Your search keyword '"Kien Anh Le"' showing total 23 results

1. Bacterial Cellulose Aerogels Derived from Pineapple Peel Waste for the Adsorption of Dyes

Author

Ha Vu Le, Nghia Thi Dao, Ha Truc Bui, Phung Thi Kim Le, Kien Anh Le, An Thi Tuong Tran, Khoa Dang Nguyen, Hanh Huynh Mai Nguyen, and Phuoc Hoang Ho

Subjects

Chemistry, QD1-999

Published

2023

2. Effect of Ultrasound on Silicon Extraction from Coal Fly Ash

Author

Tam Le Van, Kien Anh Le, and Ky Phung Nguyen

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Coal ?y ash from coal-fired power stations in Vietnam, which can cause serious environmental problems if managed improperly, is a promising silicon source for zeolite synthesis. This paper investigated the effects of ultrasound (UTS) energy on the extraction of silicon from the coal fly ash produced by the Duyen Hai thermal power plant using a 20-kHz probe immersed in the reaction mixture. Silicon was extracted from the ?y ash in an alkaline solution at different temperatures, times, and ultrasonic powers. The second-order design, or the central composite design, was employed to investigate the effect of each parameter on silicon extraction. Data analysis was performed by Response Surface Methodology (RSM) using Design Expert software. With ultrasound assistance, the efficiency of silicon extraction reached 65.92 %, which is a very high extraction efficiency considering the short extraction time and lack of fusion step. With the use of ultrasound, the extraction efficiency is significantly increased compared to the fusion method. The optimal region predicted from the empirical modeling is around the center point (90 °C, 50 min, 50 % amplitude).

Published

2022

3. Recovery of Rice Straw Cellulose on Pilot Scale for Fabrication of Aerogel for Oil/Water Separation

Author

Nhi Vo, Chi Thi Xuan Nguyen, Tan M. Le, Co Dang Pham, Nga Hoang Nguyen Do, Kien Anh Le, Thanh Phong Mai, and Phung Thi Kim Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Recently, bio-based materials that are both environmental-friendly and highly functional were synthesized from various waste and biomass. Rice straw, a by-product of paddy production, is abundant lignocellulosic biomass with high cellulose content. The utilization of this natural resource for high functional material often meets with difficulties due to a large amount of lignin and silica present in the material matrix. While rice straw has been employed for biofuel production on pilot scale, its use for cellulose recovery has only been performed in laboratory-scale equipment. Here we show a simple process to effectively recover cellulose from rice straw on a pilot scale, after which the extracted cellulose was used for the preparation of aerogel. The alkali pretreatment removed the majority of lignin and silica, yielding semi-product with cellulose content of 73 %, then the bleaching step with hydrogen peroxide further eliminated colored impurities to increase the cellulose content to 90 %. The obtained cellulose was then employed to fabricate cellulose aerogel with low density, high surface area, and porous structure, which showed a good performance in the separation of oil and water, with the maximum capacity reaching 21.7 g/g. The process is a promising solution for converting rice straw into a more valuable product for water treatment on a larger scale.

Published

2022

4. Review of The Role of Pretreatment Step in Nanocellulose Production from Rice Straw

Author

Co Dang Pham, Tan M. Le, Chi Thi Xuan Nguyen, Nhi Vo, Nga Hoang Nguyen Do, Kien Anh Le, Thanh Phong Mai, and Phung Thi Kim Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Nanocellulose is one of the most valuable biomass-derived materials, possesses outstanding properties, and is widely used in numerous applications for biomedical fields, packaging, and environmental waste treatment. Rice straw is an abundant by-product from the rice industry and among cellulose-rich feedstocks. The pristine structural network of this raw material is complicated composing cellulose, hemicellulose, and lignin. Therefore, the pretreatment step is necessary to facilitate further stages in the biomass conversion process. The effect of such methods on the characteristics of nanocellulose products from rice straw has not been widely investigated in comparison with other types of biomass. This review summarized the common methods for rice straw pretreatment and the effects of distinct methods on the obtained nanocellulose. Alkaline pretreatment is considered as one of the most effective method for the extraction of cellulose from lignocellulosic complex. Based on a comprehensive summary, this review also shows that cellulose nanocrystals (CNCs) which is usually isolated by acid hydrolysis, has a high crystallinity index due to the removal of amorphous region. Cellulose nanofibrils (CNFs) is obtained by employing mechanical methods to reduce the particle size of cellulose fibers.

