Your search keyword '"Sin Chew Poh"' showing total 8 results

1. Design and Experimental Analysis of an Exhaust Air Energy Recovery Wind Turbine Generator

Author

Ahmad Fazlizan, Wen Tong Chong, Sook Yee Yip, Wooi Ping Hew, and Sin Chew Poh

Subjects

building integrated wind turbine, exhaust air system, energy savings, clean energy, urban wind energy, Technology

Abstract

A vertical axis wind turbine (VAWT) was positioned at the discharge outlet of a cooling tower electricity generator. To avoid a negative impact on the performance of the cooling tower and to optimize the turbine performance, the determination of the VAWT position in the discharge wind stream was conducted by experiment. The preferable VAWT position is where the higher wind velocity matches the positive torque area of the turbine rotation. With the proper matching among the VAWT configurations (blade number, airfoil type, operating tip-speed-ratio, etc.) and exhaust air profile, the turbine system was not only able to recover the wasted kinetic energy, it also reduced the fan motor power consumption by 4.5% and increased the cooling tower intake air flow-rate by 11%. The VAWT had a free running rotational speed of 479 rpm, power coefficient of 10.6%, and tip-speed-ratio of 1.88. The double multiple stream tube theory was used to explain the VAWT behavior in the non-uniform wind stream. For the actual size of a cooling tower with a 2.4 m outlet diameter and powered by a 7.5 kW fan motor, it was estimated that a system with two VAWTs (side-by-side) can generate 1 kW of power which is equivalent to 13% of energy recovery.

Published

2015

2. Design and Testing of a Novel Building Integrated Cross Axis Wind Turbine

Author

Wen Tong Chong, Mohammed Gwani, Chin Joo Tan, Wan Khairul Muzammil, Sin Chew Poh, and Kok Hoe Wong

Subjects

cross axis wind turbine, gable roof shape, wind energy, renewable energy, urban wind energy system, building integrated wind turbine, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The prospect of harnessing wind energy in urban areas is not promising owing to low wind speeds and the turbulence caused by surrounding obstacles. However, these challenges can be overcome through an improved design of wind turbine that can operate efficiently in an urban environment. This paper presents a novel design of a building integrated cross axis wind turbine (CAWT) that can operate under dual wind direction, i.e., horizontal wind and vertical wind from the bottom of the turbine. The CAWT consists of six horizontal blades and three vertical blades for enhancing its self-starting behavior and overall performance. The study employed a mock-up building model with gable rooftop where both of the developed CAWT and the conventional straight-bladed vertical axis wind turbine (VAWT) are mounted and tested on the rooftop. The height of the CAWT and the VAWT above the rooftop was varied from 100 to 250 mm under the same experimental conditions. The results obtained from the experimental study showed that there is significant improvement in the coefficient of power (Cp) and self-starting behavior of the building integrated CAWT compared to the straight-bladed VAWT. At 100 mm height, the Cp,max value of the CAWT increased by 266%, i.e., from 0.0345 to 0.1263, at tip speed ratio (TSR) (λ) of 1.1 and at wind speed of 4.5 m/s. Similar improvements in performance are also observed for all condition of CAWT heights above the rooftop where the CAWT outperformed the straight-bladed VAWT by 196%, 136% and 71% at TSR of 1.16, 1.08, and 1.12 for Y = 150, 200, and 250 mm, respectively. Moreover, the CAWT performs better at 10° pitch angle of the horizontal blade compared to other pitch angles.

