Your search keyword '"Zoran Ristovski"' showing total 5 results

1. Combustion Analysis of a Diesel Engine during Warm up at Different Coolant and Lubricating Oil Temperatures

Author

Richard J. C. Brown, Faisal Lodi, Mohammad Jafari, Timothy A. Bodisco, Priyanka Arora, Zoran Ristovski, Ali Zare, and Svetlana Stevanovic

Subjects

Control and Optimization, Materials science, start of combustion, 020209 energy, Analytical chemistry, Energy Engineering and Power Technology, 02 engineering and technology, Diesel engine, Combustion, lcsh:Technology, law.invention, 020401 chemical engineering, law, 0202 electrical engineering, electronic engineering, information engineering, 0204 chemical engineering, Electrical and Electronic Engineering, Engineering (miscellaneous), Cold start (automotive), Renewable Energy, Sustainability and the Environment, Hot start, lcsh:T, Combustion analysis, end of combustion, mass fraction burned, diesel engine cold start, peak pressure timing, peak AHRR, combustion duration, ignition delay, Coolant, Ignition system, Mass fraction, Energy (miscellaneous)

Abstract

A comprehensive analysis of combustion behaviour during cold, intermediately cold, warm and hot start stages of a diesel engine are presented. Experiments were conducted at 1500 rpm and 2000 rpm, and the discretisation of engine warm up into stages was facilitated by designing a custom drive cycle. Advanced injection timing, observed during the cold start period, led to longer ignition delay, shorter combustion duration, higher peak pressure and a higher peak apparent heat release rate (AHRR). The peak pressure was ~30% and 20% and the AHRR was ~2 to 5% and ±1% higher at 1500 rpm and 2000 rpm, respectively, during cold start, compared to the intermediate cold start. A retarded injection strategy during the intermediate cold start phase led to shorter ignition delay, longer combustion duration, lower peak pressure and lower peak AHRR. At 2000 rpm, an exceptional combustion behaviour led to a ~27% reduction in the AHRR at 25% load. Longer ignition delays and shorter combustion durations at 25% load were observed during the intermediately cold, warm and hot start segments. The mass fraction burned (MFB) was calculated using a single zone combustion model to analyse combustion parameters such as crank angle (CA) at 50% MFB, AHRR@CA50 and CA duration for 10–90% MFB.

Published

2020

2. Application of a Fluorescent Probe for the Online Measurement of PM-Bound Reactive Oxygen Species in Chamber and Ambient Studies

Author

Steven E. Bottle, Branka Miljevic, Jun Zhao, Wei Song, Zoran Ristovski, Zachary Brown, Reece Brown, Svetlana Stevanovic, Mingfu Cai, Shengzhen Zhou, and Xinming Wang

Subjects

Nitroxide mediated radical polymerization, Materials science, 010504 meteorology & atmospheric sciences, Resolution (mass spectrometry), aerosol, Analytical chemistry, 010501 environmental sciences, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, HEPA, Fluorometer, oxidative stress, lcsh:TP1-1185, BPEAnit, Electrical and Electronic Engineering, Instrumentation, 0105 earth and related environmental sciences, reactive oxygen species, profluorescent nitroxide, particulate matter, Particulates, Fluorescence, Atomic and Molecular Physics, and Optics, Aerosol, Particle

Abstract

This manuscript details the application of a profluorescent nitroxide (PFN) for the online quantification of radical concentrations on particulate matter (PM) using an improved Particle Into Nitroxide Quencher (PINQ). A miniature flow-through fluorimeter developed specifically for use with the 9,10-bis(phenylethynyl)anthracene-nitroxide (BPEAnit) probe was integrated into the PINQ, along with automated gas phase corrections through periodic high efficiency particle arrestor (HEPA) filtering. The resulting instrument is capable of unattended sampling and was operated with a minimum time resolution of 2.5 min. Details of the fluorimeter design and examples of data processing are provided, and results from a chamber study of side-stream cigarette smoke and ambient monitoring campaign in Guangzhou, China are presented. Primary cigarette smoke was shown to have both short-lived (t1/2 = 27 min) and long-lived (t1/2 = indefinite) PM-bound reactive oxygen species (ROS) components which had previously only been observed in secondary organic aerosol (SOA).

