Your search keyword '"Heoy Geok How"' showing total 3 results

1. Optimization of Fuel Injection Parameters of Moringa oleifera Biodiesel-Diesel Blend for Engine-Out-Responses Improvements

Author

Thanh Danh Le, Haseeb Yaqoob, Heoy Geok How, Farooq Sher, Huu Tho Nguyen, Hwai Chyuan Ong, and Yew Heng Teoh

Subjects

Common rail, Physics and Astronomy (miscellaneous), 020209 energy, General Mathematics, alternative fuel, 02 engineering and technology, 010501 environmental sciences, Diesel engine, 01 natural sciences, response surface methodology, Brake specific fuel consumption, Diesel fuel, QA1-939, 0202 electrical engineering, electronic engineering, information engineering, Computer Science (miscellaneous), Process engineering, NOx, 0105 earth and related environmental sciences, moringa biodiesel, Biodiesel, business.industry, Fuel injection, sustainability, common-rail, Chemistry (miscellaneous), Engine efficiency, Environmental science, renewable fuels, business, optimization, Mathematics, combustion

Abstract

Biodiesel has gained popularity in diesel engines as a result of the rapid decline of fossil fuels and population growth. The processing of biodiesel from non-edible Moringa Oleifera was investigated using a single-step transesterification technique. Both fuels had their key physicochemical properties measured and investigated. In a common-rail diesel engine, the effects of MB50 fuel blend on the symmetric characteristics of engine-out responses were evaluated under five load settings and at 1000 rpm. As compared to standard diesel, MB50 increased brake thermal efficiency (BTE), and nitrogen oxides (NOx) emissions while lowering brake specific fuel consumption (BSFC), and smoke emissions for all engine loads. A further study of injection pressure and start of injection (SOI) timing for MB50 fuel was optimized using response surface methodology (RSM). The RSM optimization resulted in improved combustion dynamics due to symmetry operating parameters, resulting in a simultaneous decrease in NOx and smoke emissions without sacrificing BTE. RSM is an efficient optimization method for achieving optimal fuel injection parameter settings, as can be deduced. As a result, a clearer understanding of the use of MB50 fuel in diesel engines can be given, allowing for the best possible engine efficiency.

Published

2021

2. Fuel Injection Responses and Particulate Emissions of a CRDI Engine Fueled with Cocos nucifera Biodiesel

Author

Haseeb Yaqoob, Thanh Danh Le, Heoy Geok How, Huu Tho Nguyen, Farooq Sher, and Yew Heng Teoh

Subjects

Common rail, 020209 energy, Geography, Planning and Development, TJ807-830, biodiesel, 02 engineering and technology, Management, Monitoring, Policy and Law, TD194-195, Diesel engine, Renewable energy sources, Diesel fuel, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, GE1-350, 0204 chemical engineering, particulate matter, Biodiesel, Environmental effects of industries and plants, coconut biodiesel, Renewable Energy, Sustainability and the Environment, Particulates, Fuel injection, Pulp and paper industry, Environmental sciences, common-rail, combustion and renewable energy, Environmental science, sustainable fuels, Heat of combustion, Turbocharger

Abstract

The objective of this paper is to study the effect of coconut oil biodiesel (COB)-diesel blends on exhaust particulate matter (PM) emissions and fuel injection responses in an unmodified turbocharged four-stroke common-rail direct injection (CRDI) diesel engine. Characterization of COB and their blends has been conducted to ascertain the applicability of these fuels for the existing engine. The test fuels used were fossil diesel fuel, COB10, COB20, COB30 and COB50 of biodiesel-diesel fuels. A test cycle which composed of 16 different steady-state modes at various loads and speed conditions was followed. Generally, the results showed a marginally advanced SOI timing and longer injection duration with increasing COB blends at higher load as compared to diesel fuel. Additionally, the lower calorific value (CV) and higher viscosity of the COB fuel blends have resulted in reduced turbo boost pressure and increased common-rail fuel injection pressure, respectively, across all engine speeds and loads. On the aspects of PM emissions characterization, results indicated that the blending of COB with conventional diesel had benefits over diesel in PM reduction. In fact, the largest achievable PM mass reduction of 38.55% was attained with COB50. In addition, it was noticed that the size of PM particles accumulated such that the granular size increased with higher diesel content in the blend. Additionally, the composition analysis on the PM collected by EDX spectroscopy has revealed that the C, O and Si as three main elements that made up the PM particles in descending order. Overall, the results indicated that COB biodiesel is a clean-burning alternative fuel and can be used satisfactorily in an unmodified diesel engine without the needs for engine remapping.

Published

2021

3. Prediction of optimum Palm Oil Methyl Ester fuel blend for compression ignition engine using Response Surface Methodology

Author

H.T. Nguyen, Heoy Geok How, T.D. Le, B. Navaneetha Krishnan, Yew Heng Teoh, and C. Prabhu

Subjects

Battery (electricity), 020209 energy, 02 engineering and technology, Industrial and Manufacturing Engineering, law.invention, Liquid fuel, Brake specific fuel consumption, Diesel fuel, 020401 chemical engineering, law, Range (aeronautics), 0202 electrical engineering, electronic engineering, information engineering, Response surface methodology, 0204 chemical engineering, Electrical and Electronic Engineering, Process engineering, Air quality index, Civil and Structural Engineering, business.industry, Mechanical Engineering, Building and Construction, Pollution, Ignition system, General Energy, Environmental science, business

Abstract

Electric mobility slowly catches up trend in automotive sales but still it has not got the wide expected reception as typical liquid fueled vehicle due to the electric vehicles range. But the high energy density of liquid fuel is still unmatched for the performance of an electric battery. Decreasing Air Quality Index (AQI) from use of conventional fuels are alarming due to its impact on human health. These facts thrust the need for deeper study into alternative fuel research area and Malaysia being one of the largest producers of Palm Oil Methyl Ester (POME), motivates us to proceed into investigative analysis of POME fueled engine using a mathematical technique called Response Surface Methodology (RSM). Highest BSFC attained was 508.9 g/kWhr and 546.5 g/kWhr for diesel and POME50 at 3850 rpm and 25% load. Lowest O2 emissions were recorded at 4.1% and 4.4% for diesel and POME10 respectively at 1600 rpm and 100% load. Optimized engine operation was predicted with 41.21% POME as the best blend giving the best compromise in best performance and low emissions.

Published

2021