Published

2017

3. A Review of Natural Fiber Reinforced Poly(Vinyl Alcohol) Based Composites: Application and Opportunity

Author

Luqman Chuah Abdullah, Boon Khoon Tan, Sin Chew Poh, Yern Chee Ching, and Seng Neon Gan

Subjects

Vinyl alcohol, Materials science, Polymers and Plastics, Economies of agglomeration, environmental degradation, polymer-matrix composites (PMCs), General Chemistry, fibers, mechanical properties, Processing methods, Nanocellulose, lcsh:QD241-441, chemistry.chemical_compound, Synthetic fiber, lcsh:Organic chemistry, chemistry, Composite material, Natural fiber, Renewable resource

Abstract

Natural fibers are fine examples of renewable resources that play an important role in the composites industry, which produces superior strength comparable to synthetic fibers. Poly(vinyl alcohol) (PVA) composites in particular have attracted enormous interest in view of their satisfactory performance, properties and biodegradability. Their performance in many applications such as consumer, biomedical, and agriculture is well defined and promising. This paper reviews the utilization of natural fibers from macro to nanoscale as reinforcement in PVA composites. An overview on the properties, processing methods, biodegradability, and applications of these composites is presented. The advantages arising from chemical and physical modifications of fibers or composites are discussed in terms of improved properties and performance. In addition, proper arrangement of nanocellulose in composites helps to prevent agglomeration and results in a better dispersion. The limitations and challenges of the composites and future works of these bio-composites are also discussed. This review concludes that PVA composites have potential for use in numerous applications. However, issues on technological feasibility, environmental effectiveness, and economic affordability should be considered.

Published

2015

4. Review of Bionanocomposite Coating Films and Their Applications

Author

Cheng Hock Chuah, Sin Chew Poh, Mhd Abd Cader Mhd Haniffa, Luqman Chuah Abdullah, and Yern Chee Ching

Subjects

Materials science, Polymers and Plastics, Nanotechnology, 02 engineering and technology, Review, engineering.material, 010402 general chemistry, 01 natural sciences, Nanomaterials, lcsh:QD241-441, Coating, lcsh:Organic chemistry, crosslink, nanomaterials, chemistry.chemical_classification, Nanocomposite coating, General Chemistry, Polymer, 021001 nanoscience & nanotechnology, Biodegradable polymer, coating film, 0104 chemical sciences, chemistry, bionanocomposite, biodegradable polymers, engineering, Biopolymer, 0210 nano-technology

Abstract

The properties of a composite material depend on its constituent materials such as natural biopolymers or synthetic biodegradable polymers and inorganic or organic nanomaterials or nano-scale minerals. The significance of bio-based and synthetic polymers and their drawbacks on coating film application is currently being discussed in research papers and articles. Properties and applications vary for each novel synthetic bio-based material, and a number of such materials have been fabricated in recent years. This review provides an in-depth discussion on the properties and applications of biopolymer-based nanocomposite coating films. Recent works and articles are cited in this paper. These citations are ubiquitous in the development of novel bionanocomposites and their applications.

Published

2016

5. A review of natural fiber reinforced poly(Vinyl alcohol) based composites: application and opportunity

Author

Boon, Khoon Tan, Yern, Chee Ching, Sin, Chew Poh, Chuah, Luqman, Seng, Neon Gan, Boon, Khoon Tan, Yern, Chee Ching, Sin, Chew Poh, Chuah, Luqman, and Seng, Neon Gan

Abstract

Natural fibers are fine examples of renewable resources that play an important role in the composites industry, which produces superior strength comparable to synthetic fibers. Poly(vinyl alcohol) (PVA) composites in particular have attracted enormous interest in view of their satisfactory performance, properties and biodegradability. Their performance in many applications such as consumer, biomedical, and agriculture is well defined and promising. This paper reviews the utilization of natural fibers from macro to nanoscale as reinforcement in PVA composites. An overview on the properties, processing methods, biodegradability, and applications of these composites is presented. The advantages arising from chemical and physical modifications of fibers or composites are discussed in terms of improved properties and performance. In addition, proper arrangement of nanocellulose in composites helps to prevent agglomeration and results in a better dispersion. The limitations and challenges of the composites and future works of these bio-composites are also discussed. This review concludes that PVA composites have potential for use in numerous applications. However, issues on technological feasibility, environmental effectiveness, and economic affordability should be considered.