Published

2022

5. Microfibrillated Cellulose from Pineapple Leaves for Synthesizing Novel Thermal Insulation Aerogels

Author

Luon Nguyen, Giang Chi Tu, Thinh Phu Le, Nga Hoang Nguyen Do, Viet Thanh Tran, Thanh Phong Mai, Thang Van Le, Kien Anh Le, and Phung Thi Kim Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Aerogels from cellulose and its derivatives, especially cellulosic wastes, have been known as an excellent heat insulation material in steam generation, buildings, intelligent food packaging, fire-retardant clothing, and thermal protective equipment because of their lightweight properties, high stability, and extremely low thermal conductivities. Towards the scope of maximizing the bio-based resources utilization in day-to-day life, pineapple leaves (PLs) are converted into microfibrillated cellulose (MFC) fibers. PLs are first pretreated step by step with NaOH and NaOH/H2O2 solution to enrich cellulose content. This was followed by acid hydrolysis (H2SO4 40 wt%) and high-speed homogenization for MFC production. The obtained cellulose microfibers are further exploited to produce cost-effective, eco-friendly, and high-value engineering aerogels cross-linked by a common polyamide amine-epichlorohydrin (PAE) for the first time. The developed procedure is feasibly applied to mass production at a pilot-scale because of its simplicity, cost-effectiveness, and environmental friendliness. The resulting aerogels exhibit ultra-low density (below 30.0 g/cm3) and high porosity (above 98.0 %) along with high elasticity. Morphology analysis reveals that most of the pores within the aerogels are macroporous, and the diameter of fibers is around 2-3 µm. The heat conductivity of as-fabricated aerogels is in the range of 0.035-0.043 W/m?K, which is comparable to some heat insulation products such as glass wool (0.031-0.043 W/m?K), cellular glass (0.038-0.043 W/m?K), and mineral wool (0.034-0.045 W/m?K). The effects of cellulose and PAE contents on the morphology, physical, mechanical, and thermal behaviors of the synthesized aerogels are also investigated. The MFC aerogels from pineapple leaves are considered novel and promising candidates for bio-based heat insulation applications.

Published

2022

6. Synthesis of Cellulose Aerogels from Coir Fibers via a NaOH/Urea Method for Methylene-blue Adsorption

Author

Ngoc Tram Thi Nguyen, Nghiep Quoc Pham, Cong Minh Pham, Chinh Nguyen Dinh, Anh Khoi Tran, Minh Hieu Nguyen, Phung Thi Kim Le, Kien Anh Le, and V. Cuong Tran

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Coir (i.e., coconut fiber) is one of the popular agricultural waste products, especially in Vietnam, mostly discarded when copra and coconut water are taken, causing environmental pollution and waste of potential biomass. Various research has been done to reuse this resource as advanced materials. In this study, the NaOH-urea-H2O2 combination was utilized to make cellulose aerogel from coir fibers for the first time. Cellulose aerogel was synthesized by the sol-gel method combined with the freeze-drying technique. The properties of cellulose aerogel were determined, such as density, porosity, surface morphology analysis by FTIR, SEM, and thermal stability evaluation by TGA analysis. They exhibit low density (0.0099 - 0.0158 g/cm3), high porosity (98.96 - 99.35 vol%), and the methyl blue adsorption experiment shows cellulose aerogel's ability to treat color in water is significant.

