synthetic, food, and livestock wastewater, respectively, at a current density of 25 mA cm−2 and a loading rate of 2.5 mL cm−2 h−1. Successful upscaling to an 8-cell stack, capable of treating 100 L every 20 h (recovering 207 g-N d−1) of synthetic wastewater, showcases the feasibility of upscaled electrochemical systems for TAN recovery.

Published
2024
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5. High-efficiency deep geological repository system for spent nuclear fuel in Korea with optimized decay heat in a disposal canister and increased thermal limit of bentonite

Author

Jongyoul Lee, Kwangil Kim, Inyoung Kim, Heejae Ju, Jongtae Jeong, Changsoo Lee, Jung-Woo Kim, and Dongkeun Cho

Subjects
Spent nuclear fuel, Deep geological disposal, Design requirements, High efficiency, Optimized decay heat, Thermal limits, Nuclear engineering. Atomic power, TK9001-9401
Abstract

To use nuclear energy sustainably, spent nuclear fuel, classified as high-level radioactive waste and inevitably discharged after electricity generation by nuclear power plants, must be managed safely and isolated from the human environment. In Korea, the land area is limited and the amount of high-level radioactive waste, including spent nuclear fuels to be disposed, is relatively large. Thus, it is particularly necessary to maximize disposal efficiency. In this study, a high-efficiency deep geological repository concept was developed to enhance disposal efficiency. To this end, design strategies and requirements for a high-efficiency deep geological repository system were established, and engineered barrier modules with a disposal canister for pressurized water reactor (PWR)-type and pressurized heavy water reactor type Canada deuterium uranium (CANDU) plants were developed. Thermal and structural stability assessments were conducted for the repository system; it was confirmed that the system was suitable for the established strategies and requirements. In addition, the results of the nuclear safety assessment showed that the radiological safety of the new system met the Korean safety standards for disposal of high-level radioactive waste in terms of radiological dose. To evaluate disposal efficiency in terms of the disposal area, the layout of the developed disposal areas was assessed in terms of thermal limits. The estimated disposal areas were 2.51 km2 and 1.82 km2 (existing repository system: 4.57 km2) and the excavated host rock volumes were 2.7 Mm3 and 2.0 Mm3 (existing repository system: 4.5 Mm3) for thermal limits of 100 °C and 130 °C, respectively. These results indicated that the area and the excavated volume of the new repository system were reduced by 40–60% compared to the existing repository system. In addition, methods to further improve the efficiency were derived for the disposal area for deep geological disposal of spent nuclear fuel. The results of this study are expected to be useful in establishing a national high-level radioactive waste management policy, and for the design of a commercial deep geological repository system for spent nuclear fuels.

Published
2023
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6. Direct interspecies electron transfer enables anaerobic oxidation of sulfide to elemental sulfur coupled with CO2-reducing methanogenesis

Author

Heejung Jung, Hyeonjung Yu, and Changsoo Lee

Subjects
Biocatalysis, Nanotechnology, Science
Abstract

Summary: Electric syntrophy between fatty acid oxidizers and methanogens through direct interspecies electron transfer (DIET) is essential for balancing acidogenesis and methanogenesis in anaerobic digestion. Promoting DIET using electrically conductive additives proved effective in enhancing methanogenesis; however, its possibility to affect other microbial redox reactions in methanogenic systems has been little studied. This study provides the first confirmation of the electro-syntrophic coupling of sulfide oxidation to S0 with CO2-reducing methanogenesis in sulfur-rich methanogenic cultures supplemented with conductive magnetite (100–700-nm particle size). The H2S content in biogas, initially exceeding 5000 ppmv, decreased to below 1 ppmv along with an accumulation of extracellular S0 (60–70 mg/L; initially

Published
2023
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7. Will EU’s GDPR Act as an Effective Enforcer to Gain Consent?

Author

Junhyoung Oh, Jinhyoung Hong, Changsoo Lee, Jemin Justin Lee, Simon S. Woo, and Kyungho Lee

Subjects
GDPR, privacy policy, consent, privacy, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Since the GDPR was implemented in 2018, organizations that collect data from the EU residents are required to receive the user’s consent. Organizational measures to ensure that the organizations are compliant to the recently enacted GDPR are still abstract and ambiguous. Moreover, data subjects and controllers have demanded the practice of obtaining consent from organizations. By observing the case law and guidelines related to the GDPR provisions, we deduced four consent conditions. Then, we examined how online service provider’s websites are making efforts to implement the GDPR framework. For this, we identified key characteristics of these websites, such as the existence of consent buttons. In order to help the data subjects obtain consent, we proposed an automatic tool that can check the consent conditions by checking the websites. Our study examined 10,000 websites for 26 days using the Python libraries with the tool automatically crawling the website information and analyzes the HTML structure according to the specified conditions. In addition, this tool crawls the privacy policy of each website. Moreover, it automatically determines whether it meets the four consent conditions by calculating it according to the formula defined in the consent condition. To evaluate the tool’s accuracy, the researchers manually analyzed 500 websites and compared the manual analysis with the results of the tool’s automatic analysis. We found that this tool differentiates itself through qualitative comparisons with other GDPR meters.

