Applied Mechanics and Materials Vol. 793

Paper Title Page

Abstract: Malaysia is a small country surrounded by numerous oceans that can provide sufficient renewable energy for utilization. This work is to propose a design and modeling of a portable linear permanent magnet generator for the Wave Energy Conversion system that suits with the local wave parameters. Linear generator is preferable as compared to the rotary generator due to the direct drive technology that promises low maintenance cost. Three linear permanent magnet generator designs with different types of permanent magnet layout have been proposed as the permanent magnet used can provide better flux density compared to other topologies. Preliminary results for the air gap flux distribution and open-circuit flux distribution are demonstrated and discussed are shown to be as expected.
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Abstract: Intermittent wind energy in producing optimal power flow could lead to unstable generated power. Due to this, an energy storage that can release and absorb energy need to be used in order maintains the generated voltage at the permitted quality for the load. Nowadays, tons of energy storage systems are used in storing the energy. Flywheel energy storage system (FESS) becomes one of potential mechanism that can be used to smooth the voltage output of wind turbine due to its advantages. The aim of this study is to design and implement a FESS for critical load in a wind energy system that can store energy for a short time period. Then, period of the voltage generated by FESS using different capacitance is analyzed. FESS consists of a self-excited capacitance induction motor-generator set (SEIG), controller circuit and flywheel rotor. In this study, a three phase asynchronous induction machine is used as a motor-generator due to its simplicity, cheap, robust and less maintenance. The flywheel and SEIG-motor set could store the energy for a short period of time, which can be used to compensate for wind instability. Results show that FESS generates variable powers that compensate short time power to the wind system.
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Abstract: The purpose of this paper is compare between DC brushless fan and DC hybrid solar panel cooling system. The efficiency of PV module is depending on solar irradiance and ambient temperature. As temperature of PV module increase, the output current will increase but output voltage and output power will decrease and also vice versa. As solar irradiance increase, output current and output power will increase with linear and output voltage will increase with marginal and vice versa. The DC cooling system is a way to fix the issue of low efficiency of PV module with the intention to generate more electrical energy. To make an attempt to cool down the PV module, DC brushless fan and water pump with inlet/outlet manifold are built for constant fresh air movement and water flow circulation at the backside and front surface of PV module. The PV module with DC brushless fan cooling system increase 3.47 %, 29.55 %, 32.23 % in term of output voltage, output current, and output power respectively. It decrease 6.1 °C compare than to PV module without DC brushless fan cooling system. While PV module with DC hybrid cooling system increase 4.99 %, 39.90 %, 42.65 % in term of output voltage, output current, and output power respectively. It decrease 6.79 °C compare to PV module without DC hybrid cooling system. The efficiency of PV module with cooling system was increasing compared to PV module without cooling system, for the reason that the ambient temperature dropped significantly. An increase in efficiency of PV module, investment payback period of the system can reduce and the lifespan of PV module will be prolonged.
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Abstract: This paper proposes the implementation of a simple fuzzy logic controller (FLC) for a DC-DC boost converter based on a microcontroller to obtain maximum power from the solar system with the maximum power point tracking (MPPT) method. The system includes a solar panel, DC-DC boost converter, the fuzzy logic controller implemented on Arduino Uno for controlling on/off time of MOSFET of the boost converter, voltage divider and optocoupler circuit. This paper presents a fuzzy logic real time code in the Arduino language for ATmega328 microcontroller on the Arduino UNO board. The designed system increases the efficiency of the solar panel based on experimental results.
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Abstract: This paper presents a wind energy assessment for a resort island in the South China Sea that has a seasonal climate contributed by the monsoon seasons. The resort island selected for this study is Tioman, as it denotes the typical energy requirements of most resort islands in the South China Sea. The island depends primarily on diesel-fuel for electricity generation. However, diesel is subjected to expensive and unpredictable market values, high operation and maintenance costs, and poses environmental threats. Therefore, the potential for wind energy conversion system development is conducted in order to reduce the island’s diesel fuel dependency. The study starts with energy auditing and meteorological data collection. Subsequently, the wind energy potential is evaluated using Weibull distribution function. The results indicate that the wind speed vary according to seasons, where higher wind power can be generated during the northeast monsoon season than any other seasons.