Published

2021

7. Treatment of Antibiotic Residues of Fluoroquinolones (Ofloxacin) in Hospital Wastewater using Peroxone Oxidation Process

Author

Cong Minh Pham, Nghiep Quoc Pham, and Kien Anh Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

In recent years, the presence of antibiotics in the environment has become a new threat to living organisms. Many advanced treatment technologies have been applied to treat antibiotic residues, especially in advanced oxidation processes. The traditional wastewater treatment process can be replaced by advanced oxidation (AOP), highly reactive free radicals, especially hydroxyl radicals (•OH) generated via Fenton (H2O2/Fe), peroxone (O3/H2O2), electrochemical oxidation, photochemical, serve as the main oxidant. In this study, antibiotic residues of Fluoroquinolones (Ofloxacin) are assessed in hospital wastewater after treatment and evaluated factors affecting peroxone oxidation process. The results show that the treatment efficiency is 72 % at initial OFL concentration of 20 µg.L-1, O3 (5 mg.L-1) flow rate is 1 L.min-1, initial H2O2 concentration of 50 mg.L-1 at pH 7. The OFL removal efficiency by peroxone process decreased when inorganic ions (CO32-, HCO3-, Cl-) were added at the concentration of 1mM. . The peroxone process is a promising technique to replace traditional technologies to treat antibiotic residues in wastewater.

Published

2021

8. Carbon Aerogel - Application as Toxic Vapor Adsorbent in Respirator

Author

Nghiep Quoc Pham, Cong Minh Pham, Kien Anh Le, Ngoc Tram Thi Nguyen, Chinh Nguyen Dinh, and Phung Le Thi Kim

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

In order to protect rescue personnel from the harmful effects of vapors during fire or chemical incidents, respirators are used as a mandatory requirement. The toxic gas adsorbent is a very important component of the respirator. In this study, carbon aerogel filter with a nonwoven fabric (polypropylene - PP, polyethylene terephthalate - PET) was fabricated by a sol-gel method incorporating thermal processes. Carbon nanomaterials are determined specific surface area by Brunauer-Emmett-Teller (BET), material surface shape and structure by Scanning Electron Microscopy (SEM), density. Experimentally evaluate the benzene vapor adsorption capacity of the filter plate at the initial benzene concentration of 5ppm, the temperature of 40 °C and the gas flow up to 30 L.min-1. The resulting carbon aerogel filter has a surface area of ??720.5–805.6 (m2/g), porosity (97.5-98.9 vol%) and pore size (6.1-22.2 Å). CAF-PP and CAF-PET filters have capacity equivalent adsorption, 2.3 and 2.4 mg/g. Breakthrough time for both materials is more than 30 min. CAF-PET filter has shown to be more suitable for use in respirator than CA-PP filter when have lower pressure loss. The results show that the carbon aerogel is suitable for use as an adsorbent for respirator.

Published

2021

9. Green Fabrication of Multi-functional Aerogel Composite from Fly Ash and Recycled Plastic Fibers for Heat and Sound Insulation

Author

Nga Hoang Nguyen Do, Oanh Hong Thi Cao, Man Thi Kim Tran, Kien Anh Le, and Phung Thi Kim Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Fly ash (FA), an abundant waste from thermal power plants in Vietnam, has been recycled 100 % into multi-functional aerogel composites for heat and sound insulation by the green fabrication developed in this study. The hollow structure of aerogel composites is created by sublimation of water in a mixture of FA and recycled polyethylene terephthalate (rPET) fibers bound by environmentally friendly adhesives including polyvinyl alcohol (PVA) and xanthan gum (XG). As result, the FA/rPET aerogel composites exhibit an exceedingly low density of 0.045 - 0.060 g/cm3 and high porosity of 94.81 - 97.02 %. The aerogel composites have a low thermal conductivity of 0.035 - 0.040 W/(m·K), a comparably high noise reduction coefficient (NRC) of 0.49, and a high working temperature of 220 °C. The prepared FA/rPET aerogel composites display the ability to slow down the burning in the presence of FA at 3.0 wt% with a burning rate of 1.0 mm/s and extinguish the flame only 30 s. The effect of FA content on the morphology, physical and mechanical properties as well as thermal conductivity, acoustic insulation, and slow-burning of the aerogel composites is also investigated comprehensively. The features of slow-burning aerogel composites from FA and rPET fibers such as lightweight, flexibility, thermal and sound insulation give them great potential in civil engineering towards a green approach and sustainable development.