Published
2021
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8. Thermal conductivity evaluation for bentonite buffer materials under elevated temperature conditions

Author

Seok Yoon, Gi-Jun Lee, Tae-Jin Park, Changsoo Lee, and Dong-Keun Cho

Subjects
Bentonite buffer material, Thermal conductivity, Elevated temperature conditions, Engineering (General). Civil engineering (General), TA1-2040
Abstract

In most countries, the upper limit of the buffer temperature in a geological repository for nuclear waste is set below 100 °C because of possible illitization. This smectite-to-illite transformation likely causes the swelling function of the buffer to deteriorate. However, stipulation of a higher temperature for the buffer would significantly increase the disposal density and cost effectiveness of the repository. Hence, understanding the characteristics and providing a database of information pertaining to the buffer at elevated temperatures is crucial. This study involved an evaluation of the thermal conductivity of bentonite buffer materials, as this property is the most important parameter for determining the design temperature. An experimental system suitable for operation at high temperatures was established, and was used to measure the thermal conductivity of bentonite buffer materials at different saturation values in the range 0–0.22 from room temperature to 150 °C. The dry density of the bentonite buffer materials is approximately 1.75 g/cm³, and the higher the initial saturation, the higher the measured thermal conductivity. The specimen and probe were placed in an oven and completely sealed with heat resistance tape to prevent water from evaporating from the pores of the specimen. The thermal conductivity of the bentonite buffer materials, which initially increased with temperature, decreased slightly between 100 and 150 °C. In general, the thermal conductivity values were similar between room temperature and 150 °C.

Published
2022
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9. The Structural Effect of Electrode Mesh on Hydrogen Evolution Reaction Performance for Alkaline Water Electrolysis

Author

Hae In Lee, Hyun-Seok Cho, MinJoong Kim, Jae Hun Lee, ChangSoo Lee, Sechan Lee, Sang-Kyung Kim, Chang-Hee Kim, Kwang Bok Yi, and Won-Chul Cho

Subjects
alkaline water electrolysis, hydrogen evolution reaction, electrode, complex structured material, nickel woven mesh, nickel expanded mesh, Chemistry, QD1-999
Abstract

Alkaline water electrolysis (AWE) is a mature water electrolysis technology that can produce green hydrogen most economically. This is mainly attributed to the use of Ni-based materials that are easy to process and inexpensive. The nickel-based meshes with various structures such as woven mesh and expanded mesh are widely used as electrode in the AWE due to its common availability and easy fabrication. However, the morphological effect of meshes on hydrogen evolution reaction (HER) performance has not been studied. Here a new parameter to determine the structural effect of mesh on HER performance was first proposed. The key factors of the parameter were found to be the strand width, pore width and the strand surface area. The woven mesh with the ratio of pore width to strand width that converges to 1 showed the lowest the overpotential. The expanded mesh with the higher the structural surface area exhibited the lowest the overpotential. This study will help to choose an optimal structure for the mesh with the HER electrode.

Published
2021
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10. Extending Data Quality Management for Smart Connected Product Operations

Author

Sunho Kim, Ricardo Perez Del Castillo, Ismael Caballero, Jimwoo Lee, Changsoo Lee, Downgwoo Lee, Sangyub Lee, and Alejandro Mate

Subjects
IoT, Internet of Things, SCP, smart connected product, data quality, data quality management, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Smart connected product (SCP) operation embodies the concept of the internet of things (IoT). To increase the probability of success of SCP operations for customers, the high quality of the IoT data across operations is imperative. IoT data go beyond sensor data, as integrate some other various type of data such as timestamps, device metadata, business data, and external data through SCP operation processes. Therefore, traditional data-centric approaches that analyze sensor data and correct their errors are not enough to preserve, in long-term basis, adequate levels of quality of IoT data. This research provides and alternative framework of data quality management as a process-centric approach to improve the quality of IoT data. The proposed framework extends the process reference model (PRM) for data quality management (DQM) defined in ISO 8000-61, and tailored to fully adapt to the special requirements of the IoT data management. These involve several adaptations: first, the scope of the SCP operations for data quality management is determined, and the processes required for SCP operations are defined following the process description format of ISO 8000-61. Second, the relationship between the processes and the structure of the processes in the technology stack of the SCP operations are described to cover the actual nature of the IoT data flows. Finally, a new IoT DQM-PRM is proposed by integrating the processes for the SCP operations with DQM-PRM. When these processes are executed in the organization, the quality of IoT data composed of data of various types can be continuously improved and the utilization rate of SCP operations is expected to increase.

