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Modeling Of Particulate Matter Creation And Evolution In Aircraft Engines Plumes And Particle Sampling Systems
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Book Synopsis Modeling of Particulate Matter Creation and Evolution in Aircraft Engines, Plumes and Particle Sampling Systems by : Pierre Max Dakhel
Download or read book Modeling of Particulate Matter Creation and Evolution in Aircraft Engines, Plumes and Particle Sampling Systems written by Pierre Max Dakhel and published by . This book was released on 2005 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt: (Cont.) Recommendations to improve the measuring techniques at ground level include lowering the residence time of gas samples inside the sampling system to avoid too large a modification of the flow microphysical characteristics before it reaches the measuring instruments, and careful monitoring of the temperature of the sample throughout the probe and sampling line.
Book Synopsis Study of Particulate Matter Formation and Evolution in Near-field Aircraft Plumes Using a One-dimensional Microphysical Model by : Jianye Zhang (S.M.)
Download or read book Study of Particulate Matter Formation and Evolution in Near-field Aircraft Plumes Using a One-dimensional Microphysical Model written by Jianye Zhang (S.M.) and published by . This book was released on 2007 with total page 58 pages. Available in PDF, EPUB and Kindle. Book excerpt: Environmental concerns have led to a growing effort to investigate and characterize the particulate matter (PM) emissions from aircraft engines. This thesis presents a one-dimensional microphysics and chemical kinetics model that is used to study the formation and evolution of particulate matter in near field aircraft plumes at ground level. The initial exhaust properties were obtained from engine data and plume mixing profiles were generated using FLUENT®. The initial gas species concentrations were estimated based on a two-step constrained equilibrium process. Parametric studies of the effects of ambient temperature, ambient relative humidity, engine operating conditions and engine design parameters on the aerosol formation were investigated using the one dimensional model following a centerline trajectory up to lkm downstream of the engine exit plane. PM formation and evolution characteristics along trajectories from several radial locations were also investigated and compared to the results from the centerline study. The results from this study show that binary homogeneous H2SO4-H20 nucleation strongly depends on ambient conditions such as ambient temperature and relative humidity whereas the condensational growth of soot particles is most dependent on engine power settings.
Book Synopsis Non-volatile Particle Penetration Efficiencies by : Brandon Craig Hoffman
Download or read book Non-volatile Particle Penetration Efficiencies written by Brandon Craig Hoffman and published by . This book was released on 2017 with total page 132 pages. Available in PDF, EPUB and Kindle. Book excerpt: The SAE E-31 Aircraft Engine Gas & Particulate Emissions Measurement Aerospace Recommended Practice (ARP) 6320 {Ref. 17} describes procedures recommended for continuous sampling conditions and instrumentation for measurement of non-volatile particle number and mass emissions from the exhaust of aircraft gas turbine engines. Throughout the creation of the ARP, many tests were conducted to determine the best way to collect and measure non-volatile particulate matter from turbine engines to preserve sample integrity and minimize the losses through the system; including sampling, conditioning, and measurement. Based on the results of these tests, a system was built by Missouri University of Science and Technology (MS&T), which they own and operate. A few other in-house systems were built by other organizations, but it wasn't until Anstalt für Verbrennungskraftmaschinen List (AVL) of Graz, Austria started to produce and manufacture an ARP6320 compliant sampling system that it was commercially available for purchase. The first prototype was delivered to Arnold Engineering Development Complex. Even though the AVL sampling system and the MS&T sampling system are compliant with the ARP6320, there were some differences between the two systems which begged the question, will each system produce the same or similar results? The Environmental Protection Agency (EPA) VAriable Response In Aircraft Non-Volatile Particulate Matter Testing (VARIAnT) 2 was established to answer these questions and more. This thesis concentrates on a small portion of this test campaign, specifically the ability of the systems to transport non-volatile or carbon black particles to instruments for measurement of mass, number, and size. The ratio of non-volatile particle concentration entering and leaving a sampling and measurement system segment is the Penetration Fraction which is the focus of this thesis. The results in this thesis and other comparisons to the model have shown close correlation within the measurement uncertainties of 14%. The penetration efficiency model used in this work was developed by UTRC and has been improved over the years to account for various differences between measured and predicted. Using the results presented in this thesis, the UTRC model presents a better alternative to the measurements of the penetration efficiencies for the ARP compliant sampling systems.