Published

2015

6. Review of Bionanocomposite Coating Films and Their Applications.

Author

Mhd Haniffa, Mhd Abd Cader, Yern Chee Ching, Luqman Chuah Abdullah, Sin Chew Poh, and Cheng Hock Chuah

Subjects

NANOCOMPOSITE materials, SURFACE coatings, BIOPOLYMERS, BIODEGRADABLE materials, NANOSTRUCTURED materials

Abstract

The properties of a composite material depend on its constituent materials such as natural biopolymers or synthetic biodegradable polymers and inorganic or organic nanomaterials or nano-scale minerals. The significance of bio-based and synthetic polymers and their drawbacks on coating film application is currently being discussed in research papers and articles. Properties and applications vary for each novel synthetic bio-based material, and a number of such materials have been fabricated in recent years. This review provides an in-depth discussion on the properties and applications of biopolymer-based nanocomposite coating films. Recent works and articles are cited in this paper. These citations are ubiquitous in the development of novel bionanocomposites and their applications. [ABSTRACT FROM AUTHOR]

Published

2016

7. A Review of Natural Fiber Reinforced Poly(Vinyl Alcohol) Based Composites: Application and Opportunity.

Author

Boon Khoon Tan, Yern Chee Ching, Sin Chew Poh, Abdullah, Luqman Chuah, and Seng Neon Gan

Subjects

NATURAL fibers, POLYVINYL alcohol, SYNTHETIC fibers, AGGLOMERATION (Materials), POLYMERIC composites, ENVIRONMENTAL degradation

Abstract

Natural fibers are fine examples of renewable resources that play an important role in the composites industry, which produces superior strength comparable to synthetic fibers. Poly(vinyl alcohol) (PVA) composites in particular have attracted enormous interest in view of their satisfactory performance, properties and biodegradability. Their performance in many applications such as consumer, biomedical, and agriculture is well defined and promising. This paper reviews the utilization of natural fibers from macro to nanoscale as reinforcement in PVA composites. An overview on the properties, processing methods, biodegradability, and applications of these composites is presented. The advantages arising from chemical and physical modifications of fibers or composites are discussed in terms of improved properties and performance. In addition, proper arrangement of nanocellulose in composites helps to prevent agglomeration and results in a better dispersion. The limitations and challenges of the composites and future works of these bio-composites are also discussed. This review concludes that PVA composites have potential for use in numerous applications. However, issues on technological feasibility, environmental effectiveness, and economic affordability should be considered. [ABSTRACT FROM AUTHOR]

Published

2015

8. Design and Experimental Analysis of an Exhaust Air Energy Recovery Wind Turbine Generator.

Author

Fazlizan, Ahmad, Wen Tong Chong, Sook Yee Yip, Wooi Ping Hew, and Sin Chew Poh

Subjects

VERTICAL axis wind turbines, WIND power, PERFORMANCE of wind turbines, TURBINE generators, WIND energy conversion systems

Abstract

A vertical axis wind turbine (VAWT) was positioned at the discharge outlet of a cooling tower electricity generator. To avoid a negative impact on the performance of the cooling tower and to optimize the turbine performance, the determination of the VAWT position in the discharge wind stream was conducted by experiment. The preferable VAWT position is where the higher wind velocity matches the positive torque area of the turbine rotation. With the proper matching among the VAWT configurations (blade number, airfoil type, operating tip-speed-ratio, etc.) and exhaust air profile, the turbine system was not only able to recover the wasted kinetic energy, it also reduced the fan motor power consumption by 4.5% and increased the cooling tower intake air flow-rate by 11%. The VAWT had a free running rotational speed of 479 rpm, power coefficient of 10.6%, and tip-speed-ratio of 1.88. The double multiple stream tube theory was used to explain the VAWT behavior in the non-uniform wind stream. For the actual size of a cooling tower with a 2.4 m outlet diameter and powered by a 7.5 kW fan motor, it was estimated that a system with two VAWTs (side-by-side) can generate 1 kW of power which is equivalent to 13% of energy recovery. [ABSTRACT FROM AUTHOR]

Published

2015