Published
2019
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11. Perovskite-polymer composite cross-linker approach for highly-stable and efficient perovskite solar cells

Author

Tae-Hee Han, Jin-Wook Lee, Chungseok Choi, Shaun Tan, Changsoo Lee, Yepin Zhao, Zhenghong Dai, Nicholas De Marco, Sung-Joon Lee, Sang-Hoon Bae, Yonghai Yuan, Hyuck Mo Lee, Yu Huang, and Yang Yang

Subjects
Science
Abstract

Defective grain boundaries of polycrystalline perovskite films are one of the major causes of the instability of the solar cell devices. Here Han et al. choose a polymer with proper molecular structure to crosslink the perovskite grains to greatly improve the device stability.

Published
2019
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12. Denatured M13 Bacteriophage‐Templated Perovskite Solar Cells Exhibiting High Efficiency

Author

Hao‐Sheng Lin, Jong‐Min Lee, Jiye Han, Changsoo Lee, Seungju Seo, Shaun Tan, Hyuck Mo Lee, Eun Jung Choi, Michael S. Strano, Yang Yang, Shigeo Maruyama, Il Jeon, Yutaka Matsuo, and Jin‐Woo Oh

Subjects
bioelectronics, crystal growth templates, M13 bacteriophages, perovskite solar cells, wild viruses, Science
Abstract

Abstract The M13 bacteriophage, a nature‐inspired environmentally friendly biomaterial, is used as a perovskite crystal growth template and a grain boundary passivator in perovskite solar cells. The amino groups and carboxyl groups of amino acids on the M13 bacteriophage surface function as Lewis bases, interacting with the perovskite materials. The M13 bacteriophage‐added perovskite films show a larger grain size and reduced trap‐sites compared with the reference perovskite films. In addition, the existence of the M13 bacteriophage induces light scattering effect, which enhances the light absorption particularly in the long‐wavelength region around 825 nm. Both the passivation effect of the M13 bacteriophage coordinating to the perovskite defect sites and the light scattering effect intensify when the M13 virus‐added perovskite precursor solution is heated at 90 °C prior to the film formation. Heating the solution denatures the M13 bacteriophage by breaking their inter‐ and intra‐molecular bondings. The denatured M13 bacteriophage‐added perovskite solar cells exhibit an efficiency of 20.1% while the reference devices give an efficiency of 17.8%. The great improvement in efficiency comes from all of the three photovoltaic parameters, namely short‐circuit current, open‐circuit voltage, and fill factor, which correspond to the perovskite grain size, trap‐site passivation, and charge transport, respectively.

Published
2020
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13. Effects of Different pH Control Strategies on Microalgae Cultivation and Nutrient Removal from Anaerobic Digestion Effluent

Author

Hyeonjung Yu, Jaai Kim, Chaeyoung Rhee, Juhee Shin, Seung Gu Shin, and Changsoo Lee

Subjects
anaerobic digestion effluent, ammonia loss, mixed-culture microalgae cultivation, Parachlorella, pH control, Biology (General), QH301-705.5
Abstract

This study investigated nutrient removal from anaerobic digestion effluent by cultivating mixed-culture microalgae enriched from anaerobic sludge under different pH conditions: RUC (uncontrolled), R7–8 (maintained at 7–8), and R (maintained below 8). Significant amounts of NH4+-N were lost by volatilization in RUC cultures due to increased pH values (≤8.6) during the early period of cultivation. The pH control strategies significantly affected the biological NH4+-N removal (highest in R7–8), microalgal growth (highest in R7–8), biomass settleability (highest in R), and microalgal growth relative to bacteria (highest in R) in the cultures. Parachlorella completely dominated the microalgal communities in the inoculum and all of the cultures, and grew well at highly acidic pH (

Published
2022
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14. Cerium Oxide–Polysulfone Composite Separator for an Advanced Alkaline Electrolyzer

Author

Jung Won Lee, ChangSoo Lee, Jae Hun Lee, Sang-Kyung Kim, Hyun-Seok Cho, MinJoong Kim, Won Chul Cho, Jong Hoon Joo, and Chang-Hee Kim

Subjects
alkaline water electrolyzer, ceria nanoparticle, diaphragm membrane, Zirfon separator, electrolytic cell, Organic chemistry, QD241-441
Abstract

The intermittent and volatile nature of renewable energy sources threatens the stable operation of power grids, necessitating dynamically operated energy storage. Power-to-gas technology is a promising method for managing electricity variations on a large gigawatt (GW) scale. The electrolyzer is a key component that can convert excess electricity into hydrogen with high flexibility. Recently, organic/inorganic composite separators have been widely used as diaphragm membranes; however, they are prone to increase ohmic resistance and gas crossover, which inhibit electrolyzer efficiency. Here, we show that the ceria nanoparticle and polysulfone composite separator exhibits a low area resistance of 0.16 Ω cm2 and a hydrogen permeability of 1.2 × 10–12 mol cm–1 s–1 bar–1 in 30 wt% potassium hydroxide (KOH) electrolyte, which outperformed the commercial separator, the Zirfon PERL separator. The cell using a 100 nm ceria nanoparticle/polysulfone separator and advanced catalysts has a remarkable capability of 1.84 V at 800 mA cm−2 at 30 wt% and 80 °C. The decrease in the average pore size of 77 nm and high wettability (contact angle 75°) contributed to the reduced ohmic resistance and low gas crossover. These results demonstrate that the use of ceria nanoparticle-based separators can achieve high performance compared to commercial zirconia-based separators.