Published

2021

10. Novel Fabrication of Renewable Aerogels from Coconut Coir Fibers for Dye Removal

Author

Nguyen Tran Xuan Phuong, Kim H. Ho, Chi Thi Xuan Nguyen, Yen Tieu Dang, Nga Hoang Nguyen Do, Kien Anh Le, Tai Chiem Do, and Phung Thi Kim Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Water pollution resulted from the discharge of the textile industry limits light penetration into the water, negatively affects the photosynthesis of aquatic organisms, and causes serious risks of cancer and genetic mutation for humans living near the emission site. The utilization of porous materials like aerogels to adsorb dye has been one of the effective methods for wastewater treatment. The fabrication of renewable materials from agricultural waste both to take advantage of its abundance and increase its value has gained research interest in recent years. In this research, this is the first time natural cellulose aerogel from coconut fibers (CFs) have successfully been developed by physically cross-linking cellulose with non-toxic binders including polyvinyl alcohol (PVA) and xanthan gum (XTG) in distilled water, followed by cost-effective freeze-drying to sublimate water and leave the hollow structure. The as-fabricated cellulose aerogel exhibits a tremendously low density (0.041 g/cm3) and high porosity (96.30 %). The aerogels are then tested for methylene blue (MB) adsorption in water to evaluate its applicability in the treatment of dye-contaminated water with varied investigated factors such as contact time, pH values, and MB initial concentrations. The MB adsorption process of the aerogels reaches equilibrium after 50 min and their adsorption isotherms follow the Freundlich model with an R-square value of 0.9453. It is worth noting that the highest adsorption capacity of the synthesized aerogels is up to 11.84 mg/g when the initial MB concentration is 25 mg/L at pH 7. The feasible procedure to synthesize recycled cellulose aerogels from CFs with green chemicals in this study has created good promise for dye adsorbents. About the potential economic benefits, the CFs are abundant agricultural wastes, easy pretreated processing involved in saving energy costs.

Published

2021

11. Coal Fly Ash in Vietnam and its Application as a Lightweight Material

Author

Nghiep Quoc Pham and Kien Anh Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Each year in Vietnam, to operate the country's thermal power plants, it is necessary to utilize a large quantity of coal. The power plants then generate a large amount of coal fly ash (FA), which is a hazardous solid waste that can seriously affect the environment. There is an urgent need to develop appropriate solutions for treating or reusing the generated FA. In this study, the layout of coal-fired thermal power plants in Vietnam, as well as the country's coal use and FA emissions, are discussed. Research is reviewed on the potential applications of FA in Vietnam, along with related research from the past 20 y worldwide, and is found to demonstrate that the main application of FA is that of a geopolymer in construction, acting as a low-cost adsorbent that removes compounds, organic matter, emissions, metals, light aggregates, backfills, and auxiliary baselines, and synthesizes zeolites. On that basis, FA samples collected in the northern and southern regions of Vietnam were analyzed for their chemical compositions. The results determined that FA throughout Vietnam has the chemical composition, SiO2 + Al2O3 + Fe2O3 over 70 wt%. This is FA of classification F, according to TCVN 10302: 2014 (2014) and ASTM C618. This study concludes that the fly ash originating in Vietnam is suited to the production of porous, super-light materials with a high technical value, such as aerogels or aerogel composites. Such materials as these possess special properties such as a low density, high specific surface area or porosity, low thermal conductivity, sound insulation, low dielectric constant, low optical refractive index, or a high optical transmission capacity, elasticity, durability, or flexibility. The application of Vietnamese FA in the production of materials such as these is recommended by this paper, as a means of countering the environmental pollution problem of coal-fired thermal power plants and promoting the development of advanced materials in Vietnam.