Download or read book ERDA Research Abstracts written by and published by . This book was released on 1975 with total page 756 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Procedure for the Calculation of Non-volatile Particulate Matter Sampling and Measurement System Penetration Functions and System Loss Correction Factors by : E-31P Particulate Matter Committee
Download or read book Procedure for the Calculation of Non-volatile Particulate Matter Sampling and Measurement System Penetration Functions and System Loss Correction Factors written by E-31P Particulate Matter Committee and published by . This book was released on 2022 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This SAE Aerospace Information Report (AIR) describes a method for assessing size dependent particle losses in a sampling and measurement system of specified geometry utilizing the non-volatile PM (nvPM) mass and number concentrations measured at the end of the sampling system.1 The penetration functions of the sampling and measurement system may be determined either by measurement or by analytic computational methods.Loss mechanisms including thermophoretic (which has a very weak size dependence) and size dependent losses are considered in this method2 along with the uncertainties due to both measurement error and the assumptions of the method. The results of this system loss assessment allow development of estimated correction factors for nvPM mass and number concentrations to account for the system losses facilitating estimation of the nvPM mass and number at the engine exhaust nozzle exit plane. As the particle losses are size dependent, the magnitude of correction factors can vary as a function of many factors including combustor technology and engine operating condition.Implementation of the nvPM sampling and measurement system for aircraft engine testing, as per AIR6037, requires a sample line of up to 35 m and includes several sampling and measurement system components, which result in significant particle loss on the order of 50% for nvPM mass and 90% for nvPM number.The system loss correction factors are estimated based on a model with the following inputs and assumptions: engine exhaust exit plane nvPM have a lognormal distribution, known size dependent values of nvPM effective density and geometric standard deviation, a minimum particle size cut-off of 10 nm, and no coagulation. This SAE Aerospace Information Report (AIR) describes a method for calculating correction factors to account for system particle losses when performing non-volatile Particulate Matter (nvPM) measurement as specified in AIR6037. Such sampling and measurement systems have significant line length and several components that result in particle losses. The particle losses are size dependent and hence depend on many factors including combustor technology and engine operating condition resulting in a reduction in measurement of the order of 50% for nvPM mass concentration and 90% for nvPM number concentration. Estimation of engine exit plane nvPM mass and number concentrations are improved by developing a calculation method to account for these losses. The approach used in this AIR will involve separate correction factors for measured nvPM mass and number concentrations, which will be calculated using measured or calculated line and component penetration efficiencies. These calculations will be based on assumptions of a lognormal particle size distribution at the engine exit with a known associated lognormal width, and an equivalent spherical particle shape with a corresponding known effective particle density. These resulting correction factors will then be used to estimate the total particle losses in the sampling and measurement system for nvPM mass and number, and will thus be used to infer the engine exit plane concentrations of nvPM mass and number. AIR6504 has been reaffirmed to comply with the SAE Five-Year Review policy.
