Experimental Study of CO₂ Plasticization in Polysulfone Membrane for Biogas Processing

Polymeric membranes have emerged for biogas processing to remove CO2 from CH4. Nonetheless, it is also acknowledged that polymeric membranes have the tendency to sorb highly condensable CO2, which consequently swells the polymeric matrix, typically at operating condition higher than the plasticization pressure. The swelling increases void spaces for transport of gas penetrants, which results in an increment in permeability of all gas components at the cost of substantial decrease in membrane selectivity. Despite observations of the end results of plasticization, it is found that many transport property studies include only permeability measurements near ambient conditions. Complementary information on the individual contributions of the sorption and diffusion coefficients to the overall performance typically at non-ambient operating conditions is rarely reported. Therefore, in present study, experimental study has been conducted to fabricate polysulfone (PSF) film. Validity of the developed polysulfone membrane has been verified through characterization and validated with gas transport behavior of published results. Subsequently, transport properties of CO2 though the PSF membrane at varying operating temperatures has been elucidated. The dual mode sorption and partial immobilization models have been employed to quantify the gas transport properties of noncondensable CH4 and condensable CO2 through PSF membrane

Love in the making.

“Love in the Making” examines Singapore’s latest drive at romance, marriage intimacy and family planning. The following report explains the creation process of this video documentary final-year project.Bachelor of Communication Studie

Effects of the Asian Economic Crisis (AEC) on the MNEs in the ASEAN manaufacturing sector.

The Asian Economic Crisis (AEC) had affected the Foreign Direct Investments (FDI) into ASEAN. This report analyze the effects of AEC on the FDI in the manufacturing sector by conducting primary and secondary research. This report also analyze the factors contributing to FDI, and avenues for future research

Goodwood project

Our team, U.niq, collaborates with Goodwood Florist to embark on a brand-building campaign with several creative strategies recommended by us. From our literature review, we realized the importance of a strong brand. Therefore, a consistent theme, “refresh.reborn.recreate” is being used throughout the campaign. We implemented several research methods to achieve a clear understanding of the management, operations and future plans of Goodwood Florist. After gaining a better understanding of the company and its consumers, we feel that it is necessary for Goodwood Florist to enhance its image, reposition and strategize itself so as to target new potential consumers. With these objectives, Goodwood Florist will be able to gain an edge over its competitors in the industry. In order to achieve these objectives, our campaign targets to re-brand the company using a subtle approach. Two events were proposed to publicize the new identity of Goodwood Florist.Bachelor of Communication Studie

Flexible work arrangements : why you have it and i don't - a study of the critical factors that influence the implementation.

This study investigates the extent to which selected factors from previous literature, influence companies’ reluctance to adopt FWAs in Singapore and to find out if companies of different sizes and in different industries are similar in this aspect. A quantitative and qualitative approach is taken to achieve this objective

Effect of a Different Number of Amine-Functional Groups on the Gas Sorption and Permeation Behavior of a Hybrid Membrane Comprising of Impregnated Linde T and 4,4′- (Hexafluoroisopropylidene) Diphthalic Anhydride-Derived Polyimide

The bottleneck of conventional polymeric membranes applied in industry has a tradeoff between permeability and selectivity that deters its widespread expansion. This can be circumvented through a hybrid membrane that utilizes the advantages of inorganic and polymer materials to improve the gas separation performance. The approach can be further enhanced through the incorporation of amine-impregnated fillers that has the potential to minimize defects while simultaneously enhancing gas affinity. An innovative combination between impregnated Linde T with different numbers of amine-functional groups (i.e., monoamine, diamine, and triamine) and 4,4′-(hexafluoroisopropylidene) diphthalic anhydride (6FDA)-derived polyimide has been elucidated to explore its potential in CO2/CH4 separation. Detailed physical properties (i.e., free volume and glass transition temperature) and gas transport behavior (i.e., solubility, permeability, and diffusivity) of the fabricated membranes have been examined to unveil the effect of different numbers of amine-functional groups in Linde T fillers. It was found that a hybrid membrane impregnated with Linde T using a diamine functional group demonstrated the highest improvement compared to a pristine polyimide with 3.75- and 1.75-fold enhancements in CO2/CH4 selectivities and CO2 permeability, respectively, which successfully lies on the 2008 Robeson’s upper bound. The novel coupling of diamine-impregnated Linde T and 6FDA-derived polyimide is a promising candidate for application in large-scale CO2 removal processes

Inhibition of FLT1 ameliorates muscular dystrophy phenotype by increased vasculature in a mouse model of Duchenne muscular dystrophy.

Duchenne muscular dystrophy (DMD) is an X-linked recessive genetic disease in which the dystrophin coding for a membrane stabilizing protein is mutated. Recently, the vasculature has also shown to be perturbed in DMD and DMD model mdx mice. Recent DMD transcriptomics revealed the defects were correlated to a vascular endothelial growth factor (VEGF) signaling pathway. To reveal the relationship between DMD and VEGF signaling, mdx mice were crossed with constitutive (CAGCreERTM:Flt1LoxP/LoxP) and endothelial cell-specific conditional gene knockout mice (Cdh5CreERT2:Flt1LoxP/LoxP) for Flt1 (VEGFR1) which is a decoy receptor for VEGF. Here, we showed that while constitutive deletion of Flt1 is detrimental to the skeletal muscle function, endothelial cell-specific Flt1 deletion resulted in increased vascular density, increased satellite cell number and improvement in the DMD-associated phenotype in the mdx mice. These decreases in pathology, including improved muscle histology and function, were recapitulated in mdx mice given anti-FLT1 peptides or monoclonal antibodies, which blocked VEGF-FLT1 binding. The histological and functional improvement of dystrophic muscle by FLT1 blockade provides a novel pharmacological strategy for the potential treatment of DMD

Microwave processing of oil palm wastes for bioenergy production and circular economy: Recent advancements, challenges, and future prospects

The valorization and conversion of biomass into various value-added products and bioenergy play an important role in the realization of sustainable circular bioeconomy and net zero carbon emission goals. To that end, microwave technology has been perceived as a promising solution to process and manage oil palm waste due to its unique and efficient heating mechanism. This review presents an in-depth analysis focusing on microwave-assisted torrefaction, gasification, pyrolysis and advanced pyrolysis of various oil palm wastes. In particular, the products from these thermochemical conversion processes are energy-dense biochar (that could be used as solid fuel, adsorbents for contaminants removal and bio-fertilizer), phenolic-rich bio-oil, and H2-rich syngas. However, several challenges, including (1) the lack of detailed study on life cycle assessment and techno-economic analysis, (2) limited insights on the specific foreknowledge of microwave interaction with the oil palm wastes for continuous operation, and (3) effects of tunable parameters and catalyst's behavior/influence on the products’ selectivity and overall process's efficiency, remain to be addressed in the context of large-scale biomass valorization via microwave technology.</p