Published

2021

12. Effect of Synthesis Conditions on Carbon Aerogels Material to Remove Pesticide in Cuu Long Delta Rivers

Author

Kien Anh Le, Nghiep Quoc Pham, and Minh Cong Pham

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Carbon aerogel is taken into account for a new material with many unique properties that can be applied in many different application fields. The properties of carbon aerogels are distributed across a wide range and are controlled by many conditions in the synthesis process. For each different application area, carbon aerogel is synthesized under different conditions to meet the required properties for materials such as: surface area, specific gravity, conductivity, pore size, etc. Therefore, the assessment of the quality of synthetic carbon aerogels will create a premise to guide them in appropriate fields. Besides, it is also possible to optimize the synthesis process to achieve materials of good quality, properties suitable for each specific requirement. The specific weight less than 0.5 g/cm3. Specific surface area from 633 to 800 m2/g. Pore size from 7 to 22 A With the properties of carbon aerogel materials synthesized, assess the adsorption capacity of carbon aerogel to treat heavy metals Fe, As and pesticides (Cypermethrin / DDT) in laboratory water samples and surface water samples taken from the rivers in the Cuu Long Delta. The results show that the ability to adsorb and process metals and pesticides is very good. Processing efficiency of iron and arsenic reaches 92-99%. Meanwhile, the ability to absorb plant protection drugs Cypermethrin / DDT also reached 95 - 99 %.

Published

2020

13. Optimisation of Energy Usage in Ceramic Kiln Using Pinch Technique

Author

Kien Anh Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

The Pinch technology is one of the most advanced methodologies for energy saving in processes and total sites based on thermodynamic principles. In ceramic industry, energy distribution in kiln is very complex. The pinch analysis was used to minimise energy levels for ceramic kiln during operation at Phuoc Du Long ceramic company in Vietnam. Using Pinch technology, it was possible to identify appropriate changes in the core process conditions that could have an impact on energy savings. After the heat and material balance was established, targets for energy saving could be set prior to the design of the heat exchanger network in ceramic kiln. The results showed that the efficiency of the heat exchanger in the flue heat exchanger network had been determined. This also indicated that at the optimisation conditions, the heat loss was at a minimum. The heat and material balance were established in ceramic kiln. From the basic heat and material balance inside the old type of ceramic kiln, the energy lost via flue gas emission and heat transfer was found to be about 600 kJ. The Pinch point at 820 °C was determined to give a chance for energy saving.

Published

2018

14. Experimental and Computational Fluid Dynamics Investigation of Rice Husk Updraft Gasifier with Various Gasification Agents

Author

Khoa Anh Tran, Phung Thi Kim Le, Viet Vuong Pham, Thien Luu Minh Nguyen, Truc Thanh Nguyen, Tu Ngoc Tran, and Kien Anh Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

Utilising biomass for thermal generation purpose is one of the ways to reduce CO2 emissions. For that reason, the biomass gasification process is used to produce rich heating value fuel which is known as syngas. Because of the complicated nature of this field, the research should comprise both conducting experimental investigation on actual facilities and developing a numerical model. This study compared the affection of two kinds of gasification agents, the air and the air-steam mixture, on the composition of syngas and cumulative CO. The ratio of steam for the best quality of syngas was then determined. The two-dimensional Computational Fluid Dynamics (CFD) was developed for determining the suitable kinetics model. The parameters of geometry were taken from practical pilot plant gasifier. The validation process for this simulation was carried out by comparing the simulation data with experimental data which was measured by online gas analyser-TESTO 350XL. The results illustrate the influence of air-steam mixture on the composition of CO and H2 in syngas, H2/CO ratio, and the advantage of using the stream in gasification on both experimental and simulation results.

Published

2018

15. Grape Processing By-Product as a Source of Nutraceutical Components

Author

Phung Thi Kim Le, Huy Pham Hoang Vo, Quan Thi Hong Vu, Tuyet Thi Ngoc Nguyen, and Kien Anh Le

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

The aim of this study was to evaluate the oil and bioactive contents of grape waste by both conventional and microwave-assisted extraction (MAE) methods. Other controlled factors included the segment solvent used (n- hexane-methanol, n-hexane-ethanol), the solid/solvent ratios (1 : 5, 1 : 10, 1 : 20 g/mL) and in MAE, the microwave powers (40 W, 240 W and 440 W). The extracts were analysed for the contents of fatty oil, lipid hydroperoxide content (LP), total phenolic content (TPC), total flavonoid content (TFC), and antioxidant capacity. The optimal conditions for the grape oil recovery were at 240 W, using n-hexane-ethanol solvent, and the ratio of 1 : 10 by using the MAE method. At the same ratio conditions, the highest contents of LP and TPC were 0.032 mM (at 440 W) and 43.657 mg gallic acid (AG)/dry weight (at 240 W). At 440 W and ratio of 1: 10, TFC peaked the highest point at 37.862 mg quercetin/g dry weight. The results indicated that grape waste is a valuable input for a wide range of applications in nutraceutical and food industries, offering an additional economic by-product for the grape processing.