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Abstract: This paper reviews the available types of wind turbine which is one of the wind energy applications. The authors intend to give investors a better idea of which turbine is suitable for a particular setting and to provide a new outlook on vertical axis wind turbines. Wind technology has grown substantially since its original use as a method to grind grains and will only continue to grow. Vertical-axis wind turbines are more compact and suitable for residential and commercial areas while horizontal-axis wind turbines are more suitable for wind farms in rural areas or offshore. However, technological advances in vertical axis wind turbines that are able to generate more energy with a smaller footprint are now challenging the traditional use of horizontal wind turbines in wind farms. Vertical axis wind turbines do not need to be oriented to the wind direction and offer direct rotary output to a ground-level load, making them particularly suitable for water pumping, heating, purification and aeration, as well as stand-alone electricity generation. The use of high efficiency Darrieus turbines for such applications is virtually prohibited by their inherent inability to self-start.
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Abstract: Microbial Fuel Cell (MFC) technology utilizes bacterial growth in carbon-containing substrates to generate electricity. For direct production of electricity, this MFC operates aerobically at the cathode and anaerobically at the anodes. This study tested the effect of glucose (10 %, 20 %, 30 %, 40 % and 50 % (w/w)), on the growth of bacteria, and then subsequent electricity production after 144 hours of the incubation period. Obvious substrate degradation rates (SDE) were detected in MFC fed with initial glucose concentration of 20 % (w/w) and 30 % (w/w) at 46.29 % and 40.27 %, respectively. The former generated 0.808 mW and the later was 0.736 mW. Glucose, being a basic component for growth of electrogenic bacteria influenced electricity generation. Higher the glucose concentration supplemented to the sludge, the more saturated the substrate was. Hence, inhibited the bacterial growth, and reduced electricity generation.
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Abstract: The purpose of this paper is discussed about comparative efficiency of solar panel by utilize DC water pump and DC hybrid cooling system. Ambient temperature and solar irradiance are played main role of the efficiency of PV module. When temperature of PV module increase, the efficiency of PV module will decreased and vice versa. When solar irradiance increase, output current and output power will increase with linear and output voltage will increase with marginal and vice versa. A solution is provided to solve problem of low efficiency of PV module which is DC cooling system. DC brushless fan and water pump with inlet/outlet manifold were designed for actively cool the PV module to improve efficiency of PV cells. The PV module with DC water pump cooling system increase 3.52 %, 36.27 %, 38.98 % in term of output voltage, output current, and output power respectively. It decrease 6.36 °C compare than to PV module without DC water pump cooling system. While PV module with DC hybrid cooling system increase 4.99 %, 39.90 %, 42.65 % in term of output voltage, output current, and output power respectively. It decrease 6.79 °C compare to PV module without DC water pump cooling system. The higher efficiency of PV module, the payback period of the system can be shorted and the lifespan of PV module can be longer.
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Abstract: Researches are always thinking of a way to produce power to fuel due to the needs of the world today. In broad, green energy source such as thermal, hydroelectric, solar and wind turbine has become popular, but it does not limit to new idea generation of power. One of new discovery is the use of solar window, the manufacturing and cost of the panel is still in an early stage where the price of the panel is considered quite expensive. In this paper, the speed bump is used as a main component for power generation. Generally, for safety issues, the speed bump is put into an area where the vehicle needs to slow down. During this, a vehicle weight contact with the speed bump and therefore energy is created. This energy can be reused to power traffic light, light post or supply general electricity to a particular building. Basically, the concept of kinetic energy is discussed in general besides the design and development of a power generating speed bump. However, the efficiency and the durability are looked into consideration. In conclusion, the innovative design of the speed bump as a power generation seems to be promising, and it offers opportunities for new innovation power producing device on the road.
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Abstract: Microelectromechanical system (MEMS) piezoelectric transducer has been widely used as a mechanism for converting mechanical vibration into electrical power energy harvester.This paper presents a simulation result of cantilever-type piezoelectric MEMS generator with four different profiles to characterize the ability in producing a maximum output power at low frequency ambient vibration.Zinc Oxide is chosen as the piezoelectric material during the simulation. The simulation was conducted using IntelliSense’s CAE tool to obtain the natural frequency, electrical potential, and the optimum length dimension for each profile. The simulation result shows an excellent performance from trapezoidal shapetransducer with the electrical potential of 0.914 V at low frequency of 79.92 Hz.
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