Book Synopsis Microphysical Modeling of Ultrafine Hydrocarbon-containing Aerosols in Aircraft Emissions by : Mina Jun
Download or read book Microphysical Modeling of Ultrafine Hydrocarbon-containing Aerosols in Aircraft Emissions written by Mina Jun and published by . This book was released on 2011 with total page 115 pages. Available in PDF, EPUB and Kindle. Book excerpt: Combustion engines emit precursors of ne particulate matter (PM) into the atmosphere. Numerous gaseous species, soot particles, and liquid aerosols in the aircraft exhaust are involved in PM formation, and these very ne, nanometer-size particles potentially have signicant impacts on climate, human health, and air quality. In particular, the organic content of the particles is important to determine physical and chemical properties of PM and consequently their potential impacts on the environment. The main objective of this thesis is to understand the role of organic compounds in PM evolution by developing a microphysical model that incorporates organic compounds into the formation mechanism of binary aqueous aerosols. While binary aerosol models with sulfuric acid and water have been widely studied, the understanding of the effect of organics on the formation and growth of aerosols is still insufficient. This work demonstrates important interactions and competitions in the formation of multi-component aerosols with organic compounds, sulfuric acid, and water in aircraft emissions. Hydrocarbon-containing aerosols have been identied as a major component of ground-level aircraft emission, especially at low power operations. This thesis describes selected surrogates of organic species and introduces estimation techniques for their thermophysical properties. The surrogates of organic species include water-insoluble hydrocarbons and water-soluble oxygenated hydrocarbons. Simulation results suggest that certain hydrocarbon compounds play an important role in the formation of aviation aerosol with interactions with both homogeneous sulfuric acidwater aerosols and soot particles in the organic-rich aircraft plume. Hydrocarbons contribute to the growth of existing homogeneous liquid particles, whereas their contribution to aerosol number density is negligible compared to that of sulfuric acid and water, which largely determine the formation of homogeneous aerosols. Also, low volatility hydrocarbons (e.g., benzopyrene, coronene) are observed to be partitioned into soot particles and induce competition with the uptake of water-soluble species, while light water-soluble oxygenated hydrocarbons enhance the uptake of water and sulfuric acid on soot particles.
Book Synopsis Procedure for the Continuous Sampling and Measurement of Non-Volatile Particulate Matter Emissions from Aircraft Turbine Engines by : E-31P Particulate Matter Committee
Download or read book Procedure for the Continuous Sampling and Measurement of Non-Volatile Particulate Matter Emissions from Aircraft Turbine Engines written by E-31P Particulate Matter Committee and published by . This book was released on 2018 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This SAE Aerospace Recommended Practice (ARP) describes recommended sampling conditions, instrumentation, and procedures for the measurement of non-volatile particle number and mass concentrations from the exhaust of aircraft gas turbine engines. Procedures are included to estimate sampling system loss performance. This ARP is not intended for in-flight testing, nor does it apply to engines operating in the afterburning mode.This ARP is intended as a guide toward standard practice and is subject to change to keep pace with experience and technical advances. This Aerospace Recommended Practice (ARP) consists of methodologies for the measurement of non-volatile particulate matter (nvPM) emissions sampled at the exit plane of aircraft gas turbine engines. The methods describe means of sampling and measuring particle mass concentration, particle number concentration and reporting of emissions indices through the use of an appropriate sampling system and instrumentation that goes beyond the measurements of visible obscuration as described in ARP1179 for Smoke Number (SN). This ARP allows for repeatable and traceable measurements of nvPM mass and number concentrations at the end of the prescribed sampling system, and it provides technical details for the measurement of nvPM emissions required for engine certification consistent with ICAO Annex 16 Volume II (see 2.1.3.14).1.
