Your search keyword '"Leong KY"' showing total 12 results

1. Review on aqueous graphene nanoplatelet Nanofluids: Preparation, Stability, thermophysical Properties, and applications in heat exchangers and solar thermal collectors

Author

Huq, T, Ong, HC, Chew, BT, Leong, KY, and Kazi, SN

Subjects

Energy, 0913 Mechanical Engineering, 0915 Interdisciplinary Engineering

Abstract

Nanofluids of graphene nanoplatelets (GNP) have superior thermal performance characteristics and good stability, are relatively affordable, and can easily be prepared by the two-step method. This review performs an in-depth analysis of the preparation, stability, and thermophysical properties of GNP nanofluids, and their applications in heat exchangers, solar thermal collectors, and heat pipes. This study analyses in detail the performance improvements achieved with pristine, covalent functionalised, and non-covalent functionalised GNP nanofluids compared to water. Covalent functionalisation was found to be superior to non-covalent functionalisation in terms of stability and heat transfer coefficients. Functionalisation by electrophilic addition and free-radical grafting were found to be more environmentally friendly compared to acid treatment. In terms of convective heat transfer coefficient, pristine GNP outperformed functionalised GNP, but both types showed large improvements compared to water. It was found that stability and heat transfer performance improved as particle size was decreased, while thermal conduction and convection coefficients increased with nanofluid concentration and temperature. Thermal conductivity improvements of over 30% were found for both pristine and covalently functionalised GNP nanofluids at 0.1 wt% concentration. A maximum convection heat transfer coefficient increase of 200% was achieved using 0.1 wt% pristine GNP nanofluid. By comparison, a maximum improvement of 119% was achieved using covalently functionalised GNP. The convective heat transfer enhancement seemed to increase with decreasing tube diameter. In flat plate solar collector applications, efficiency improvements over 20% were obtained for covalently functionalised GNP nanofluids at 0.1 wt%, while an efficiency improvement of over 65% was obtained using pristine GNP in an evacuated tube solar collector. Applications in cooling, heat pipes, and direct absorption solar collectors were also reviewed. From this study, it could be inferred that GNP nanofluids are a viable alternative working fluid. Further research is needed to optimise their performance.

Published

2022

2. Ultrasonic assisted oil extraction and biodiesel synthesis of Spent Coffee Ground

Author

Goh, BHH, Ong, HC, Chong, CT, Chen, WH, Leong, KY, Tan, SX, and Lee, XJ

Subjects

Energy, 0306 Physical Chemistry (incl. Structural), 0904 Chemical Engineering, 0913 Mechanical Engineering

Abstract

© 2019 Spent Coffee Ground (SCG) was studied as a potential source of oil feedstock for biodiesel production as an alternative waste utilisation instead of being disposed as municipal waste. This study evaluated the ultrasonic assisted oil extraction from SCG, which was followed by biodiesel conversion via transesterification. Hexane was found to be the most effective extractant for SCG oil. Soxhlet extraction could obtain maximum SCG oil yield of 12.5% within 3 h whereas the highest SCG oil yield (14.52%) using ultrasonic extraction was obtained at hexane to SCG ratio of 4 mL g−1 and at 30% ultrasonic amplitude for 30 min. The improved oil yield with shorter extraction time was due to the ultrasonic fragmentation on SCG cells, which enhanced the interactions between oil and solvents. Fourier transform infrared analysis showed that the SCG oil possessed suitable functional groups for biodiesel conversion. Then, the SCG oil was successfully converted to biodiesel via ultrasonic assisted transesterification. The optimal FAME yield (97.11%) was achieved with molar ratio of methanol to SCG oil of 30:1, 4 wt% of catalyst concentration, at 30% ultrasonic amplitude and for 3 h. The produced SCG biodiesel has promising properties which adhere to the biodiesel standards but acid value was beyond the permissible limit which could be overcome by utilising as blend feedstock with other commercially available biodiesel. The high calorific value along with low viscosity, density and corrosion properties suggested SCG biodiesel as an interesting and viable option for biodiesel blending.