Published
2020
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15. Thermal Conductivity of Korean Compacted Bentonite Buffer Materials for a Nuclear Waste Repository

Author

Seok Yoon, WanHyoung Cho, Changsoo Lee, and Geon-Young Kim

Subjects
bentonite buffer material, Ca-type bentonite, thermal conductivity, predictive models, Technology
Abstract

Engineered barrier system (EBS) has been proposed for the disposal of high-level waste (HLW). An EBS is composed of a disposal canister with spent fuel, a buffer material, backfill material, and a near field rock mass. The buffer material is especially essential to guarantee the safe disposal of HLW, and plays the very important role of protecting the waste and canister against any external mechanical impact. The buffer material should also possess high thermal conductivity, to release as much decay heat as possible from the spent fuel. Its thermal conductivity is a crucial property since it determines the temperature retained from the decay heat of the spent fuel. Many studies have investigated the thermal conductivity of bentonite buffer materials and many types of soils. However, there has been little research or overall evaluation of the thermal conductivity of Korean Ca-type bentonite buffer materials. This paper investigated and analyzed the thermal conductivity of Korean Ca-type bentonite buffer materials produced in Gyeongju, and compared the results with various characteristics of Na-type bentonites, such as MX80 and Kunigel. Additionally, this paper suggests various predictive models to predict the thermal conductivity of Korean bentonite buffer materials considering various influential independent variables, and compared these with results for MX80 and Kunigel.

Published
2018
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16. Effect of Mild-Temperature Thermo-Alkaline Pretreatment on the Solubilization and Anaerobic Digestion of Spent Coffee Grounds

Author

Danbee Kim, Jaai Kim, and Changsoo Lee

Subjects
anaerobic digestion, microbial community structure, response surface analysis, spent coffee grounds, thermo-alkaline pretreatment, Technology
Abstract

Mild-temperature thermo-alkaline pretreatment of spent coffee grounds (SCG) was studied to improve its solubilization and methanation. The simultaneous effects of NaOH concentration (0–0.2 M) and temperature (60–90 °C) were investigated. Significant solubilization of SCG was achieved by the pretreatment, particularly under high-NaOH-concentration and high-temperature conditions. However, adding NaOH above a certain concentration adversely affected the methane production. Therefore, the degree of solubilization (SD) correlated poorly with methane yield (Ym). Response surface models of SD and Ym were successfully generated. The maximum response of SD (36.4%) was obtained at 0.18 M NaOH and 90.0 °C, while that of Ym (263.31 mL CH4/g COD added) was obtained at 0.13 M NaOH and 70.5 °C. Hydrogenotrophic Methanospirillum species were the dominant methanogens in all the SCG digestion tests. It is likely that NaOH concentration had a more significant influence on the development of microbial community structure, particularly of methanogens than temperature.

Published
2018
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17. Role and Potential of Direct Interspecies Electron Transfer in Anaerobic Digestion

Author

Gahyun Baek, Jaai Kim, Jinsu Kim, and Changsoo Lee

Subjects
anaerobic digestion, conductive material, direct interspecies electron transfer, interspecies electron transfer, methanogenesis, Technology
Abstract

Anaerobic digestion (AD) is an effective biological treatment for stabilizing organic compounds in waste/wastewater and in simultaneously producing biogas. However, it is often limited by the slow reaction rates of different microorganisms’ syntrophic biological metabolisms. Stable and fast interspecies electron transfer (IET) between volatile fatty acid-oxidizing bacteria and hydrogenotrophic methanogens is crucial for efficient methanogenesis. In this syntrophic interaction, electrons are exchanged via redox mediators such as hydrogen and formate. Recently, direct IET (DIET) has been revealed as an important IET route for AD. Microorganisms undergoing DIET form interspecies electrical connections via membrane-associated cytochromes and conductive pili; thus, redox mediators are not required for electron exchange. This indicates that DIET is more thermodynamically favorable than indirect IET. Recent studies have shown that conductive materials (e.g., iron oxides, activated carbon, biochar, and carbon fibers) can mediate direct electrical connections for DIET. Microorganisms attach to conductive materials’ surfaces or vice versa according to particle size, and form conductive biofilms or aggregates. Different conductive materials promote DIET and improve AD performance in digesters treating different feedstocks, potentially suggesting a new approach to enhancing AD performance. This review discusses the role and potential of DIET in methanogenic systems, especially with conductive materials for promoting DIET.