Book Synopsis Particulate Matter (PM) Emissions Analysis for Commercial Aircraft Operating in the Landing and Takeoff (LTO) Cycle by : Niharika Burla
Download or read book Particulate Matter (PM) Emissions Analysis for Commercial Aircraft Operating in the Landing and Takeoff (LTO) Cycle written by Niharika Burla and published by . This book was released on 2005 with total page 102 pages. Available in PDF, EPUB and Kindle. Book excerpt: "The UMR Mobile Aerosol Sampling System (MASS) has measured the particulate matter (PM) emissions from commercial aircrafts during the routine takeoff operation within 100m of a runway and 200m of a taxiway at a major US airport for two days in September 2004. The emissions were measured with 1s time resolution using a differential mobility spectrometer (DMS500). The plumes were measured for 2 days, from over 400 commercial aircrafts, ranging from 717's, 767's, MD-88's, to Turboprop's ... In order to interpret these PM data it is important to be able to uniquely identify a given aircraft with a specific emission plume. As is common at many airports departure frequency varies throughout the day. At high departure frequencies, the data gathered cannot be attributed to any specific single aircraft since the emission plumes arriving at the sampling system are convoluted by overlapping departures and from up;wind aircraft stopping and starting while taxiing forward in a line towards the number one departure slot. The data presented here are "first of a kind" PM measurements of advective plumes from commercial aircraft. Although it is planned to eventually interpret high frequency departure data, in this thesis only low frequency departure data specifically attributable to given aircraft will be studied"--Abstract, leaf iii.
Book Synopsis Aircraft Exhaust Nonvolatile Particle Matter Measurement Method Development by : E-31P Particulate Matter Committee
Download or read book Aircraft Exhaust Nonvolatile Particle Matter Measurement Method Development written by E-31P Particulate Matter Committee and published by . This book was released on 2018 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This report provides current practice measurement methods for quantifying nonvolatile particle matter at the exit plane of aircraft gas turbine engines. This document contains detailed information for many instruments and techniques, described in AIR5892A, that have been applied in aircraft engine field tests since AIR5892A was first issued in April 2003. There are four sections, identified as Technical Appendices (TA), presenting measurement techniques, sampling, and quantification of nonvolatile particles. The sections are written in the format of Aerospace Recommended Practice (ARP) documents and intended to progress to recommended practices upon overcoming existing technical challenges. Many important technical advances have been accomplished that comprise the Aircraft Engine Exhaust Nonvolatile Particle Matter Measurement Method Development techniques described in TA A: Particle Mass,TA B: particle Number and Size,TA C: Particle Sampling, and TA D: Calculation of Particle Number and particle Mass Emission Indices.Various measurement methodologies and operability and compatibility issues are described within the TAs. The TAs briefly discuss degrees of sensitivity, accuracy, repeatability, and test operations acceptability for each measurement discipline. They reflect that many important technical advances have been accomplished for measurement techniques of nonvolatile particles. Additional research is required to transition the TAs to Aerospace Recommended Practices. AIR6037 addresses aircraft exhaust nonvolatile particulate matter (nvPM) measurement method development. It continues the documentation of the state-of-the-art in sampling and measurement technologies, initially captured in AIR5892, issued in 2004. Many of the instruments, techniques, and methods described in AIR6037 had matured through application in aircraft engine field tests, generally occurring in the 2003 to 2008 time frame.AIR6037 consists of technical appendices describing the technical advancements in particle mass, number and size measurement, particle sampling, and calculation of particle number and mass emission indices.Research and test campaigns have continued since AIR6037 was issued, in 2010, driving further development of the sampling system and some of the measurement instruments. These developments are described in a subsequent aerospace information report, AIR6241, issued in 2013.Because further improvements to both sampling system and measurement instrument components are contained in AIR6241, SAE E-31 Committee members have recommended stabilizing AIR6037 in order to maintain it as useful technical documentation in the progression of AIR5892, AIR6037, and AIR6241 toward the development of ARP6320.
Book Synopsis Procedure for the Continuous Sampling and Measurement of Non-Volatile Particle Emissions from Aircraft Turbine Engines by : E-31P Particulate Matter Committee
Download or read book Procedure for the Continuous Sampling and Measurement of Non-Volatile Particle Emissions from Aircraft Turbine Engines written by E-31P Particulate Matter Committee and published by . This book was released on 2013 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This SAE Aerospace Information Report (AIR) describes procedures, required continuous sampling conditions, and instrumentation for the measurement of non-volatile particle number and mass concentrations from the exhaust of aircraft gas turbine engines. Procedures are included to calculate sampling loss performance. This AIR is not intended for in-flight testing, nor does it apply to engine operating in the afterburning mode. This SAE Aerospace Information Report consists of methodologies for measurements of nonvolatile exhaust particles at the exit plane of aircraft gas turbine engines. The described methods represent a means of determining particle mass concentration, particle number concentration, and reporting of emissions indices through the use of an appropriate sampling system and instrumentation that goes beyond the measurements of visible obscuration as described in ARP1179 for smoke number.