Published

2019

3. Experimental Investigation of Diesel Engine Performance, Combustion and Emissions Using a Novel Series of Dioctyl Phthalate (DOP) Biofuels Derived from Microalgae

Author

Md. Mostafizur Rahman, Farhad M. Hossain, Thuy Chu Van, S.M. Ashrafur Rahman, Timothy A. Bodisco, Kabir Adewale Suara, Thomas J. Rainey, Richard J. C. Brown, Nurun Nabi, Saiful Bari, Zoran Ristovski, Hossain, Farhad M, Nabi, Md Nurun, Rahman, Md Mostafizur, Bari, Saiful, Van, Thuy Chu, Rahman, SM Ashrafur, Rainey, Thomas J, Bodisco, Timothy A, Suara, Kabir, Ristovski, Zoran, and Brown, Richard J

Subjects

PN, Control and Optimization, Materials science, PM, 020209 energy, Energy Engineering and Power Technology, NOx, 02 engineering and technology, 010501 environmental sciences, Combustion, Diesel engine, lcsh:Technology, 01 natural sciences, Diesel fuel, 0202 electrical engineering, electronic engineering, information engineering, DOP, Thrust specific fuel consumption, Electrical and Electronic Engineering, Engineering (miscellaneous), 0105 earth and related environmental sciences, Biodiesel, lcsh:T, Renewable Energy, Sustainability and the Environment, microalgae, biofuels, engine performance, Mean effective pressure, Chemical engineering, Biofuel, Energy (miscellaneous)

Abstract

Physico-chemical properties of microalgae biodiesel depend on the microalgae species and oil extraction method. Dioctyl phthalate (DOP) is a clear, colourless and viscous liquid as a plasticizer. It is used in the processing of polyvinyl chloride (PVC) resin and polymers. A new potential biofuel, hydrothermally liquefied microalgae bio-oil can contain nearly 11% (by mass) of DOP. This study investigated the feasibility of using up to 20% DOP blended in 80% diesel fuel (v/v) in an existing diesel engine, and assessed the performance and exhaust emissions. Despite reasonable differences in density, viscosity, surface tension, and boiling point, blends of DOP and diesel fuel were found to be entirely miscible and no separation was observed at any stage during prolonged miscibility tests. The engine test study found a slight decrease in peak cylinder pressure, brake, and indicated mean effective pressure, indicated power, brake power, and indicated and brake thermal efficiency with DOP blended fuels, where the specific fuel consumption increased. This is due to the presence of 16.4% oxygen in neat DOP, responsible for the relatively lower heating value, compared to that of diesel. The emission tests revealed a slight increase in nitrogen oxides (NOx) and carbon monoxide (CO) emissions from DOP blended fuels. However, particulate matter (PM) emissions were lower from DOP blended fuels, although some inconsistency in particle number (PN) was present among different engine loads. Refereed/Peer-reviewed

Published

2019

4. Performance and Combustion Characteristics Analysis of Multi-Cylinder CI Engine Using Essential Oil Blends

Author

Mohammad Jafari, Kabir Adewale Suara, Ashley Dowell, Anthony J. Marchese, Thuy Chu Van, Thomas J. Rainey, Md. Aminul Islam, S.M. Ashrafur Rahman, Md. Nurun Nabi, Md. Farhad Hossain, Richard J. C. Brown, Jessica Tryner, and Zoran Ristovski

Subjects

Thermal efficiency, Control and Optimization, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, Combustion, lcsh:Technology, complex mixtures, essential oil, law.invention, Diesel fuel, combustion characteristics, law, 0202 electrical engineering, electronic engineering, information engineering, medicine, Electrical and Electronic Engineering, Engineering (miscellaneous), Essential oil, lcsh:T, Renewable Energy, Sustainability and the Environment, Tea tree oil, technology, industry, and agriculture, engine performance, compression ignition engine, food and beverages, respiratory system, Pulp and paper industry, Ignition system, Fuel efficiency, Environmental science, Cetane number, human activities, Energy (miscellaneous), medicine.drug