Published

2020

3. Proof of life: Human remains and memory in the Philippine Drug War.

Author

Leong KY

Abstract

This paper examines the aftermath of the Philippine government's anti-drug campaign under President Rodrigo Duterte, focusing on the impact on families of victims of extrajudicial killings (EJKs). Drawing on fieldwork conducted in Manila, the research explores how these families navigate loss and attempt to reclaim dignity and humanity for their loved ones. The study reveals the formation of a community of "necro-activists" comprising journalists, religious figures, and medical professionals who support victims' families in seeking justice and remembrance. Through interviews with photojournalists and victims' families. This paper highlights the transformative role of human remains in asserting the victims' agency beyond death. The research shows how forensic processes and religious rituals contribute to the reclamation of individual identities and challenge the state's dehumanizing narratives. By examining the evolving meanings of EJK victims' remains, this study sheds light on the broader socio-political implications of state violence and memory-making in the Philippines. The analysis situates this research within a global context of human rights and memory studies, drawing parallels with other regions affected by state-sponsored violence. Ultimately, this paper argues that the remains of EJK victims serve as powerful symbols that challenge state impunity and embody the resilience of communities seeking accountability and dignity amid pervasive violence.

Published

2024

4. Navigating the interconnected risks in currency valuation: unveiling the role of climate policy uncertainty.

Author

Afshan S, Razi U, Leong KY, Lelchumanan B, and Cheong CWH

Subjects

Uncertainty, Climate Change, Risk Management, Economic Development, Climate, Policy

Abstract

Given the significance of fostering sustainable climate conditions for long-term economic stability and financial resilience, this study probes the connection between climate-related policy ambiguity and its implications for currency valuation. In doing so, the current study investigates the interconnected effects of climate policy on economic policy uncertainty and geopolitical risk with the currency valuation in ASEAN countries. Employing wavelet coherence analysis and partial wavelet coherence analysis, the paper highlights the complex relationships among these factors and their implications for exchange rate fluctuations. Using data from 2000 to 2022, the findings reveal that climate policy uncertainty is an important driver of exchange rate movements, amplifying the impact of economic policy uncertainty and geopolitical risk. Furthermore, the study identifies a vicious cycle between climate policy uncertainty and exchange rates, potentially impacting the region's macroeconomic stability and long-term economic growth. The study presents several policy recommendations to address economic and climate policy uncertainties comprehensively based on the findings. These recommendations include establishing national frameworks for climate risk management, enhancing policy credibility and macroeconomic stability, and promoting regional integration to mitigate the influence of geopolitical risk on exchange rates., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

5. On approximating a weak Markovian process as Markovian: Are we justified when discarding longtime correlations.

Author

Leong KY and Wang F

Abstract

The effect for removing weak longtime correlation is studied using a model system that contains a driven atom at liquid density under strong thermal fluctuations. The force that drives the tagged particle is about 1% of the average random force experienced by the particle. The tagged particle is allowed to assume a range of masses from 1/8 to 80 times that of a surrounding particle to study the effects of inertia. The driving force is indefinitely correlated but much weaker than "random" fluctuations from the environment. From this study, it is shown that the environmental influence is not fully random leading to the force autocorrelation function being a poor metric for detecting the correlated driving force. Although the velocity autocorrelation function shows stronger correlation for systems with higher inertia, the velocity autocorrelation function decays to a very small value of 2.5×10 -3 even for the most massive driven particle. For systems with small inertia, our study reveals that discarding longtime correlation has negligible influence on the first passage time (FPT) estimate, whereas for particles with large inertia, the deviation can indeed be appreciable. It is interesting that the Markov State Model (MSM) still produces reasonable estimates on the FPT even when a very short lag time that clearly violates the Markovianity assumption is used. This is likely a result of favorable error cancellations when the MSM transition probability matrices were constructed using trajectories that are much longer than the lag time.

Published

2019

6. A molecular dynamics investigation of the surface tension of water nanodroplets and a new technique for local pressure determination through density correlation.

Author

Leong KY and Wang F

Abstract

The surface tension of nanoscale droplets of water was studied with molecular dynamics simulations using the BLYPSP-4F water potential. The internal pressure of the droplet was measured using an empirical correlation between the pressure and density, established through a series of bulk simulations performed at pressures from 1 to 1000 bars. Such a procedure allows for reliable determination of internal pressure without the need to calculate the local virial. The surface tension, estimated with the Young-Laplace relation, shows good agreement with the Tolman equation with a Tolman length of -0.48 Å. The interface of a liquid water droplet is shown to be around 1.1-1.3 nm thick depending on radii. The fairly thick interface region puts a lower limit on the size of droplets that still have a bulk-like interior.