Download or read book Applied Mechanics Reviews written by and published by . This book was released on 1994 with total page 390 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Procedure for the Calculation of Aircraft Emissions by : A-21 Aircraft Noise Measurement Aviation Emission Modeling
Download or read book Procedure for the Calculation of Aircraft Emissions written by A-21 Aircraft Noise Measurement Aviation Emission Modeling and published by . This book was released on 2009 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This AIR describes procedures for calculating emissions resulting from the main engines of commercial jet and turboprop aircraft through all modes of operation for all segments of a flight. Piston engine aircraft emissions are not included in this AIR. Some information about piston engine aircraft emissions can be found in FOCA 2007. The principal purpose of the procedures is to assist model developers in calculating aircraft emissions in a consistent and accurate manner that can be used to address various environmental assessments including those related to policy decisions and regulatory requirements.The pollutants considered in this document are: Nitrogen Oxides (NOx) Carbon Monoxide (CO) Total unburned Hydrocarbons (THC) Carbon Dioxide (CO2) Water (H2O) Sulfur Oxides (SOx) Volatile Organic Compounds (VOC) Methane (CH4) Non-Methane Hydrocarbons (NMHC) Non-Methane Volatile Organic Compounds (NMVOC) Nitrous Oxide (N2O) Particulate Matter (PM2.5 and PM10)As indicated above, hazardous air pollutants (HAPs) are not individually accounted for; many of these are simply included as part of THC. Also, trace metals are not included other than those that may already be accounted for as part of PM emissions. Since the scope is limited to aircraft engine emissions only, emissions from Ground Service Equipment (GSE), roadway vehicles, power plants, training fires, etc., are not included within this document. Athough Auxilliary Power Units (APU), brakes, and tires are also part of the aircraft, their emissions (e.g., tire wear) are not within the scope of this document.The methods are based on aircraft performance and emissions modeling. This means that only the pollutants exiting the exhaust of an engine are considered. Any atmospheric effects including those that occur in the near-field (e.g., exhaust plume) and the subsequent atmospheric dispersion are not modeled. The exception to this is in the computation of PM emissions.In meeting the needs of modelers who may have varying fidelity requirements for both emissions and aircraft performance modeling, this document does not try to promote a single database and methodology. Therefore, several methods have been included in this document as indicated below with the emissions methods categorized by pollutants: Emissions Modeling Methods NOx, CO, and THC P3T3 Boeing Fuel Flow Method 2 (BFFM2) Deutsche Forschungsanstalt fur Luft- and Raumfahrt (DLR) Method International Civil Aviation Organization (ICAO) Reference Method CO2, H2O, and SOx Fuel Composition Method (FCM) VOC, NMVOC, CH4 and NMTHC Derivative Factor Method (DFM) N2O Approximate Factor Method (AFM) PM2.5 and PM10 First Order Approximation (FOA) Aircraft Performance Methods Aircraft performance data from flight data recorders Manufacturer aircraft performance models SAE AIR 1845 combined with Eurocontrol's Base of Aircraft Data (BADA) Eurocontrol's BADA Other aircraft performance models such as the Project Interactive Analysis and Optimisation (PIANO) toolBoth of these sets of emissions and aircraft performance methods are listed in the order in which they are presented in this document. And as previously indicated, the order generally denotes the level of accuracy where the first method in each section represents the most accurate method based on current understanding. The exceptions to this are:Emissions Methods BFFM2 DLRAircraft Performance SAE 1845 + BADA BADAThe ordering of these methods are arbitrary since they are considered comparable (e.g., BFFM2 is comparable to DLR). One other possible exception is the last listing under aircraft performance methods ("Other aircraft performance models"). The data from these other sources may be more accurate, comparable, or less accurate than the previously mentioned methods. This last category was added to include all other methods that were not based on manufacturer, SAE 1845, and BADA models.In order to provide a better understanding of the relative condition of these methods, they have been defined into development status (i.e., "mature" or "developing") and