Luis K. Cabatingan
University of San Carlos
16 Papers
12 Citations
Luis K. Cabatingan is an academic researcher from University of San Carlos. The author has contributed to research in topics: Catalysis & Methanol. The author has an hindex of 9, co-authored 16 publications. Previous affiliations of Luis K. Cabatingan include Delft University of Technology.
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Papers
Solution blow spinning (SBS) and SBS-spun nanofibers: Materials, methods, and applications
Glebert C. Dadol,Ali Kilic,Leonard D. Tijing,Kramer Joseph A. Lim,Luis K. Cabatingan,Noel Peter Bengzon Tan,Elena Stojanovska,Yusuf Polat +7 more
TL;DR: In this paper, a comprehensive overview of solution blow spinning, including the principles, materials, methods, and applications, is presented, along with perspectives, challenges, opportunities, and new directions of the SBS technology.
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Simultaneously carbonized and sulfonated sugarcane bagasse as solid acid catalyst for the esterification of oleic acid with methanol
Ken P. Flores,Jan Laurence O. Omega,Luis K. Cabatingan,Alchris Woo Go,Ramelito C. Agapay,Ramelito C. Agapay,Yi-Hsu Ju +6 more
TL;DR: In this article, a solid acid catalyst was synthesized from sugarcane bagasse, a residue left behind during sugar milling, through a simpler and less energy-intensive one-step process, simultaneous carbonization-sulfonation.
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Energy densification of sugarcane bagasse through torrefaction under minimized oxidative atmosphere
TL;DR: In this paper, torrefaction of dry sugarcane bagasse (SCB) was investigated under minimized oxidative atmosphere, eliminating the need for an inert gaseous medium.
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Energy densification of sugarcane leaves through torrefaction under minimized oxidative atmosphere
TL;DR: The torrefaction of sugarcane leaves at various temperatures (250-350°C) and times (0-75min) under minimized oxidative atmosphere was investigated in this article to improve its characteristics as solid fuel.
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Solid fuel from Co-briquetting of sugarcane bagasse and rice bran
Carl John Louie G. Navalta,Kristian Gregg C. Banaag,Von Adrian O. Raboy,Alchris Woo Go,Alchris Woo Go,Luis K. Cabatingan,Yi-Hsu Ju +6 more
TL;DR: In this article, the effects of co-briquetting of SCB and RB were investigated under fixed compression temperature (150°C), time (30 min), and rate (0.34 MPa/s).
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