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Soot Formation At Atmospheric And Diesel Engine Conditions Using 2d Time Resolved Laser Induced Incandescence
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Book Synopsis Soot Formation at Atmospheric and Diesel Engine Conditions Using 2D Time-resolved Laser Induced Incandescence by : Lyndon DeLaurey
Download or read book Soot Formation at Atmospheric and Diesel Engine Conditions Using 2D Time-resolved Laser Induced Incandescence written by Lyndon DeLaurey and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Investigation of Soot Processes in an Optical Diesel Engine by : Barbara Menkiel
Download or read book Investigation of Soot Processes in an Optical Diesel Engine written by Barbara Menkiel and published by . This book was released on 2012 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: This study is dedicated to investigation of soot formed during combustion in diesel engine. Measurements were performed in a high speed direct injection optical diesel engine. Initially soot particle size, size distribution and soot volume fraction were investigated using time resolved laser induced incandescence (TR-LII) technique. For this study standard diesel fuel was used and measurements were performed for various injection timing and two different engine loads. Investigation showed that TR-LII is a powerful tool that can be used for characterization of in-cylinder soot in the engines. Subsequently TR-LII technique was developed to measure in-cylinder soot in two dimensional plane (planar laser induced incandescence PLII) and technique was combined with high speed imaging to investigate soot processes for ultra-low sulfur diesel (ULSD) and bio-fuel (RME). Two injection strategies of single and double injection were applied during these measurements. A high speed imaging technique was used to study the soot formation and oxidation during the combustion process within the cylinder and PLII was applied later in the stroke to study qualitatively the relative amount of un-oxidised soot that was left in the combustion chamber. In addition to PLII, TR-LII technique was used simultaneously to explore crank angle resolved variation of primary soot particle size and their size distribution during the expansion stroke. The same measurements were repeated for fuels with different composition investigating the relationship between the fuel properties and soot emission. Finally mathematical model for soot particle size and distribution width was modified by introducing assumption of multi-lognormal in-cylinder soot particle size distribution.
Book Synopsis Measurement, Characterization, Identification and Control of Combustion Produced Soot by : Madhu Singh
Download or read book Measurement, Characterization, Identification and Control of Combustion Produced Soot written by Madhu Singh and published by . This book was released on 2019 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The negative health implications associated with combustion produced soot demand identification of contributing sources, quantification and characterization of their emissions to assess its impact, and control to minimize the imposed hazard. Distinguishing different sources of soot from engines and combustors is challenging, given the morphological and chemical similarity of the emitted soot. Leaner combustion conditions and tighter emission limits challenge traditional filter-based measurements for soot mass. Meanwhile, current after-treatment particulate control strategies are based on regeneration, i.e., soot oxidation which in turn depends upon soot nanostructure and composition (such as in a diesel particulate filter). Presently, effects on human health associated with soot exposure are largely correlative, while controlled lab studies predominantly use varied washings or extracts of soot, but rarely the actual particulate. Given the intertwined nature of these topics this dissertation addresses each in an integrated approach. Laser-induced incandescence (LII) is used to determine soot concentration while Time-resolved LII (TiRe-LII) can be used to estimate soot primary particle size largely by using available and appropriate models. The use of laser diagnostics has been used to experimentally demonstrate prevailing inconsistencies between experimentally measured and model-derived particle diameter values. Discrepancies have been attributed (a) to the empiricism associated with evaluating modeling variables and (b) to the lack of proper accountability of the changes in soot nanostructure upon heating with a pulsed laser. This work uses an experimental approach coupled with microscopy to (a) test the robustness of existing LII models and (b) inform existing models of experimental observations so that these can be accounted for in future models. Specifically, the contribution of changing soot nanostructure on laser heating is known and is shown here again with transmission electron microscopy (TEM). However, the change in soots optical properties because of an altered nanostructure remains unclear. Optical properties change when soot is laser-heated, and this alteration of optical