Scientific simulation of rocket engines. Fully customizable. 2 test methods: simple and advanced. Configurable propellants. Detailed performance results. Custom analysis. All results are saved for future use. Extended analysis. Program is in C. Portable Rocket Propulsion Analysis Standard is a highly comprehensive resource meant to aid users in determining performance statistics for rocket-propelled engines. Plenty of room for customization with two modes of testing The program comes with two methods of testing engines: a quick “Express analysis” and a more thorough “Extended analysis”. Having two test modules is great not only because it accommodates most needs, but it also allows a high degree of customization. Advanced users, in particular, will find the “Extended analysis” highly thorough and powerful. Parameters such as the thrust chamber size, propellants used or nozzle and ambient conditions are all adjustable by users. Even more customization can be achieved by defining new propellants and components. These can be defined down to the level of the chemical formula. Polynomial and tabular properties can also be adjusted by users. Exhaustive results that can be exported Upon running the simulation, the resource generates a significant amount of results, depending on the defined parameters. Among the information, one can find thermodynamic properties, performance specifications, as well as the propellant analysis results. One of the nice features of Portable Rocket Propulsion Analysis Standard is that it can save all these results in a single file (standard text LOG files); a built-in Print function is also available. The interface is highly intuitive and surprisingly simple. Given that this is, essentially, a highly-specialized program, one would expect a rather complex GUI. This is not the case and students and newcomers will find at least the “Express analysis” very accessible. A great resource for Physics students and professors alike In conclusion, Portable Rocket Propulsion Analysis Standard is great for anyone interested in running complex engine simulations. The amount of customization is wonderful and the results are comprehensive. Having two test modes allows for simple and advanced tasks, a feature users will find very handy! Portable Rocket Propulsion Analysis Standard Description: Scient
This is a program for helping you to derive MACRO's for any given set of parameters. Each and every parameter can be given as a free text string and the program will simply generate the corresponding MACRO. Up to 1000 parameters can be processed in this way. DATUMS on launch sequence simulation: This is a program to assist you in simulating all sorts of burn stages. It's designed to help you avoid accidentally neglecting some burn stages. Using this program you can simply "load" the data you need by filling in the free text space with the number of your choice. SCIENCE on simulation engine parameters: This is a program to help you generate your own fit functions from your own data files. It is designed to be able to accept any experimental data file. Using this program you can simply load the data you need by filling in the free text space with the number of your choice. MISC General: This is a program to help you create and edit your own data files. You can use this program to create and edit your own log files, as well as your own in-house log files. This is a very useful program if you wish to use any custom data in any of the programs above. It is a 2 part program. In part one you will be able to read data files from your own computer, if your computer is working, you will then be able to work with that data file in part two. You can either load the data file that you created in part one, or you can use it directly in part two. The only limit with this program is that you must use the same number system as the program (tokens, numbers, f,b, and so on. This program allows you to create your own data log file, it's just not always as well organised as the other two programs. This program also includes'save as' capability. You can save your own log files on a server and then re-use them with any other program. Features: Aplication is written in Delphi 2 and is very easy to learn and use. Applications: 1/2/3 (Checks parameters) Animation (Realistic, Rational, and Hyperbolic) Plot (Engine Parameter / Jet Speed) Demonstrate (Set of values with circles, sphere, etc.) Circle / Line 1 Circle / Line 2 Triangle b78a707d53