Published
2018
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18. Flow Characteristics of Steam and Gas Push in the Presence of Heat Thief Zones Overlying Oil Sands Deposits

Author

Changsoo Lee, Changhyup Park, and Soobin Park

Subjects
steam and gas push, non condensable gas, thief zone, thermal efficiency, oil sands, aquifer, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

This paper presents the effects of the top water-bearing zone on the performance of the steam and gas push, i.e., nitrogen as a non-condensable gas injected with steam into an oil sands deposit. The flow characteristics of fluid mixtures are examined in the presence of different-sized water-bearing formations overlying oil sands deposits, i.e., a finite aquifer with no-flow boundaries and an infinite aquifer with continuous mass flux. The performance efficiency is investigated by respectively implementing the cumulative steam to oil ratio, a simple thermal efficiency parameter, and the oil production on the surface. The top water-bearing area serves as a heat thief zone and negatively impacts bitumen recovery; furthermore, it increases the cumulative steam to oil ratio while decreasing the simple thermal efficiency parameter, as well as the oil production rate. When the steam chamber encounters the top aquifer, a severe heat loss occurs. As increasing mol % of nitrogen, the producing time with energy efficiency increases but the chamber growth is limited. The specific operational conditions would be possible for the finite-sized aquifer, while the continuous water influx and the significant heat loss obstructs the thermal processes for the infinite aquifer.

Published
2017
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19. Ubiquitous Sensor Networks and Image Processing Based Environmental Monitoring System for Fire Safety

Author

Changsoo Lee, Daewon Jung, and Keun-Wang Lee

Subjects
Electronic computers. Computer science, QA75.5-76.95
Abstract

In recent years, since the tall buildings are getting increased and getting dense in the city area, those buildings can be more and more exposed to risks such as fire and natural disasters. In case if the high-rise building is on fire, it is not easy to put out the fire even with the modernization of the firefighting equipment. These risks can directly lead to human casualties so that it is necessary to quickly have an initial evacuation or initial suppression risks. In this paper, we propose the integrated method for reducing the fire risks through sensors such as temperature and humidity, ZigBee technology, camera control and image processing technologies, and real-time data transmission technology. Based on our proposed method, it is expected that our integrated system directly leads to the expansion of risk safety management system as well as the development of USN technologies.

Published
2014
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20. Research on Real-Time Localization and Environmental Monitoring Using Sensors and ZigBee for Cold Chain System

Author

Changsoo Lee, Daewon Jung, and Keun-Wang Lee

Subjects
Electronic computers. Computer science, QA75.5-76.95
Abstract

As consumers increase the level of quality requirements for foods due to the spread of well-being culture, the demands for safe cold chain have been continuously increased. However, as we can see from the food poisoning incidents that have recently occurred, important issues are how to keep the items (foods) and manage them. Although many people are aware that these issues are important, development and investment for keeping and managing foods are not enough at present. In the existing cold chain system, it is seen that the technologies of ubiquitous sensor networks (USNs), GPS, and CDMA have been used. However, this is only applied to a particular area, and the refrigeration/freezing level is the same as the existing one. In this paper, in order to increase the utilization of the cold chain system, we use both the commercial technologies of sensors and ZigBee for environmental measurements and cellular phone or smart phone with GPS for real-time localization and date transmissions. It is expected that our implementation system that is instantly ready to use leads to the expansion of cold chain system to various fields and the development of USN technologies.

Published
2013
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21. Conducting Polymer Based Nanobiosensors

Author

Chul Soon Park, Changsoo Lee, and Oh Seok Kwon

Subjects
conducting polymer, nanobiosensors, human sense mimicking, polypyrrole, polyaniline, poly(3,4-ethylenedioxythiophene), Organic chemistry, QD241-441
Abstract

In recent years, conducting polymer (CP) nanomaterials have been used in a variety of fields, such as in energy, environmental, and biomedical applications, owing to their outstanding chemical and physical properties compared to conventional metal materials. In particular, nanobiosensors based on CP nanomaterials exhibit excellent performance sensing target molecules. The performance of CP nanobiosensors varies based on their size, shape, conductivity, and morphology, among other characteristics. Therefore, in this review, we provide an overview of the techniques commonly used to fabricate novel CP nanomaterials and their biosensor applications, including aptasensors, field-effect transistor (FET) biosensors, human sense mimicking biosensors, and immunoassays. We also discuss prospects for state-of-the-art nanobiosensors using CP nanomaterials by focusing on strategies to overcome the current limitations.

