Ahmad Fitri Yusof scite author profile

2015

Energy Procedia

In the last few decades, electrostatic precipitators (ESP) have been modernized and many new methods have been implemented to increase in term of cleaning efficiency for particles in the sub micrometer size range. An electrical force has been implemented to increase the collection efficiency for removing particulate matter (PM) in the diesel engine. Based on results of particle properties and health effects studies, measurement systems are being discussed. This paper reviews the works that have been done in term of fundamental of ESP and electrical properties of ESP. The concept of ESP is ESPs only give electrostatic force to the particle. Thus, the gasses are not directly to the ESP and will results comparatively lower pressure drop. Therefore, the cost can be lowered down than the other filtration systems such as cyclonic and mechanical filtration. ESP In order to accumulate the charge by the particles, several factors will be taken into account such as particle size, dielectric constant and residence time in ESP. Also there are two type charging mechanism which are diffusion and field charging. The result of study is ESP can archive 99 percent of removal efficiency for a certain type of particulate.

Vertical Axis Wind Turbines: An Overview

Mohamed

2020

Influence of Oxygenated Additive on Blended Biodiesel-Diesel Fuel Properties

Ali

Mamat

Faizil

et al. 2013

AMM

Diesel fuel is widely used in almost all scopes of life, especially in the transportation sector which accounts for 36% of total energy consumed in 2008 in Malaysia. The transportation sector represents the higher energy consuming sector after industrial sector. As the main fuel used in diesel engine now is the fossil fuels which depleting continually accompanied by increasing consumption and prices day by day. Blended biodiesel fuel is considered as alternatives to current fossilized fuels at a low blending level less than 30% biodiesel. The fuel physical characteristics are among the most important parameter to determine the quality of each fuel. Though biodiesel can replace diesel satisfactorily, problems related to fuel properties persist at high blending ratio. In this study an oxygenated additive diethyl ether (DEE) was added to palm oil biodiesel (POME)-diesel blend B40 (40% vol. POME + 60% vol. diesel) in the ratios of 2%, 4%, 6% and 8% and tested for their properties improvement. These blends were tested for energy content and various fuel properties according to ASTM standards. Qualifying of the effect of additive on palm biodiesel-diesel blended fuel properties can serve the researchers who work on biodiesel fuels to indicate the fuel suitability for diesel engines according to fuel standards. The results showed an improvement in acid value, viscosity and density. The minimum pour point for the blended fuel was-2 °C for B40DE6 compare to 1°C for blended fuel B40, while maximum decrease in energy content for B40DE8 was about 7.36% compare to blended fuel B40.

Comparative Study of Particulate Matter (PM) Emissions in Diesel Engine Using Diesel-Methanol Blends

Mamat

Yasin

et al. 2013

AMM

In this research, Palm Oil Methyl Ester (PME) was added to methanol-biodiesel fuel in order to reduce the emissions. Thus, for diesel engines, alcohols are receiving increasing attention because they are oxygenated and renewable fuels. Therefore, in this study, the effect of PM emission level of a four cylinder, naturally aspirated, indirect injection diesel engine has been experimentally investigated by using methanol-blended diesel fuel from 0% to 20% with an increment of 5%. Thus, the effects of methanol on particulate matter (PM) components, soluble organic fraction (SOF) and dry soot (DS) using different type of fuel blends were investigated. Using a composite filter, the ester-methanol-diesel characteristic such as mass concentration in term PM, SOF and DS were analyzed under different engine operating conditions. The results show that the combination of 10% of methanol with 20% of Palm Oil Methyl Ester gives less PM emissions. Thus, PME20M10 of methanol-biodiesel fuel can reduce the PM emissions effectively for all load condition.

Engine Performance and Emission of Emulsified Biodiesel

Aziz

Mamat

et al. 2014

AMM

An emulsion of biodiesel and water is one of the possible approaches that have been used to overcome diesel engine pollution. In this work, the performance and emission characteristics of a 4-cylinder diesel engine using pure diesel, biodiesel B20 and emulsified biodiesel were investigated. Emulsified biodiesel containing 5 % and 10 % water were utilize for the engine tests. During the experimental work, the engine was set-up at 2500 rpm and 20 % to 60 % loads. The result shows the reduction in NOx formation when the water content in emulsified biodiesel increased from 5 % to 10%. For the performance, there were no significant differences between the engine break powers measured for emulsified biodiesel containing 5% water and diesel fuel.