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Books on the topic 'Gas phase combustion model'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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1

Gardiner, W. C., ed. Gas-Phase Combustion Chemistry. Springer New York, 2000. http://dx.doi.org/10.1007/978-1-4612-1310-9.

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2

Gas-phase thermal reactions: Chemical engineering kinetics. Kluwer Academic Publishers, 2001.

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3

Côme, Guy-Marie. Gas-phase thermal reactions: Chemical engineering kinetics. Kluwer Academic Publishers, 2001.

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4

Spindizzies, gas-powered model racers. E-Z Spindizzy Collection, 1998.

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5

Tsui, Chak M. A computational model for gas-particle flows with distributed phase interfaces. Dept. of Aerospace Science and Engineering, Unieristy of Toronto, 1997.

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6

Tsui, Chak M. A computational model for gas-particle flows with distributed phase interfaces. National Library of Canada = Bibliothèque nationale du Canada, 1999.

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7

Whitney, Kevin A. Determination of alternative fuels combustion products--phase 3 report. National Renewable Energy Laboratory, 1997.

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8

Whitney, Kevin A. Determination of alternative fuels combustion products--phase 1 report. National Renewable Energy Laboratory, 1997.

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9

Nadziakiewicz, Jan. Teoretyczno-eksperymentalny model radiacyjnego przepływu ciepła w płomieniu gazowym. Dział Wydawnictw Politechniki Śląskiej, 1989.

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10

Rathmann, Ole. Multwo: Compositional computer model for transient oil/gas two-phase flow : The EFP-85 Project. Dept. of Energy Technology/Section of Heat Transfer and Hydraulics Riso National Laboratory, 1986.

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11

Mazo, Aleksandr, and Konstantin Potashev. The superelements. Modeling of oil fields development. INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/1043236.

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This monograph presents the basics of super-element modeling method of two-phase fluid flows occurring during the development of oil reservoir. The simulation is performed in two stages to reduce the spatial and temporal scales of the studied processes. In the first stage of modeling of development of oil deposits built long-term (for decades) the model of the global dynamics of the flooding on the super-element computational grid with a step equal to the average distance between wells (200-500 m). Local filtration flow, caused by the action of geological and technical methods of stimulation, are modeled in the second stage using a special mathematical models using computational grids with high resolution detail for the space of from 0.1 to 10 m and time — from 102 to 105 C. The results of application of the presented models to the solution of practical tasks of development of oil reservoir. Special attention is paid to the issue of value transfer in filtration-capacitive properties of the reservoir, with a detailed grid of the geological model on the larger grid reservoir models. Designed for professionals in the field of mathematical and numerical modeling of fluid flows occurring during the development of oil fields and using traditional commercial software packages, as well as developing their own software. May be of interest to undergraduate and graduate students studying in areas such as "Mechanics and mathematical modeling", "Applied mathematics", "Oil and gas".
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12

Gas-Phase Combustion Chemistry. Springer, 1999.

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13

Mathematical Modelling of Gas-Phase Complex Reaction Systems: Pyrolysis and Combustion. Elsevier, 2019. http://dx.doi.org/10.1016/c2017-0-00515-3.

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14

Aerojet TechSystems Company (U.S.) and George C. Marshall Space Flight Center., eds. Carbon deposition model for oxygen-hydrocarbon combustion: Task VI, data analysis and formulation of an empirical model. Aerojet Techsystems Co., 1990.

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15

S, Tʻien James, and United States. National Aeronautics and Space Administration., eds. Numerical computation of flame spread over a thin solid in forced concurrent flow with gas-phase radiation. National Aeronautics and Space Administration, 1994.

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16

R, Seeker W., and Air and Energy Engineering Research Laboratory, eds. Fundamental combustion research applied to pollution formation, volume I: FCR program overview and gas-phase chemistry. U.S. Environmental Protection Agency, Air and Energy Engineering Research Laboratory, 1986.

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17

United States. National Aeronautics and Space Administration., ed. Laser doppler velocimeter measurements and laser sheet imaging in an annular combustor model. National Aeronautics and Space Administration, 1995.

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18

D, Sheffler K., Ortiz Milton, and Lewis Research Center, eds. Thermal barrier coating life prediction model development: Phase 1, final report. NASA Lewis Research Center, 1989.

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19

MULTWO: Compositional Computer Model for Transient Oil/Gas Two-Phase Flow : 1st. Year Progress Report (1984). Dept. of Chemical Engineering, Technical Univ. of Denmark, 1985.

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20

G, Cole J., LGL Ecological Research Associates, United States. Minerals Management Service. Gulf of Mexico OCS Region, and Geological Survey (U.S.). Biological Resources Division, eds. Cumulative ecological significance of oil and gas structures in the Gulf of Mexico: A Gulf of Mexico fisheries habitat suitability model -- phase II model description. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, 1998.