Published
2016
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28. Atomically ordered Pt3Mn intermetallic electrocatalysts for the oxygen reduction reaction in fuel cells

Author

Jeonghoon Lim, Chanwon Jung, Doosun Hong, Junu Bak, Jaewook Shin, MinJoong Kim, DongHoon Song, Changsoo Lee, Jinkyu Lim, Hyunjoo Lee, Hyuck Mo Lee, and EunAe Cho

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

A Pt3Mn intermetallic ORR electrocatalyst was synthesized using a facile synthesis without using additional multi-steps, and exhibits superior single-cell performance and durability.

Published
2022

36. Intimate atomic Cu-Ag interfaces for high CO2RR selectivity towards CH4 at low over potential

Author

Chungseok Choi, Hyuck Mo Lee, Jin Cai, Changsoo Lee, Yu Huang, and Mingjie Xu

Subjects
Materials science, 010405 organic chemistry, chemistry.chemical_element, 010402 general chemistry, Condensed Matter Physics, Electrochemistry, 01 natural sciences, Copper, Atomic and Molecular Physics, and Optics, Methane, 0104 chemical sciences, Catalysis, chemistry.chemical_compound, chemistry, Chemical engineering, Reversible hydrogen electrode, General Materials Science, Electrical and Electronic Engineering, Selectivity, Faraday efficiency, Electrochemical reduction of carbon dioxide
Abstract

Developing highly efficient electrochemical catalysts for carbon dioxide reduction reaction (CO2RR) provides a solution to battle global warming issues resulting from ever-increasing carbon footprint due to human activities. Copper (Cu) is known for its efficiency in CO2RR towards value-added hydrocarbons; hence its unique structural properties along with various Cu alloys have been extensively explored in the past decade. Here, we demonstrate a two-step approach to achieve intimate atomic Cu-Ag interfaces on the surface of Cu nanowires, which show greatly improved CO2RR selectivity towards methane (CH4). The specially designed Cu-Ag interfaces showed an impressive maximum Faradaic efficiency (FE) of 72% towards CH4production at −1.17 V (vs. reversible hydrogen electrode (RHE)).

Published
2021

37. A 90nm 1.8V 512Mb Diode-Switch PRAM with 266MB/s Read Throughput.

Author

KwangJin Lee, Beak-Hyung Cho, Woo-Yeong Cho, Sangbeom Kang, Byung-Gil Choi, Hyung-Rok Oh, Changsoo Lee, Hye-Jin Kim, Joon-min Park, Qi Wang, Mu-Hui Park, Yu-Hwan Ro, Joon-Yong Choi, Ki-Sung Kim, Young-Ran Kim, In-Cheol Shin, Ki-won Lim, Ho-Keun Cho, ChangHan Choi, Won-ryul Chung, Du-Eung Kim, Kwang-Suk Yu, Gitae Jeong, Hongsik Jeong, Choong-Keun Kwak, Chang-Hyun Kim, and Kinam Kim

Published
2007
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38. KAERI underground research laboratory: Overview of in-situ experiments.

Author

Ji-Won Kim, Jin-Seop Kim, Changsoo Lee, Sangki Kwon, Nak-Youl Ko, and Geon Young Kim

Subjects
RADIOACTIVE waste disposal, WASTE management, RADIOACTIVE wastes, NUCLEAR energy, NUCLEAR research, PUBLIC support
Abstract

Social concerns regarding the safety of high-level radioactive waste have increased with growing public awareness of environmental issues and nuclear power. The performance assessment of deep geological disposal systems is crucial to reduce the uncertainties associated with high-level radioactive waste disposal and enhance the overall public confidence in nuclear safety. Accordingly, the Korea Atomic Energy Research Institute (KAERI) has undertaken various studies on the development of a deep geological disposal system for high-level waste and disposal safety evaluation. The KAERI Underground Research Tunnel (KURT), South Korea's only underground research laboratory dedicated to radioactive waste disposal, was constructed in 2006 and expanded in 2015. Since its construction, numerous in-situ experiments have been conducted and are currently underway in the KURT. The KURT plays a significant role in assessing the feasibility, safety, stability and appropriateness of a deep geological disposal system in South Korea and also provides an opportunity to revitalize industrial-academic-scientific cooperation between related institutions. This report summarizes two key in-situ experiments and international joint research conducted between 2007 and 2017 to assess the performance of the engineered and natural barriers of the KURT. The research experiences from the in-situ tests conducted at the KURT will provide crucial information on the safety and feasibility validation of the deep geological disposal system and will be an important contributor to the success of the Korean high-level radioactive waste disposal program in the future. [ABSTRACT FROM AUTHOR]

Published
2023
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39. A 0.1µm 1.8V 256Mb 66MHz Synchronous Burst PRAM.

