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MR. P
What Would Be The Most Appropriate Means For Evaluating The Performance Of A 'pulsed Detonation' Engine Using Hydrogen As A Fuel And Atmospheric Air?
Far more detail required; if by 'pulsed detonation' you mean a standard 4-cycle engine, then the equations involved for a gasoline motor apply.MR. P said:What Would Be The Most Appropriate Means For Evaluating The Performance Of A 'pulsed Detonation' Engine Using Hydrogen As A Fuel And Atmospheric Air?
Go to http://www.imageshack.ws/?cookie=add2a60979fffcf0ba9ca213fcbced44 and click on 'browse'. It'll open a file menu so you can find the picture on your computer. When you've selected the one you want, the file name will show up in the window beside the 'browse' button. Scroll down and click 'Host It'. Then just pick the address that's appropriate for where you want to show it. I use the middle one, and found that an image size of 300x300 comes out about right for fitting on the screen in full view mode.MR. P said:by the is there a way to post pics of these things?
Pulsed detonation evaluation (PDE) is a method used to analyze and characterize the performance of pulsed detonation engines (PDEs). It involves measuring and recording various parameters such as combustion pressure, temperature, and fuel consumption during the detonation process.
Unlike traditional detonation evaluation methods, which involve steady-state operations, PDE focuses on the transient behavior of detonation events. It captures the dynamic response of the engine during the pulsed detonation process, providing more accurate and detailed information about its performance.
PDE offers several advantages over traditional detonation evaluation methods. It allows for a faster and more efficient evaluation of engine performance, as it can capture multiple detonation events in a short period of time. It also provides more detailed data on the engine's behavior, allowing for better optimization and design of PDEs.
PDE can provide data on various parameters such as combustion pressure, temperature, and fuel consumption during the detonation process. It can also capture information on the timing and frequency of detonation events, as well as the stability and efficiency of the engine.
PDE is an essential tool in the development of pulsed detonation engines. It allows engineers to analyze and understand the behavior of the engine in real-time, providing valuable data for design and optimization. PDE is also used to validate computer simulations and models of PDEs, ensuring their accuracy and reliability.