properties upon laser heat treatment has been shown in this work experimentally, by using UV-Vis spectroscopy. Also, the effect of the degree of aggregation on the soots cooling profile is highlighted. This work demonstrates that different degrees of aggregation results in a shift of the time-temperature-history (TTH), thereby resulting in erroneous particle size predictions, which are calculated from the materials TTH. Unfortunately, most models assume point-contacting spheres and aggregation remains unaccounted for. The effect of the thermal accommodation coefficient is similar in that a small change in the value of this mathematical parameter significantly alters particle cooling as simulated here by an open-access simulator, indicating the need to exercise caution when assigning a value to this parameter in the model. While the change in soot nanostructure as a consequence of laser annealing complicates the interpretation from LII measurements, laser heating of soot can reciprocally be used to purposefully study the evolution in soot nanostructure as a function of its chemistry. Soot chemistry varies with its combustion environment, with fuel and combustion conditions specific to each source. Thus, by association, the evolution of soot nanostructure observed upon laser heat treatment can be correlated to its fuel origins and combustion origins, potentially identifying its formation source. Fundamentally, the presence of oxygen in nascent soot is identified here as a key compositional parameter. The increase in oxygen content of the fuel, as diesel is blended with increased proportions of biofuel, is correlated to increased oxygen content in the soot that is generated by the respective fuel. In other words, fuel with a higher oxygen content generates soot which also has oxygen content relatively higher than soot generated by fuel with low oxygen content. This work shows that oxygen dictates the evolution of soot nanostructure when it escapes the material upon laser heat treatment. When laser heated, the nanostructure of soot with a higher oxygen content evolves as hollow-shell like structures while nanostructure of soot with a low oxygen content evolves to show a ribbon-like interior. This divergence in soot nanostructure based on the oxygen content of nascent soot, which in turn is shown to be a function of the fuel composition, could be used to identify the source that generated the soot sample studied. Given the lack of availability of authentic soot samples, the combination of laser heat treatment and TEM of soot to identify fuel or source is powerful when sample quantities are in the range of less than a few nanograms. Being able to identify sources and their contributions using laser derivatization of soot as a diagnostic can help optimize new or existing control measures to reduce the concentration of atmospheric soot. For instance, diesel particulate filters (DPFs) are used to reduce diesel soot emissions. Effective protocols for DPF operation can be developed by understanding soot nanostructure changes as captured soot is oxidized during passive and active DPF regeneration. Typically, O2, NO2 or a combination of the two oxidants are encountered during DPF regeneration. In this work, soot nanostructure has been shown to vary with the order of oxidants to which it is exposed, a significant finding towards optimizing DPF filter regeneration protocols. The study has been performed on authentic diesel soot in a thermogravimetric analyzer under conditions mimicking active and passive regeneration in a DPF. To validate observations with diesel soot, three carbon blacks with varying nanostructure are also subjected to oxidation by O2 and NO2. The intriguing result is that order of oxidation matters, i.e., the oxidation rates are dependent upon nanostructure changes in response to oxidation by O2 alone, or O2 with NO2.Prolonged exposure to particulate matter causes unwanted ill-health, lung dysfunctions, and breathing problems. Most toxicity studies are done using a washing, or an extract of the organic fraction of soot and cells are exposed to this extract. This work tests the adverse effect of soot on human (male) lung cells when these are exposed to surrogate soot as is, i.e., structure and chemistry intact to mimic real-time exposure conditions. The impact of soot chemistry and the presence of acidic functional groups on lung epithelial cells for varying exposure times is demonstrated in our collaborative work with the College of Medicine at Penn State, Hershey, PA. Soot chemistry is shown to directly and adversely impact cell viability and mRNA expressions of the IL-1B and IL-6 cytokines as well as mRNA expression of the TLR4 protein. Specifically, cell viability was shown to reduce significantly after 6- and 24-hours of exposure to carboxylic groups on the soot, thereby demonstrating the health impact of soot surface chemistry in comparison to extracts.In summary, soot measurement, its extensive characterization to identify source contributions and develop practically applicable control strategies has a direct implication on our health and surroundings and can aid in promoting a healthy living environment.