Published

2018

16. Green recycling of fly ash into heat and sound insulation composite aerogels reinforced by recycled polyethylene terephthalate fibers

Author

Tuan Anh Le, Huy Q. Tran, Kien Anh Le, Nghiep Quoc Pham, Phuc T.T. Nguyen, Hai M. Duong, Phung Thi Kim Le, Nga H. N. Do, and Tan M. Le

Subjects

Materials science, Renewable Energy, Sustainability and the Environment, Strategy and Management, Composite number, Environmental pollution, Aerogel, Building and Construction, Industrial and Manufacturing Engineering, chemistry.chemical_compound, Compressive strength, chemistry, Fly ash, Polyethylene terephthalate, Fiber, Composite material, Porosity, General Environmental Science

Abstract

Fly ash is waste from thermal power plants that not only has a serious impact on soil and water but also accumulates in landfills and must be treated properly. In addition, plastic waste, especially polyethylene terephthalate bottles, deteriorates for a long time, so there is an urgent need to recycle them into valuable products. To solve the environmental pollution mentioned above, a feasible zero-waste method has been developed that converts 100% of fly ash into a lightweight composite aerogel reinforced with recycled polyethylene terephthalate fiber. In this study, raw fly ash is bound to the skeleton of the fibers by a non-toxic, biodegradable xanthan gum solution as a binder, which is then lyophilized, leaving a hollow porous structure. The obtained composite aerogels display extremely low density of 0.026–0.062 g/cm3, high porosity of 96.59–98.42%, low thermal conductivity of 34–39 mW/(m·K), flexibility with Young's modulus of 3.98–20.61 kPa, and noise reduction coefficient of 0.18–0.31. Adding fly ash to the fiber framework results in a lightweight composite aerogel with higher porosity, heat, and acoustic insulation, as well as impressive compressive modulus, compared to the fly ash-free aerogels. This study provides a safe, environmentally friendly, and cost-effective solution for recycling fly ash into high-value engineering materials.

Published

2021

17. Advanced Fabrication of Lightweight Aerogels from Fly Ash for Thermal Insulation

Author

Nghiep Quoc Pham, Huy Gia Tran, Huong Ly Xuan Doan, Phung Thi Kim Le, Nga H. N. Do, and Kien Anh Le

Subjects

Fabrication, Materials science, Thermal insulation, business.industry, Fly ash, Metallurgy, General Medicine, business

Abstract

For the first time, an environmentally friendly and effective procedure to produce high-value engineering aerogels from fly ash (FA) has been developed by dispersing FA particles into a mixture of biodegradable polyvinyl alcohol (PVA) and carboxymethyl cellulose (CMC), followed by freezedrying. The effect of FA content on the physical properties, morphology, mechanical strength, and thermal conductivity of FA aerogels is also studied comprehensively. The lightweight FA aerogels show a low density of 0.072 – 0.093 g/cm3 with high porosity of 94.94 – 95.78%. The morphology of aerogels shows the uniform distribution of FA particles in PVA-CMC matrixes that creates a porous structure with a pore size of 2-5 mm. Therefore, the FA aerogels exhibit good heat insulation with extremely low thermal conductivity of 0.040 – 0.047 W/m.K at ambient temperature and pressure that is comparable to some commercial insulation materials such as mineral wool, fiberglass, expanded polystyrene, and other silica-based aerogels from waste. Moreover, the compressive modulus of FA aerogels is about 67.73 – 254.75 kPa indicating their excellent mechanical properties under 1 kN vertical compression. The experimental results indicate the significant better durability of FA aerogels than that of previous aerogels from other wastes such as sugarcane bagasse (88 kPa), pineapple leaf fibers (1.64 – 5.34 kPa), recycled polyethylene terephthalate (1.16 – 2.87 kPa), spent coffee grounds (5.41 – 15.62 kPa), and silica – cellulose (86 – 169 kPa). It is concluded that FA aerogels are a promising candidate as a lightweight thermal insulating material.