Portable Rocket Propulsion Analysis Standard is the most comprehensive analysis software available for rockets. It generates performance parameters for all major propellants including liquid oxygen, hydroxylamine nitrate, hydrazine, hydrazine derivatives, monomethylhydrazine, nitrogen tetroxide, and hydrazine monopropellants. It also covers solid fuels such as powdered aluminum and aluminum/iron oxide, boron-containing compounds, and most oxidizers. Portable Rocket Propulsion Analysis Standard can perform all the performance analysis methods including the thrust chamber efficiency analysis, stagnation pressure-based analysis, thermal analysis, and finally, the full combustion kinetics analysis. It also generates the safe operating parameters based on the maximum power rating. Portable Rocket Propulsion Analysis Standard is also a valuable resource for physics students, propellant researchers, and rocket engineers to test out their most popular or complicated propellants and engines. Portable Rocket Propulsion Analysis Standard is highly customizable, allowing users to define the propellant or engine properties, parameters, and the simulation boundaries. Portable Rocket Propulsion Analysis Standard also has a unique engine simulator that allows you to have more control over the engine for more accurate results. The program supports all major rocket engines and is compatible with Linux, Windows, and Mac OS X. Features: Portable Rocket Propulsion Analysis Standard is the most comprehensive analysis software available for rockets. It generates performance parameters for all major propellants including liquid oxygen, hydroxylamine nitrate, hydrazine, hydrazine derivatives, monomethylhydrazine, nitrogen tetroxide, and hydrazine monopropellants. It also covers solid fuels such as powdered aluminum and aluminum/iron oxide, boron-containing compounds, and most oxidizers. Portable Rocket Propulsion Analysis Standard can perform all the performance analysis methods including the thrust chamber efficiency analysis, stagnation pressure-based analysis, thermal analysis, and finally, the full combustion kinetics analysis. It also generates the safe operating parameters based on the maximum power rating. Portable Rocket Propulsion Analysis Standard is also a valuable resource for physics students, propellant researchers, and rocket engineers to test out their most popular or complicated propellants and engines. Portable Rocket Propulsion Analysis Standard is highly customizable, allowing users to define the propellant or engine properties, parameters, and the simulation boundaries. Portable Rocket Propulsion Analysis Standard also has a unique engine simulator that allows you to have more control over the engine for more accurate results. The program supports all major rocket engines and is compatible with Linux, Windows
Based on the PROPSYS commercial software tool developed by the French company PROPULSE LAB. PROPSYS is an analysis package of variable effects on combustion processes for hydrocarbon propellants. It consists of more than 20 modules : to simulate main combustion, gas flow, rocket assembly, main-stage operation and first-stage rocket operation. PROPSYS allows the user to study the combustion process of: - liquid or solid propellants - rocket engines or aircraft - cold or hot engines - single, multi-nozzle and dual-nozzle - combustion chambers - either constant or varying pressure conditions PROPSYS allows the user to perform a wide range of analyses : structural analysis, propellant, material, engine characteristics, flow-field, combustion, pyro, thermodynamic, mass, and velocity-time analyses. The model has a good match with the most used commercial or experimental software packages (PROPSYS, NORDDYN, FARMIV). All data output of PROPSYS is compatible with the general purpose modelling packages (PROP, IDL, MATLAB, x-ped). PROPSYS is commercial software and additional modules are available on request. For commercial and/or scientific use only. Welcome to the FireballSpace Rocket Engine Design Community! The FireballSpace Rocket Engine Design Community is a free community of rocket scientists and engineers. FireballSpace is your home for rocket Wow, this is a really cool site. You can design your own rockets, launch them, and track them all using this site. On the design page, there is a ‘launch’ button. You can click it and pick any rocket you have designed and the flight data of that rocket will appear. When you click the ‘launch’ button you are taken to the mission control page where you can see your rocket. You can change its course, speed, and altitude. To start a countdown you click the start button. The site doesn’t just work for rockets though. You can design, build, and launch satellites, scientific and space probes, and other spacecraft. FireballSpace is a really cool site, and I highly recommend it. Rock on - Rock an easy UI. I used to have a simple program to calculate rocket mass that worked fine, but it was never very good. If you were working on a rocket that wasn’t the standard model, it was near impossible to get a good answer for the mass of the rocket. This program, on the other hand, allows you to define exactly what you want to calculate for your rocket. You don’t have to have a 10×5x5 rocket model if you don’t want to. Simple as that. Well, the GUI is easy as well. The tool I developed is an easy way to
Minimum specifications recommended. A graphically powerful system is recommended. Windows XP Windows Vista Windows 7 Mac OSX Lion A Mac with at least 2GB RAM and a reasonably fast processor (Quad 2 Core or better) is recommended. This game is designed to work perfectly on Windows XP, Windows Vista, Windows 7, and Mac OSX Lion operating systems. The Windows version of the game requires a bit more of a powerful system for the graphic engine to work smoothly. The Mac OSX version is
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