Abstract

Essential oils are derived from not-fatty parts of plants and are mostly used in aromatherapy, as well as cosmetics and perfume production. The essential oils market is growing rapidly due to their claimed health benefits. However, because only therapeutic grade oil is required in the medicinal sector, there is a substantial low-value waste stream of essential oils that can be used in the transportation and agricultural sectors. This study investigated the influence of orange, eucalyptus, and tea tree oil on engine performance and combustion characteristics of a multi-cylinder compression ignition engine. Orange, eucalyptus, and tea tree oil were blended with diesel at 10% by volume. For benchmarking, neat diesel and 10% waste cooking biodiesel-diesel blend were also tested. The selected fuels were used to conduct engine test runs with a constant engine speed (1500 RPM (revolutions per minute)) at four loads. As the load increased, frictional power losses decreased for all of the fuel samples and thus mechanical efficiency increased. At higher loads (75% and 100%), only orange oil-diesel blends produced comparable power to diesel and waste cooking biodiesel-diesel blends. Fuel consumption (brake and indicated) for the essential oil-diesel blends was higher when compared to base diesel and waste cooking biodiesel-diesel blends. Thermal efficiency for the essential oil-diesel blends was comparable to base diesel and waste cooking biodiesel-diesel blends. At higher loads, blow-by was lower for essential oil blends as compared to base diesel and waste cooking biodiesel-diesel blends. At 50% and 100% load, peak pressure was lower for all of the essential oil-diesel blends when compared to base diesel and waste cooking biodiesel-diesel blends. From the heat release rate curve, the essential oil-diesel blends ignition delay times were longer because the oils have lower cetane values. Overall, the low-value streams of these essential oils were found to be suitable for use in diesel engines at 10% blends by agricultural producers of these oils.

Published

2018

5. An Overview of Small Unmanned Aerial Vehicles for Air Quality Measurements: Present Applications and Future Prospectives

Author

Zoran Ristovski, Lidia Morawska, Branka Miljievic, Tommaso Francesco Villa, and Felipe Gonzalez

Subjects

Pollution, Engineering, 010504 meteorology & atmospheric sciences, Operations research, media_common.quotation_subject, Scopus, Air pollution, 010501 environmental sciences, UAVs, medicine.disease_cause, sensors, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Field (computer science), Article, Analytical Chemistry, Range (aeronautics), medicine, pollution, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Air quality index, 0105 earth and related environmental sciences, media_common, Data collection, Payload, business.industry, air quality, atmosphere, aerosols, Atomic and Molecular Physics, and Optics, Systems engineering, business

Abstract

Assessment of air quality has been traditionally conducted by ground based monitoring, and more recently by manned aircrafts and satellites. However, performing fast, comprehensive data collection near pollution sources is not always feasible due to the complexity of sites, moving sources or physical barriers. Small Unmanned Aerial Vehicles (UAVs) equipped with different sensors have been introduced for in-situ air quality monitoring, as they can offer new approaches and research opportunities in air pollution and emission monitoring, as well as for studying atmospheric trends, such as climate change, while ensuring urban and industrial air safety. The aims of this review were to: (1) compile information on the use of UAVs for air quality studies; and (2) assess their benefits and range of applications. An extensive literature review was conducted using three bibliographic databases (Scopus, Web of Knowledge, Google Scholar) and a total of 60 papers was found. This relatively small number of papers implies that the field is still in its early stages of development. We concluded that, while the potential of UAVs for air quality research has been established, several challenges still need to be addressed, including: the flight endurance, payload capacity, sensor dimensions/accuracy, and sensitivity. However, the challenges are not simply technological, in fact, policy and regulations, which differ between countries, represent the greatest challenge to facilitating the wider use of UAVs in atmospheric research.

Published

2016