Published

2018

7. Anaerobic treatment of pharmaceutical wastewater: A critical review.

Author

Shi X, Leong KY, and Ng HY

Subjects

Anti-Bacterial Agents, Bacteria, Anaerobic, Bioreactors, Salinity, Sewage, Drug Industry, Waste Disposal, Fluid, Wastewater

Abstract

Pharmaceutical wastewaters are usually produced by chemical-synthetic process, and thus contain high levels of organic pollutants, biotoxicity and salinity. Anaerobic technology is a viable option for treating pharmaceutical wastewater owing to its advantages of withstanding high organic-loading, less sludge production and lower operating cost as compared with conventional activated sludge process. In this paper, several types of modern anaerobic or hybrid systems were reviewed on their pollutant reduction performance and operating conditions for treating pharmaceutical wastewater. Meanwhile, the typical predominant microbial populations found in anaerobic process treating pharmaceutical wastewater were summarized. Moreover, the environmental impact of antibiotic residues and health risk of spreading of antibiotic resistant genes (ARGs) were also assessed to offer an in-depth understanding of the growing concern on the discharge of treated pharmaceutical effluent., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

8. Effect of operational factors on bioregeneration of binary phenol and 4-chlorophenol-loaded granular activated carbon using PVA-immobilized biomass cryogels.

Author

Leong KY, Adnan R, Lim PE, Ng SL, and Seng CE

Subjects

Adsorption, Biomass, Biodegradation, Environmental, Charcoal, Chlorophenols chemistry, Cryogels, Phenol chemistry

Abstract

The effects of dry biomass density in cryogel beads, shaking speed and initial concentration ratio of phenol to 4-chlorophenol (4-CP) on the bioregeneration efficiencies of binary phenol and 4-CP-loaded granular activated carbon (GAC) for phenol and 4-CP, respectively, were investigated under the simultaneous adsorption and biodegradation approach. The results revealed higher bioregeneration efficiencies of binary-loaded GAC for phenol and 4-CP at higher dry biomass density but moderate shaking speed. The optimum dry biomass density in cryogel beads and shaking speed for use in bioregeneration were found to be 0.01 g/mL and 250 rpm, respectively. With respect to the initial phenol to 4-CP concentration ratio, the bioregeneration efficiencies were lower under increasing phenol and 4-CP initial concentrations, respectively, with the effect being more conspicuous under increasing 4-CP concentration. Higher bioregeneration efficiencies were achieved with the use of immobilized rather than suspended biomasses.

Published

2017

9. Possible Evidence for a New Form of Liquid Buried in the Surface Tension of Supercooled Water.

Author

Rogers TR, Leong KY, and Wang F

Abstract

Contrary to the historical data, several recent experiments indicate that the surface tension of supercooled water follows a smooth extrapolation of the IAPWS equation in the supercooled regime. It can be seen, however, that a small deviation from the IAPWS equation is present in the recent experimental measurements. It is shown with simulations using the WAIL water potential that the small deviation in the experimental data is consistent with the tail of an exponential growth in surface tension as temperature decreases. The emergence temperature, Te, of a substantial deviation from the IAPWS equation is shown to be 227 K for the WAIL water and 235 K for real water. Since the 227 K Te is close to the Widom line in WAIL water, we argue that real water at 235 K approaches a similar crossover line at one atmospheric pressure.

Published

2016

10. The impact of methicillin- and aminoglycoside-resistant Staphylococcus aureus on the pattern of hospital-acquired infection in an acute hospital.

Author

Meers PD and Leong KY

Subjects

Aminoglycosides, Drug Resistance, Microbial, Hospitals, University, Humans, Methicillin Resistance, Risk Factors, Singapore epidemiology, Staphylococcus aureus pathogenicity, Anti-Bacterial Agents pharmacology, Cross Infection epidemiology, Methicillin pharmacology, Staphylococcus aureus drug effects

Abstract

Infections due to methicillin- and aminoglycoside-resistant Staphylococcus aureus (MARSA) appeared in a new teaching hospital shortly after it opened. The effect this had on the pattern of hospital-acquired infections in the four years that followed is described. No control measures were applied and MARSA became endemic. New infections appeared at a rate of about four for each 1000 patients discharged. It established itself at different levels of incidence in various specialist units, patients under intensive care being most severely affected. MARSA was implicated in half of all hospital-acquired infections due to S. aureus but it was not more pathogenic than its more sensitive counterpart. It had little impact on the life of the hospital.

Published

1990

11. Ritual sprinkling as a source of hospital-acquired infection.

Author

Kumarasinghe G, Tan YO, Singh M, Chow C, and Leong KY

Subjects

Humans, Male, Middle Aged, Cross Infection etiology, Pneumonia etiology, Visitors to Patients

Published

1990

12. Hot-air hand driers.

Author

Meers PD and Leong KY

Subjects

Humans, Cross Infection prevention & control, Hand Disinfection, Hot Temperature

Published

1989