Kód: 08141983

Detonation Branching in a Pde with Liquid Hydrocarbon Fuel

Name: Detonation Branching in a Pde with Liquid Hydrocarbon Fuel
Brand: Biblioscholar
SKU: 08141983
Price: 68.70 EUR
Availability: InStock

Autor Kristin L Panzenhagen

Jazyk: Angličtina
Väzba: Brožovaná
Počet strán: 94
Nakladateľ: Biblioscholar, 2012
Viac informácií o knihe

68.70 €

Skladom u dodávateľa
Odosielame za 14 - 18 dní

Pridať medzi želanie

Mohlo by sa vám tiež páčiť

How Things Fell Apart
15.98 €
Kúpiť
Secret of the Past. a Novel.
27.41 € -4 %
Kúpiť
Few Concise Examples of Seven Hundred Errors in Shakespeare's Plays, Now Corrected and Elucidated, Etc.
21.85 € -3 %
Kúpiť
Enough Already
19.22 € -4 %
Kúpiť
Revival of Spiritual Healing
23.47 €
Kúpiť
Still Telling It As It Was
20.94 €
Kúpiť
Cibolo Creek
37.03 €
Kúpiť
Miami Inverted
20.43 €
Kúpiť
Little Men
21.24 €
Kúpiť
Of Firebirds & Moonmen
40.37 €
Kúpiť
Virginia Black
37.94 €
Kúpiť
Recent Algorithms and Applications in Swarm Intelligence Research
256.23 €
Kúpiť
Funny Thing Happened on the Way to Inventing My Childhood
23.87 € -4 %
Kúpiť
I Swear to You, Adolf Hitler, Fealty and Obedience
29.44 €
Kúpiť

Darujte túto knihu ešte dnes

Objednajte knihu a vyberte Zaslať ako darček.
Obratom obdržíte darovací poukaz na knihu, ktorý môžete ihneď odovzdať obdarovanému.
Knihu zašleme na adresu obdarovaného, o nič sa nestaráte.

Viac informácií

Viac informácií o knihe Detonation Branching in a Pde with Liquid Hydrocarbon Fuel

Parametre knihy
Anotácia kniha
Obľúbené z iného súdka

Nákupom získate 172 bodov

Anotácia knihy

Pulse detonation engines (PDE) capitalize on the large mass flux and pressure rise a detonation has compared to a deflagration. The PDE operates on a fill-detonate-exhaust cycle and its thrust is directly proportional to the cycle frequency, therefore a decrease in cycle time results in increased thrust. This research showed that the detonate part of the cycle can be shortened by using a branched detonation as the ignition source as opposed to standard spark ignition. This research was a milestone in PDE development because, while detonation branching has been accomplished using gaseous hydrogen as the fuel, this was the first instance of detonation branching using liquid hydrocarbon fuel. A vaporization system was used to vaporize the fuel and mix it with the airstream, allowing the PDE to operate at stoichiometric conditions. This research concluded that detonation ignition is not only possible when using liquid hydrocarbon fuel, but it produces results superior to those obtained using spark ignition. With detonation ignition, more energy is input into the head than with spark ignition. Operating at a 20 Hz cycle frequency and a 1.02 equivalence ratio, ignition times were 5.63 and 0.19 ms and deflagration to detonation transition (DDT) times were 2.36 and 1.03 ms for the spark- and detonation-ignited thrust tubes, respectively. The total time savings in the detonate part of the PDE cycle for detonation-ignition was 6.77 ms, an 85% time reduction in ignition and DDT times. This reduction in cycle time affords an appreciable thrust increase. Also, DDT was complete in 83% of the distance, allowing a decrease in tube length, which decreases overall weight.