fidelity (i.e., "simple," "intermediate," or "advanced") categories as presented in Table 1. The "other" aircraft model category was not included in Table 1 since it is understood that it can be listed in any of the categories depending on which method/model is employed. The definitions for each of the categories are as follows: In modeling aircraft performance and emissions, the main focus is on a single flight. This includes the complete operation and movement of the aircraft from gate-to-gate: Main engine start-up Ground taxi-out and delay activities Takeoff: Runway roll Takeoff: Initial ascent Climbout En route/cruise Airborne delay activities Approach Landing roll Thrust reverser Ground taxi-in and delay activities Engine shut-downFor modeling purposes, these modes can generally be simplified so that they are equated to one of the four LTO modes. Depending on the method, the actual modeling of the gate-to-gate movement may involve a segment-by-segment approach where results can be integrated to obtain totals by mode and flight. Currently, the AIR does not address emissions during engine start-up and shut-down activities. Also, thrust reverse operations are not directly covered in this AIR. This Aerospace Information Report (AIR) describes procedures for calculating emissions resulting from operations of jet and turboprop aircraft through all modes of operation. The procedures assume that reference emissions and performance data are available for each airplane involved. The fundamental element of the procedures is a method for deriving emissions indices for an airplane when performing any specified operation for a segment of a flight. The principal purpose of using the procedures is to assist model developers in calculating aircraft emissions in a consistent and accurate manner that can be used to address various environmental assessments including those related to policy decisions and regulatory requirements.Rather than presenting one method, many viable methods are presented for both emissions and aircraft performance modeling with descriptions of the uncertainties involved. As a loose guide to the user, the methods are also ordered such that the most accurate methods are presented first in each section based on current understanding. This document is intended to be updated periodically. Hence, the methodology descriptions and uncertainty assessments will be modified accordingly as the various methods evolve and new information becomes available.
Book Synopsis Scientific and Technical Aerospace Reports by :
Download or read book Scientific and Technical Aerospace Reports written by and published by . This book was released on 1994 with total page 716 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis International Aerospace Abstracts by :
Download or read book International Aerospace Abstracts written by and published by . This book was released on 1999 with total page 1042 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Journal of the Air Pollution Control Association by : Air Pollution Control Association
Download or read book Journal of the Air Pollution Control Association written by Air Pollution Control Association and published by . This book was released on 1977 with total page 1264 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author :National Center for Environmental Assessment (Research Triangle Park, N.C.) Publisher : ISBN 13 : Total Pages :1100 pages Book Rating :4.3/5 ( download)
Book Synopsis Air Quality Criteria for Particulate Matter by : National Center for Environmental Assessment (Research Triangle Park, N.C.)
Download or read book Air Quality Criteria for Particulate Matter written by National Center for Environmental Assessment (Research Triangle Park, N.C.) and published by . This book was released on 1996 with total page 1100 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Gas Turbine Emissions by : Timothy C. Lieuwen
Download or read book Gas Turbine Emissions written by Timothy C. Lieuwen and published by Cambridge University Press. This book was released on 2013-07-08 with total page 385 pages. Available in PDF, EPUB and Kindle. Book excerpt: The development of clean, sustainable energy systems is a preeminent issue in our time. Gas turbines will continue to be important combustion-based energy conversion devices for many decades to come, used for aircraft propulsion, ground-based power generation, and mechanical-drive applications. This book compiles the key scientific and technological knowledge associated with gas turbine emissions into a single authoritative source.