Author

Sangbeom Kang, WooYeong Cho, Beak-Hyung Cho, Kwangjin Lee, Changsoo Lee, Hyung-Rok Oh, Byung-Gil Choi, Qi Wang, Hye-Jin Kim, Mu-Hui Park, Yu-Hwan Ro, Suyeon Kim, Du-Eung Kim, Kang-Sik Cho, Choong-Duk Ha, Young-Ran Kim, Ki-Sung Kim, Choong-Ryeol Hwang, Choong-Keun Kwak, Hyun-Geun Byun, and YunSueng Shin

Published
2006
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41. Structural Effectiveness of AgCl-decorated Ag Nanowires Enhancing Oxygen Reduction

Author

Hyun-Seok Cho, Youngtae Park, Jahyun Koo, Jungwoo Choi, Su Yeon Choi, Changsoo Lee, Chang-Hee Kim, and Hyuck Mo Lee

Subjects
Materials science, Chemical engineering, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, Nanowire, Environmental Chemistry, General Chemistry, Oxygen reduction
Published
2021

42. Experience of Korea in setting up an insurance database system and proposed solutions for Vietnam

Author

Changsoo Lee and Vu Minh Nguyen

Subjects
Database, Business, computer.software_genre, computer
Abstract

Clause 1, Article 33, Decree 03/2021/NĐ-CP dated January 15, 2021, on compulsory civil liability insurance of motor vehicle owners, clearly regulate the responsibility of insurance companies in developing and operating information technology system to guarantee statistical affairs and update the implementation of compulsory civil liability insurance of motor vehicle owners to ensure the connection to database on compulsory civil liability insurance of motor vehicle ownersas well as responsibility for insurance companies to provide minimum information on the system. However, in reality, insurance companies use their own database systems and hesitate to share information on the common database,thus causing difficulties for management. This issue leads to difficulties in data management and sharing. A cause of this situation is that insurance companies worry about the risk of losing customers when information is public. In order to resolve this issue, the paper will analyse a model that has been successfully deployed in Korea, from which, proposes several recommendations to contribute to the early realisation of the national insurance databases in Vietnam.

Published
2021

45. Catalyst‐Support Interactions in Zr 2 ON 2 ‐Supported IrO x Electrocatalysts to Break the Trade‐Off Relationship Between the Activity and Stability in the Acidic Oxygen Evolution Reaction

Author

Changsoo Lee, Kihyun Shin, Youngtae Park, Young Hwa Yun, Gisu Doo, Gi Hong Jung, MinJoong Kim, Won‐Chul Cho, Chang‐Hee Kim, Hyuck Mo Lee, Hyun You Kim, Sechan Lee, Graeme Henkelman, and Hyun‐Seok Cho

Subjects
Biomaterials, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Published
2023

46. The effect of iridium content in boron carbide-supported iridium catalyst on the activity and stability of proton exchange membrane water electrolyzer

Author

Jahowa Islam, Sang-Kyung Kim, Md Mizanur Rahman, Phan Thanh Thien, Min-Joong Kim, Hyun-Seok Cho, Changsoo Lee, Jae Hun Lee, and Sechan Lee

Subjects
Fuel Technology, Nuclear Energy and Engineering, Renewable Energy, Sustainability and the Environment, Materials Science (miscellaneous), Energy Engineering and Power Technology
Published
2023

47. A 20nm 1.8V 8Gb PRAM with 40MB/s program bandwidth.

Author

Youngdon Choi, Ickhyun Song, Mu-Hui Park, Hoeju Chung, Sanghoan Chang, Beakhyoung Cho, Jinyoung Kim, Younghoon Oh, Dukmin Kwon, Jung Sunwoo, Junho Shin, Yoohwan Rho, Changsoo Lee, Min Gu Kang, Jaeyun Lee, Yongjin Kwon, Soehee Kim, Jaewhan Kim, Yong-jun Lee, Qi Wang, Sooho Cha, Sujin Ahn, Hideki Horii, Jaewook Lee, KiSeung Kim, Han-Sung Joo, KwangJin Lee, Yeong-Taek Lee, Jei-Hwan Yoo, and Gitae Jeong

Published
2012
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48. Will EU’s GDPR Act as an Effective Enforcer to Gain Consent?

Author

Changsoo Lee, Jemin Justin Lee, Kyungho Lee, Jinhyoung Hong, Junhyoung Oh, and Simon S. Woo

Subjects
Structure (mathematical logic), General Computer Science, Computer science, business.industry, Privacy policy, 05 social sciences, Internet privacy, General Engineering, 050801 communication & media studies, 02 engineering and technology, Service provider, Python (programming language), computer.software_genre, 0508 media and communications, Order (business), 020204 information systems, General Data Protection Regulation, 0202 electrical engineering, electronic engineering, information engineering, Key (cryptography), General Materials Science, Web service, business, computer, computer.programming_language
Abstract

