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ADRpy-0.2.5

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توضیحات

Aircraft Design Recipes in Python: a library of aircraft conceptual design tools.
ویژگی مقدار
سیستم عامل -
نام فایل ADRpy-0.2.5
نام ADRpy
نسخه کتابخانه 0.2.5
نگهدارنده []
ایمیل نگهدارنده []
نویسنده Andras Sobester
ایمیل نویسنده -
آدرس صفحه اصلی https://github.com/sobester/ADRpy
آدرس اینترنتی https://pypi.org/project/ADRpy/
مجوز GPLv3
![ADRpy](https://github.com/sobester/ADRpy/raw/master/docs/ADRpy/ADRpy_splash.png) Aircraft Design Recipes in Python ================================= [![PyPI version](https://badge.fury.io/py/ADRpy.svg)](https://badge.fury.io/py/ADRpy) [![Build Status](https://travis-ci.com/sobester/ADRpy.svg?branch=master)](https://travis-ci.com/sobester/ADRpy) A library of aircraft conceptual design and performance analysis tools, including virtual (design) atmospheres, constraint analysis methods, propulsion system performance models, conversion functions and much else. For a detailed description of the library, please consult the [Documentation](https://adrpy.readthedocs.io/en/latest/). To get started, follow the instructions below. For video tutorials and explainers (a.k.a. *ADRpy Shorts*) scroll to the bottom of this page. author: Andras Sobester Installation / Usage -------------------- ADRpy is written in Python 3 and tested in Python 3.5, 3.6, 3.7 and 3.8. It is not available for Python 2. On most systems you should be able to simply open an operating system terminal and at the command prompt type $ pip install ADRpy or $ python -m pip install ADRpy NOTE: `pip` is a Python package; if it is not available on your system, download [get-pip.py](https://bootstrap.pypa.io/get-pip.py) and run it in Python by entering $ python get-pip.py at the operating system prompt. An alternative approach to installing ADRpy is to clone the GitHub repository, by typing $ git clone https://github.com/sobester/ADRpy.git at the command prompt and then executing the setup file in the same directory by entering: $ python setup.py install A 'hello world' example: atmospheric properties ----------------------------------------------- There are several options for running the examples shown here: you could copy and paste them into a `.py` file, save it and run it in Python, or you could enter the lines, in sequence, at the prompt of a Python terminal. You could also copy and paste them into a Jupyter notebook (`.ipynb` file) cell and execute the cell. ```python from ADRpy import atmospheres as at from ADRpy import unitconversions as co # Instantiate an atmosphere object: an ISA with a +10C offset isa = at.Atmosphere(offset_deg=10) # Query the ambient density in this model at 41,000 feet print("ISA+10C density at 41,000 feet (geopotential):", isa.airdens_kgpm3(co.feet2m(41000)), "kg/m^3") ``` You should see the following output: ISA+10C density at 41,000 feet (geopotential): 0.274725888531 kg/m^3 A design example: wing/powerplant sizing for take-off ----------------------------------------------------- ```python # Compute the thrust to weight ratio required for take-off, given # a basic design brief, a basic design definition and a set of # atmospheric conditions from ADRpy import atmospheres as at from ADRpy import constraintanalysis as ca from ADRpy import unitconversions as co # The environment: 'unusually high temperature at 5km' atmosphere # from MIL-HDBK-310. # Extract the relevant atmospheric profiles... profile_ht5_1percentile, _ = at.mil_hdbk_310('high', 'temp', 5) # ...then use them to create an atmosphere object m310_ht5 = at.Atmosphere(profile=profile_ht5_1percentile) #==================================================================== # The take-off aspects of the design brief: designbrief = {'rwyelevation_m':1000, 'groundrun_m':1200} # Basic features of the concept: # aspect ratio, engine bypass ratio, throttle ratio designdefinition = {'aspectratio':7.3, 'bpr':3.9, 'tr':1.05} # Initial estimates of aerodynamic performance: designperf = {'CDTO':0.04, 'CLTO':0.9, 'CLmaxTO':1.6, 'mu_R':0.02} # ...and wheel rolling resistance coeff. # An aircraft concept object can now be instantiated concept = ca.AircraftConcept(designbrief, designdefinition, designperf, m310_ht5) #==================================================================== # Compute the required standard day sea level thrust/MTOW ratio reqd. # for the target take-off performance at a range of wing loadings: wingloadinglist_pa = [2000, 3000, 4000, 5000] tw_sl, liftoffspeed_mpstas, _ = concept.twrequired_to(wingloadinglist_pa) # The take-off constraint calculation also supplies an estimate of # the lift-off speed; this is TAS (assuming zero wind) - we convert # it to equivalent airspeed (EAS), in m/s: liftoffspeed_mpseas = \ m310_ht5.tas2eas(liftoffspeed_mpstas, designbrief['rwyelevation_m']) print("Required T/W and V_liftoff under MIL-HDBK-310 conditions:") print("\nT/W (std. day, SL, static thrust):", tw_sl) print("\nLiftoff speed (KEAS):", co.mps2kts(liftoffspeed_mpseas)) ``` You should see the following output: Required T/W and V_liftoff under MIL-HDBK-310 conditions: T/W (std. day, SL, static thrust): [ 0.19618164 0.2710746 0.34472518 0.41715311] Liftoff speed (KEAS): [ 96.99203483 118.79049722 137.1674511 153.35787248] More extensive examples - a library of notebooks ------------------------------------------------ To view them on GitHub, go to [ADRpy's notebooks folder](https://github.com/sobester/ADRpy/tree/master/docs/ADRpy/notebooks). Alternatively, grab the whole repository as a .zip by clicking the big, green 'Code' button at the top of this page. ADRpy Shorts - video tutorials and explainers --------------------------------------------------------- **1. An Aircraft Engineer's Brief Introduction to Modelling the Atmosphere** [![1. An Aircraft Engineer's Brief Introduction to Modelling the Atmosphere](http://img.youtube.com/vi/II9vuVCgV-w/0.jpg)](http://www.youtube.com/watch?v=II9vuVCgV-w) **2. On V-n Diagrams and How to Build them in ADRpy** [![2. On V-n Diagrams and How to Build them in ADRpy](http://img.youtube.com/vi/s-d5z-BQovY/0.jpg)](http://www.youtube.com/watch?v=s-d5z-BQovY) **3. Speed in aviation - GS, WS, TAS, IAS, CAS and EAS** [![3. Speed in aviation - GS, WS, TAS, IAS, CAS and EAS](http://img.youtube.com/vi/WSzDXlTlXiI/0.jpg)](http://www.youtube.com/watch?v=WSzDXlTlXiI) **4. Wing and propulsion system sizing with ADRpy** [![4. Wing and propulsion system sizing](http://img.youtube.com/vi/TMM7mE1NjaE/0.jpg)](https://www.youtube.com/watch?v=TMM7mE1NjaE)


نیازمندی

مقدار نام
- sphinx
- sphinx-rtd-theme
- nose
- coverage
- scipy
- pandas
- cycler
- matplotlib
>=4.3.0 pytest


نحوه نصب


نصب پکیج whl ADRpy-0.2.5:

    pip install ADRpy-0.2.5.whl


نصب پکیج tar.gz ADRpy-0.2.5:

    pip install ADRpy-0.2.5.tar.gz