Published

2021

18. Characteristics of carbon aerogel at variation in pyrolysis conditions

Author

Kien Anh Le, Nghiep Quoc Pham, and Duyen K. Le

Subjects

Materials science, Variation (linguistics), chemistry, Chemical engineering, chemistry.chemical_element, Aerogel, General Medicine, Carbon, Pyrolysis

Abstract

Carbon aerogel was obtained by pyrolysis of organic aerogel by ambient pressure drying technique. The effect of pyrolysis conditions on characteristics of carbon aerogel such as density, specific surface area and conductivity was studied. The properties and structure of carbon aerogel samples were investigated by nitrogen adsorption, four-point probe method and XRD diffraction. The results showed that carbon aerogel had structure between amorphous and graphite state. The highest specific surface area was 800 m2/g at pyrolysis temperature of 700oC. The pore-size was distributed in microporous, with the maximum total pore volume of 0.44 cm3/g. The electrical conductivity of carbon aerogel was highest at pyrolysis temperature of 800-900oC with the value in the range of 1.744-1.923 S/cm.

Published

2016

19. Capacitive deionization (CDI) for desalisation using carbon aerogel electrodes

Author

Nghiep Quoc Pham, Kien Anh Le, and Duyen K. Le

Subjects

Materials science, chemistry, Chemical engineering, Capacitive deionization, Electrode, chemistry.chemical_element, Aerogel, General Medicine, Carbon

Abstract

Capacitive deionization (CDI) is an electrochemical water treatment process that holds the promise of not only being a commercially viable alternative for treating water but for saving energy as well. Carbon aerogel electrodes for CDI process with high specific surface area (779.04 m2/g) and nano-pore (2-90 nm) have been prepared via pyrolyzing RF organic aerogel at 800oC in nitrogen atmosphere. The CDI characteristics of carbon aerogel electrodes were investigated for the NaCl absorption into a CDI cell at variation conditions. Experiments data showed that the maximum NaCl removal capacity was 21.41 mg/g in 500 mg/L NaCl solution, higher than for other carbon-based materials in the literature. It was evaluated that the CDI process using carbon aerogel electrodes promising to be an effective technology for desalination.

Published

2016

20. Microwave-assisted extraction of Taxol and 10-Deacetyl baccatin III from the leaves and branches of red pine (Taxus wallichiana Zucc.)

Author

Kien Anh Le, Phung Thi Kim Le, Khoa Anh Tran, Tuyet Thi Ngoc Nguyen, and Quan Thi Hong Vu

Subjects

chemistry.chemical_compound, Chromatography, chemistry, biology, Baccatin III, Extraction (chemistry), General Medicine, Taxus wallichiana, biology.organism_classification, Microwave assisted, Red pine

Abstract

Taxol has been by far the most well-known worldwide as an effective anticancer natural drug. With the great treatment abilities at low concentration, Taxol is a considerable interest of many scientists in various fields. The commercial products of Taxol can be isolated directly from Taxus species or can be synthesized from 10-deacetylbaccatin III (10-DAB III) or baccatin III (BC III), which are known as precursors of Taxol, by using semisynthetic methods. In this study, the extraction of Taxol and 10-DAB III from the leaves and branches of red pine cultivated in Lam Dong Province, Vietnam was carried out. Some traditional methods such as Soxhlet, maceration as well as the modern methods such as microwave-assisted extraction (MAE), ultrasonic-assisted extraction (UAE) were used to extract and evaluate the extraction efficiency. The concentration of 10-DAB III experienced at over 90% as compared to maceration and the amount of Taxol accounted for approximately 80% of Soxhlet. MAE was thus more suitable for recovering both Taxol and 10-DAB III than the others because of its short time and less solvent consumption. Besides, four parameters including solvent nature (MeOH and EtOH), extraction time, material/solvent ratio (1:10, 1:15, 1:20 and 1:25) and microwave power (40W, 240W and 440W) were investigated the effects of these elements on the content of 10-DAB III and Taxol. The results illustrated that the optimal conditions providing 95.85% 10-DAB III were as follows: 240W, 1:15 ratio and 20 minutes for extraction. To get the highest amount of Taxol (79.83%), extraction was subjected at these conditions concluding 40W, 1:25 ratio and 20 minutes. Diaion, NP-silicagel were used to enrich taxol and 10-DAB III from methanol extract and chloroform extract, respectively. The highest concentration of Taxol and 10-DAB III constituted at 0.64% and 19.76% with NP-silicagel (PE: aceton, 7:3).