Book Synopsis Soot Distribution in a Direct-injection Diesel Engine Using Two-dimensional Laser-induced Incandescence Imaging by : John E. Dec
Download or read book Soot Distribution in a Direct-injection Diesel Engine Using Two-dimensional Laser-induced Incandescence Imaging written by John E. Dec and published by . This book was released on 1991 with total page 12 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Soot Distribution in a D.I. Diesel Engine Using 2-D Imaging of Laser-induced Incandescence, Elasting Scattering, and Flame Luminosity by : John E. Dec
Download or read book Soot Distribution in a D.I. Diesel Engine Using 2-D Imaging of Laser-induced Incandescence, Elasting Scattering, and Flame Luminosity written by John E. Dec and published by . This book was released on 1992 with total page 12 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Soot Distribution in a Direct Injection Diesel Engine Using 2-D Imaging of Laser-induced Incandescence, Elastic Scattering, and Flame Luminosity by : John E. Dec
Download or read book Soot Distribution in a Direct Injection Diesel Engine Using 2-D Imaging of Laser-induced Incandescence, Elastic Scattering, and Flame Luminosity written by John E. Dec and published by . This book was released on 1992 with total page 12 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Proceedings of the ASME Heat Transfer Division by :
Download or read book Proceedings of the ASME Heat Transfer Division written by and published by . This book was released on 2005 with total page 906 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis On Particulate Characterization in a Heavy-duty Diesel Engine by Time-resolved Laser-induced Incandescence by : Henricus Johanna Theodorus Bougie
Download or read book On Particulate Characterization in a Heavy-duty Diesel Engine by Time-resolved Laser-induced Incandescence written by Henricus Johanna Theodorus Bougie and published by . This book was released on 2007 with total page 155 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Imaging Measurements of Soot Particle Size and Soot Volume Fraction with Laser-induced Incandescence at Diesel Engine Conditions by : Emre Cenker
Download or read book Imaging Measurements of Soot Particle Size and Soot Volume Fraction with Laser-induced Incandescence at Diesel Engine Conditions written by Emre Cenker and published by . This book was released on 2014 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Annual Index/abstracts of SAE Technical Papers 2004 by :
Download or read book Annual Index/abstracts of SAE Technical Papers 2004 written by and published by . This book was released on 2005 with total page 962 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Proceedings of the ASME Heat Transfer Division--2005 by :
Download or read book Proceedings of the ASME Heat Transfer Division--2005 written by and published by . This book was released on 2005 with total page 910 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis An Investigation of Late-combustion Soot Burnout in a DI Diesel Engine Using Simultaneous Planar Imaging of Soot and OH Radical by :
Download or read book An Investigation of Late-combustion Soot Burnout in a DI Diesel Engine Using Simultaneous Planar Imaging of Soot and OH Radical written by and published by . This book was released on 1999 with total page 13 pages. Available in PDF, EPUB and Kindle. Book excerpt: Diesel engine design continues to be driven by the need to improve performance while at the same time achieving further reductions in emissions. The development of new designs to accomplish these goals requires an understanding of how the emissions are produced in the engine. Laser-imaging diagnostics are uniquely capable of providing this information, and the understanding of diesel combustion and emissions formation has been advanced considerably in recent years by their application. However, previous studies have generally focused on the early and middle stages of diesel combustion. These previous laser-imaging studies do provide important insight into the soot formation and oxidation processes during the main combustion event. They indicate that prior to the end of injection, soot formation is initiated by fuel-rich premixed combustion (equivalence ratio> 4) near the upstream limit of the luminous portion of the reacting fuel jet. The soot is then oxidized at the diffusion flame around the periphery of the luminous plume. Under typical diesel engine conditions, the diffusion flame does not burn the remaining fuel and soot as rapidly as it is supplied, resulting in an expanding region of rich combustion products and soot. This is evident in natural emission images by the increasing size of the luminous soot cloud prior to the end of injection. Hence, the amount of soot in the combustion chamber typically increases until shortly after the end of fuel injection, at which time the main soot formation period ends and the burnout phase begins. Sampling valve and two-color pyrometry data indicate that the vast majority (more than 90%) of the soot formed is oxidized before combustion ends; however, it is generally thought that a small fraction of this soot from the main combustion zones is not consumed and is the source of tail pipe soot emissions.