Since the GDPR was implemented in 2018, organizations that collect data from the EU residents are required to receive the user’s consent. Organizational measures to ensure that the organizations are compliant to the recently enacted GDPR are still abstract and ambiguous. Moreover, data subjects and controllers have demanded the practice of obtaining consent from organizations. By observing the case law and guidelines related to the GDPR provisions, we deduced four consent conditions. Then, we examined how online service provider’s websites are making efforts to implement the GDPR framework. For this, we identified key characteristics of these websites, such as the existence of consent buttons. In order to help the data subjects obtain consent, we proposed an automatic tool that can check the consent conditions by checking the websites. Our study examined 10,000 websites for 26 days using the Python libraries with the tool automatically crawling the website information and analyzes the HTML structure according to the specified conditions. In addition, this tool crawls the privacy policy of each website. Moreover, it automatically determines whether it meets the four consent conditions by calculating it according to the formula defined in the consent condition. To evaluate the tool’s accuracy, the researchers manually analyzed 500 websites and compared the manual analysis with the results of the tool’s automatic analysis. We found that this tool differentiates itself through qualitative comparisons with other GDPR meters.

Published
2021

49. Sacrificial species approach to designing robust transition metal phosphide cathodes for alkaline water electrolysis in discontinuous operation

Author

Won Chul Cho, Sang-Kyung Kim, Hyun-Jung Oh, Changsoo Lee, Jong Hoon Joo, Hyun-Seok Cho, Ik-Sun Kim, Yong-Kul Lee, MinJoong Kim, Chang-Hee Kim, Sang-Yeon Lee, and Jae Hun Lee

Subjects
Materials science, Renewable Energy, Sustainability and the Environment, Phosphide, Alkaline water electrolysis, chemistry.chemical_element, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrocatalyst, 01 natural sciences, Cathode, 0104 chemical sciences, Cathodic protection, law.invention, chemistry.chemical_compound, chemistry, Chemical engineering, law, General Materials Science, 0210 nano-technology, Polarization (electrochemistry), Cobalt, Electrode potential
Abstract

The degradation of amorphous cobalt phosphides (CoPx) as an electrocatalyst for the hydrogen evolution reaction (HER) is studied in the discontinuous operation of alkaline water electrolysis cells (AWEs). Although amorphous CoPx shows a 100-fold enhancement in HER activity over nickel, the kinetic current for the HER is decreased after discontinuous operation. Under the off condition, the cathode potential of the AWE increases close to the equilibrium potential for CoPx oxidation to Co, Co(OH)2, CoOx, and CoPxOy. The irreversible oxide and hydroxide formation induces weaker interactions between Co and P, and thus the degradation of kinetics over CoPx, negatively affecting the HER even though a cathodic current is applied for recovery. A cathodic protection method is devised to mitigate the degradation of CoPx by shifting the electrode potential below the equilibrium potential of Co(OH)2. Mn is chosen as a sacrificial species, and it slows the rate of electrode degradation by negative polarization of the electrode. The results show that the co-deposition of even a small amount of Mn onto the CoPx electrode could limit the loss of HER activity during repeated discontinuous operation of the AWEs. Furthermore, in situ X-ray absorption near edge structure analysis confirms that the CoPx with co-deposited Mn does show the effect on holding the phase of CoPx during discontinuous operation.

Published
2021

50. Looking under the Hood for Evidence of Normalization

Author

Changsoo Lee

Abstract

The study investigated the hypothesis of normalization and stylistic variation across translators as manifested in the use of lexical bundles between translated and non-translated English literary texts. Normalization is a hypothesis originally proposed as ‘conservatism’ by Baker (1996) which states that the translator tends to conform to linguistic patterns and conventions typical of the target language even to the point of exaggeration, and lexical bundles are sequences of three or four words recurring with high frequency in natural discourse. The study was carried out in two stages. The first stage replicated previous studies that relied on simple frequency tests to confirm the normalization hypothesis. Contrary to these earlier studies, the present study’s frequency tests on lexical bundles failed to provide clear support for the normalization hypothesis. The second stage employed two types of multivariate exploratory analysis, principal component analysis (PCA) and hierarchical cluster analysis (HCA), to examine the underlying relationships among individual texts, lexical bundles, and translated and non-translated group categories. Following the failed frequency tests, it was hypothesized here that normalization might be still present in the translated corpus but restricted by types of lexical bundles. PCA confirmed this hypothesis by revealing that normalization occurred in the use of a particular functional type of lexical bundles, called discourse bundles, which are relatively free from the thematic content of the text in which they occur. This ascertains the traditional idea that statistical tests of translation hypotheses must deal with linguistic features unrelated to the thematic content of the corpus. Additionally, PCA revealed variation across the types of lexical bundles preferred by individual translators. HCA further identified the presence of a subgroup of translated texts that cluster with non-translated texts, rather than with their fellow translated texts. This was taken as indicating that the use of lexical bundles varied among the translators and that the division between translated and non-translated texts is not clear-cut.

Published
2022

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