Published

2016

21. CFD researched on rice husk gasification in a pilot fixed bed up-draft system

Author

Kien Anh Le, Duyen K. Le, Phung Thi Kim Le, Viet T. Tran, Truc, Thanh, Nguyen, Thien, Luu, Minh, Nguyen, Nghiep Quoc Pham, and Viet, Vuong, Pham

Subjects

Waste management, Fixed bed, business.industry, Hull, Environmental science, General Medicine, Computational fluid dynamics, business, Husk

Abstract

Finding alternative energy sources for fossil fuels was a global matter of concern, especially in developing countries. Rice husk, an abundant biomass in Viet Nam, was used to partially replace fossil fuels by gasification process. The study was conducted on the pilot plant fixed bed up-draft gasifier with two kind of gasification agents, pure air and air-steam mixture. Mathematical modeling and computer simulations were also used to describe and optimize the gasification processes. Mathematical modeling was based on Computational Fluid Dynamics method and simulation was carried by using Ansys Fluent software. Changes in outlet composition of syngas components (CO, CO2, CH4, H2O, H2) and temperature of process, in relation with ratio of steam in gasification agents, were presented. Obtained results indicated concentration of CH4, H2 in outlet was increased significantly when using air-steam gasification agents than pure air. The discrepancies among the gasification agents were determined to improve the actual process.

Published

2016

22. Optimisation of durian peel based activated carbon preparation conditions for dye removal

Author

Kien Anh Le and Phung Thi Kim Le

Subjects

Chemical engineering, Chemistry, medicine, General Medicine, Activated carbon, medicine.drug

Abstract

Agricultural wastes are considered to be a very important feedstock for activated carbon production as they are renewable sources and low cost materials. This study present the optimize conditions for preparation of durian peel activated carbon (DPAC) for removal of methylene blue (MB) from synthetic effluents. The effects of carbonization temperature (from 673K to 923K) and impregnation ratio (from 0.2 to 1.0) with potassium hydroxide KOH on the yield, surface area and the dye adsorbed capacity of the activated carbons were investigated. The dye removal capacity was evaluated with methylene blue. In comparison with the commercial grade carbons, the activated carbons from durian peel showed considerably higher surface area especially in the suitable temperate and impregnation ratio of activated carbon production. Methylene blue removal capacity appeared to be comparable to commercial products; it shows the potential of durian peel as a biomass source to produce adsorbents for waste water treatment and other application. Optimize condition for preparation of DPAC determined by using response surface methodology was at temperature 760 K and IR 1.0 which resulted the yield (51%), surface area (786 m2/g), and MB removal (172 mg/g).

Published

2013

23. SYNTHESIS OF PHENOTHIAZINE DERIVATIVES AS NOVEL MOIETIES TOWARD UTILIZATION IN ALTERNATIVE DONOR – ACCEPTOR CONJUGATED POLYMERS

Author

Khuong Tung Truong, Kien Anh Le, and Ha Tran Nguyen

Subjects

chemistry.chemical_classification, chemistry.chemical_compound, chemistry, Phenothiazine, Polymer, Conjugated system, Alternative donor, Combinatorial chemistry, Acceptor

Abstract

Two new phenothiazine – based structures, including 4-(10H-phenothiazin-10-yl)-N,N-diphenylaniline (PDA) and 10-(pyren-1-yl)-10H-phenothiazine (PyP) were synthesized via Buchwald-Hartwig C-N coupling amination using catalytic palladium modulated by electron-rich ligands. Chemical structures were analysed via proton nuclear magnetic resonance (1H NMR) spectroscopy. Then, photo-properties were characterized by UV – Vis absorption spectroscopy in various concentrations of each product. The results showed that PDA and PyP are highly potential donor units for well-performed donor – acceptor conjugated polymers.

Published

2018