NOX as a Function of Fuel Type: C1-to-C16 Hydrocarbons and Methanol

Lee, John C. Y.; Malte, Philip C.; Nicol, David G.

doi:10.1115/99-gt-270

Volume 2: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations 1999

DOI: 10.1115/99-gt-270

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NOX as a Function of Fuel Type: C1-to-C16 Hydrocarbons and Methanol

John C. Y. Lee

Philip C. Malte

David G. Nicol

Abstract: The response of NOx to fuel type is determined for leanprevaporized-premixed combustion in an atmospheric pressure jetstirred reactor (JSR). Pure, straight chain, alkane fuels from C1 (methane) to C16 (hexadecane) and methanol are tested Testing is conducted under three conditions, each of which is obtained using a particular inlet-jet nozzle for the JSR. For a selected condition, the fuels are bunted under nearly identical macroscopic thermal and fluid mechanical fields in the JSR. A constant mixture inlet to… Show more

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Cited by 3 publications

References 9 publications

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Revisiting diesel fuel formulation from Petroleum light and middle refinery streams based on optimized engine behavior

Amara

Dauphin

Babiker

et al. 2016

Fuel

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International audienceThe share of diesel fuel in European transport sector, which currently represents over 50% of total 11 demand, is increasing, requiring massive imports of this product, while at the same time, gasoline fuels are 12 today in surplus. In terms of air pollutant emissions, gasoline and kerosene streams have shown potential 13 in achieving lower emissions in Compression Ignition (CI) engines, particularly nitrogen oxides (NOx) 14 and particulates. A new fuel formulation approach through the use of light fractions within diesel 15 technology could consequently address both questions of energy demand balance and reduction of diesel 16 engines pollution footprint. In this study, a fuel formulation for a Diesel engine is optimized to achieve 17 lower pollutants emissions and higher engine efficiency. The fuel matrix is based on seven refinery 18 streams representative of gasoline (Hydrotreated Straight-Run Gasoline HSRG, Hydrotreated Fluid 19 Catalytic Cracking HFCC and Reformate REF), kerosene (Hydrotreated Straight-Run Kerosene HSRK 20 and Hydrocracked Kerosene HCKK) and diesel cuts (Hydrotreated Straight-Run Diesel HSRD and 21 Hydrocracked Light Diesel HCKLD). A D-Optimal mixture design is applied to build, a 12-run, 7-factor fuelmatrix and the fuels are thoroughly optimized on two engine conditions at light and mid-load representativeof typical vehicle running conditions. The results show a high sensitivity and a good correlation ofthe engine efficiency and pollutants emissions with the volumetric contribution of each refinery streamto the fuel composition. The optimum fuel composition varies across the range of engine operatingpoints. At light load for example, the addition of up to 50 vol% of gasoline streams (HSRG and HFCC) todiesel streams demonstrates a good potential to simultaneously reduce NOx and particulate emission

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Revisiting diesel fuel formulation from Petroleum light and middle refinery streams based on optimized engine behavior

Amara

Dauphin

Babiker

et al. 2016

Fuel

View full text Add to dashboard Cite

show abstract

Issues for low-emission, fuel-flexible power systems

Richards

McMillian

Gemmen

et al. 2001

Progress in Energy and Combustion Science

218

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Low NOx Combustion for Liquid Fuels: Atmospheric Pressure Experiments Using a Staged Prevaporizer-Premixer

Lee

Malte

Benjamin

2003

Journal of Engineering for Gas Turbines and Power

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Low emissions of NOx are obtained for a wide range of liquid fuels by using a staged prevaporizing-premixing injector. The injector relies on two stages of air temperature and fires into a laboratory jet-stirred reactor operated at atmospheric pressure and nominal ϕ of 0.6. The liquid fuels burned are methanol, normal alkanes from pentane to hexadecane, benzene, toluene, two grades of light naphtha, and four grades of No. 2 diesel fuel. Additionally, natural gas, ethane, and industrial propane are burned. For experiments conducted for 1790 K combustion temperature and 2.3±0.1 ms combustion residence time, the NOx (adjusted to 15% O2 dry) varies from a low of 3.5 ppmv for methanol to a high of 11.5 ppmv for No. 2 diesel fuel. For the most part, the NOx and CO are positively correlated with the fuel carbon to hydrogen ratio (C/H). Chemical kinetic modeling suggests the increase in NOx with C/H ratio is caused in significant part by the increasing superequilibrium concentrations of O-atom created by the increasing levels of CO burning in the jet-stirred reactor. Fuel bound nitrogen also contributes NOx for the burning of the diesel fuel. This paper describes the staged prevaporizing-premixing injector, the examination of the injector, and the NOx and CO measurements and their interpretation. Optical measurements, using beams of He-Ne laser radiation passed across the outlet stream of the injector, indicate complete vaporization and a small variation in the cross-stream averaged fuel/air ratio. The latter is determined by measuring the standard deviation and mean of the transmission of the laser beam passed through the stream. Additional measurements and inspections indicate no pressure oscillations within the injector and no gum and carbon deposition. Thus, the NOx and CO measurements are obtained for fully vaporized, well premixed conditions devoid of preflame reactions within the injector.

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NOX as a Function of Fuel Type: C1-to-C16 Hydrocarbons and Methanol

Cited by 3 publications

References 9 publications

Revisiting diesel fuel formulation from Petroleum light and middle refinery streams based on optimized engine behavior

Revisiting diesel fuel formulation from Petroleum light and middle refinery streams based on optimized engine behavior

Issues for low-emission, fuel-flexible power systems

Low NOx Combustion for Liquid Fuels: Atmospheric Pressure Experiments Using a Staged Prevaporizer-Premixer

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