Book Synopsis The Effects of Fuel Chemistry and Particle Maturity on Soot Formation by : Mohammad Reza Kholghy
Download or read book The Effects of Fuel Chemistry and Particle Maturity on Soot Formation written by Mohammad Reza Kholghy and published by . This book was released on 2017 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: A criterion to define soot maturity, a theoretical modeling approach to simulate it, and its effects on the surface reactivity of soot primary particles in laminar premixed and diffusion flames are presented in the first two chapters. It is shown that the core-shell internal nanostructure of soot primary particles is a function of the overall soot Hydrogen to Carbon (H/C) ratio and can be used to distinguish nascent from mature soot primary particles. The importance of considering dehydrogenation to predict the H/C ratio and maturity of soot is illustrated. It is shown that the decay of soot surface reactivity with maturity, i.e. soot aging, is a strong function of the internal nanostructure of soot primary particles. The necessity of simulating soot maturity for comparison with experimental measurements is discussed. Structural effects of biodiesel in terms of unsaturation, i.e. C-C double bond, its position, and the presence of the ester moiety on soot formation are investigated in chapters four and five. It is shown that unsaturation increases soot formation by higher production of soot chemical growth species while more centrally located double bond increases soot formation by producing more soot nucleating species. However, the ester moiety decreases soot formation by reducing the concentration of soot chemical growth species such as acetylene. Several experimental techniques for measuring flame temperature, soot volume fraction, primary particle diameter, and aggregate structure are compared to each other in the last chapter. It is shown that Time Resolved Laser Induced Incandescence is the most reliable method to measure the volume fraction and the primary particle diameter of mature soot particles. The sensitivity of thermocouple measurements to radiation correction is analyzed and it is shown that for accurate temperature measurement with a thermocouple, it is essential to use a locally measured variable emissivity to estimate radiation cooling effects.
Book Synopsis Engine Combustion Instrumentation and Diagnostics by : Hua Zhao
Download or read book Engine Combustion Instrumentation and Diagnostics written by Hua Zhao and published by SAE International. This book was released on 2001-01-30 with total page 854 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides a complete description of instrumentation and in-cylinder measurement techniques for internal combustion engines. Written primarily for researchers and engineers involved in advanced research and development of internal combustion engines, the book provides an introduction to the instrumentation and experimental techniques, with particular emphasis on diagnostic techniques for in-cylinder measurements.
Book Synopsis Soot Characterisation in Diesel Engines Using Laser-induced Incandescence by : Benoit Oger
Download or read book Soot Characterisation in Diesel Engines Using Laser-induced Incandescence written by Benoit Oger and published by . This book was released on 2012 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Combustion and In-cylinder Soot Formation Characteristics of a Neat GTL-fueled DI Diesel Engine by : Salih Manasra
Download or read book Combustion and In-cylinder Soot Formation Characteristics of a Neat GTL-fueled DI Diesel Engine written by Salih Manasra and published by . This book was released on 2012-01-30 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: There is interest in a substitution of conventional diesel fuel by alternative hydrocarbons. For example natural gas can be converted into liquid hydrocarbons using the Fischer-Tropsch process. Resulting Gas-To-Liquid (GTL) fuels may have considerable advantages with respect to their combustion. GTL fuels are appropriate for conventional diesel engines provided their operation is modified. In this context the injection strategy including injection timing and pressure is most important for the combustion process and resulting pollutants. In his experiments, the author has studied injection and combustion of GTL fuels. His investigations were focused on observing, characterizing and comparing soot formation in GTL fueled diesel engines.
Book Synopsis Investigation of Laser-induced Incandescence and Soot Vaporization Using Time Resolved Light Scattering in a Propane Diffusion Flame by : Gregory David Yoder
Download or read book Investigation of Laser-induced Incandescence and Soot Vaporization Using Time Resolved Light Scattering in a Propane Diffusion Flame written by Gregory David Yoder and published by . This book was released on 2003 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: ABSTRACT: Laser-induced incandescence is a technique that uses a pulsed laser beam to heat soot particles up to levels far above the background, causing them to emit radiation as essentially blackbodies, which can then be related to the total soot volume using suitable calibration schemes. However, the temperature reached by the laser-heated particles may cause the particles to begin to vaporize, thereby changing the parameter of interest, namely the total soot volume. The primary goal of this thesis is to investigate the particle vaporization due to LII using time-resolved laser light scattering. Based on the experimental measurements in a sooting propane diffusion flame, significant particle vaporization was found to occur on the time scale of the LII laser pulse. A model was developed to describe the particle temperature and volume as the particles are heated up and vaporized by the LII laser and as the particles subsequently cooled. This heat transfer model uses a fundamental energy balance along with the Planck distribution to model the LII signal as a function of time, and was then used to estimate the influence of particle vaporization on the time-resolved LII signal.