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21

G, Cole J., LGL Ecological Research Associates, United States. Minerals Management Service. Gulf of Mexico OCS Region., and Geological Survey (U.S.). Biological Resources Division., eds. Cumulative ecological significance of oil and gas structures in the Gulf of Mexico: A Gulf of Mexico fisheries habitat suitability model -- phase II model description. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, 1998.

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22

TitahMboh, Manases Menang. Numerical computation of gas flow through an exhaust duct: An investigation of the exit boundary conditions. 1997.

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23

Tesla Model S: Best Car Ever! FAQware, 2013.

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24

United States. Minerals Management Service. Gulf of Mexico OCS Region. and Geological Survey (U.S.). Biological Resources Division., eds. Cumulative ecological significance of oil and gas structures in the Gulf of Mexico: A Gulf of Mexico fisheries habitat suitability model -- phase II user manual. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, 1998.

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25

United States. Minerals Management Service. Gulf of Mexico OCS Region and Geological Survey (U.S.). Biological Resources Division, eds. Cumulative ecological significance of oil and gas structures in the Gulf of Mexico: A Gulf of Mexico fisheries habitat suitability model -- phase II user manual. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, 1998.

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26

Cumulative ecological significance of oil and gas structures in the Gulf of Mexico: A Gulf of Mexico fisheries habitat suitability model -- phase II user manual. U.S. Dept. of the Interior, Minerals Management Service, Gulf of Mexico OCS Region, 1998.

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27

Center, Lewis Research, ed. LSPRAY: A Lagrangian spray solver, user's manual : prepared under contract NAS3-27186. National Aeronautics and Space Administration, Lewis Research Center, 1997.

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28

S, El-Genk Mohamed, and United States. National Aeronautics and Space Administration., eds. "HPTAM", a two-dimensional heat pipe transient analysis model, including the startup from a frozen state: Final report no. UNM-ISNPS-4-1995. Institute for Space and Nuclear Power Studies, School of Engineering, University of New Mexico, 1995.

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29

"HPTAM", a two-dimensional heat pipe transient analysis model, including the startup from a frozen state: Final report no. UNM-ISNPS-4-1995. Institute for Space and Nuclear Power Studies, School of Engineering, University of New Mexico, 1995.

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30

"HPTAM", a two-dimensional heat pipe transient analysis model, including the startup from a frozen state: Final report no. UNM-ISNPS-4-1995. Institute for Space and Nuclear Power Studies, School of Engineering, University of New Mexico, 1995.

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31

Pool, Robert. Beyond Engineering. Oxford University Press, 1997. http://dx.doi.org/10.1093/oso/9780195107722.001.0001.

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We have long recognized technology as a driving force behind much historical and cultural change. The invention of the printing press initiated the Reformation. The development of the compass ushered in the Age of Exploration and the discovery of the New World. The cotton gin created the conditions that led to the Civil War. Now, in Beyond Engineering, science writer Robert Pool turns the question around to examine how society shapes technology. Drawing on such disparate fields as history, economics, risk analysis, management science, sociology, and psychology, Pool illuminates the complex, often fascinating interplay between machines and society, in a book that will revolutionize how we think about technology. We tend to think that reason guides technological development, that engineering expertise alone determines the final form an invention takes. But if you look closely enough at the history of any invention, says Pool, you will find that factors unrelated to engineering seem to have an almost equal impact. In his wide-ranging volume, he traces developments in nuclear energy, automobiles, light bulbs, commercial electricity, and personal computers, to reveal that the ultimate shape of a technology often has as much to do with outside and unforeseen forces. For instance, Pool explores the reasons why steam-powered cars lost out to internal combustion engines. He shows that the Stanley Steamer was in many ways superior to the Model T--it set a land speed record in 1906 of more than 127 miles per hour, it had no transmission (and no transmission headaches), and it was simpler (one Stanley engine had only twenty-two moving parts) and quieter than a gas engine--but the steamers were killed off by factors that had little or nothing to do with their engineering merits, including the Stanley twins' lack of business acumen and an outbreak of hoof-and-mouth disease. Pool illuminates other aspects of technology as well. He traces how seemingly minor decisions made early along the path of development can have profound consequences further down the road, and perhaps most important, he argues that with the increasing complexity of our technological advances--from nuclear reactors to genetic engineering--the number of things that can go wrong multiplies, making it increasingly difficult to engineer risk out of the equation. Citing such catastrophes as Bhopal, Three Mile Island, the Exxon Valdez, the Challenger, and Chernobyl, he argues that is it time to rethink our approach to technology. The days are gone when machines were solely a product of larger-than-life inventors and hard-working engineers. Increasingly, technology will be a joint effort, with its design shaped not only by engineers and executives but also psychologists, political scientists, management theorists, risk specialists, regulators and courts, and the general public. Whether discussing bovine growth hormone, molten-salt reactors, or baboon-to-human transplants, Beyond Engineering is an engaging look at modern technology and an illuminating account of how technology and the modern world shape each other.
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