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File:Bi-elliptic transfer.svg

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Original file (SVG file, nominally 768 × 580 pixels, file size: 4 KB)

Summary

Description A bi-elliptic transfer from a low circular starting orbit (dark blue), to a higher circular orbit (red). The spaceship is traveling in a counterclockwise direction during all segments of the orbital transfer as is indicated by the large blue and red arrows. When the spacecraft arrives at point 1 it performs a prograde burn to enter the first portion of the transfer orbit (blue-green segment). It then coasts until apoapsis of this transfer orbit located at point 2 where another prograde burn is performed to raise the point of periapsis until it coincides with the orbital radius of the desired orbit. The spacecraft then turns off its engine again and coasts along the yellow segment until it arrives at point 3. The maneuver is completed by performing a retrograde burn at point 3 to slow the spacecraft down and lower apoapsis until the orbit is circular again.
Date
Source Own work
Author AndrewBuck
Other versions bi-elliptic_transfer_r-ratio14.svg
SVG development
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The SVG code is valid.
 
This vector image was created with Python.
Source code
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Python code

Python svgwrite code
#!/usr/bin/python3
# -*- coding: utf8 -*-

try:
    import svgwrite
except ImportError:
    print('requires svgwrite library: https://pypi.org/project/svgwrite/')
    # documentation at https://svgwrite.readthedocs.io/
    exit(1)

from math import *

# document
size = 768, 580
name = 'bi-elliptic_transfer'
doc = svgwrite.Drawing(name + '.svg', profile='full', size=size)
doc.set_desc(name, name + '''.svg
https://commons.wikimedia.org/wiki/File:''' + name + '.svg')

# background
doc.add(doc.rect(id='background', insert=(0, 0), size=size, fill='white', stroke='none'))

r1 = 109.6
r2 = 146.4
rb = 537.3

g = doc.add(doc.g(transform='translate(559.22, 290)', fill='none'))

sun = g.add(doc.g(id='sun'))
nbeam = 12
rsun, rsun2 = 8.2, 7.2
rbeam = 13.8
p = []
for i in range(nbeam):
    phi0, phi1 = 2*pi*i/nbeam, 2*pi*(i+0.5)/nbeam
    p += [[rbeam*cos(phi0), rbeam*sin(phi0)], [rsun2*cos(phi1), rsun2*sin(phi1)]]
sun.add(doc.polygon(points=p, stroke='#f89c16', stroke_width=1, fill='#dbf816'))
grad = doc.defs.add(doc.radialGradient(id='grad', center=(0.5, 0.5), r=0.5,
                                       gradientUnits="objectBoundingBox"))
grad.add_stop_color(offset=0, color='#dbf816')
grad.add_stop_color(offset=1, color='#f89c16')
sun.add(doc.circle(center=(0, 0), r=rsun, stroke='#f89c16', stroke_width=1,
    fill='url(#grad)'))

arrow_d = 'M 0.3,0 L -0.8,0.5 Q -0.5,0 -0.8,-0.5 Z'
doc.defs.add(doc.marker(id='arrow1', refX=0, refY=0, viewBox='-1 -1 2 2',
    orient='auto', markerWidth=18, markerHeight=18)).add(doc.path(
        d=arrow_d, stroke='none', fill='#0000c4'))
doc.defs.add(doc.marker(id='arrow2', refX=0, refY=0, viewBox='-1 -1 2 2',
    orient='auto', markerWidth=18, markerHeight=18)).add(doc.path(
        d=arrow_d, stroke='none', fill='#bc0d0d'))
doc.defs.add(doc.marker(id='arrow3', refX=0, refY=0, viewBox='-1 -1 2 2',
    orient='auto', markerWidth=8, markerHeight=8)).add(doc.path(
        d=arrow_d, stroke='none', fill='#197810'))
doc.defs.add(doc.marker(id='arrow4', refX=0, refY=0, viewBox='-1 -1 2 2',
    orient='auto', markerWidth=8, markerHeight=8)).add(doc.path(
        d=arrow_d, stroke='none', fill='#a42d0c'))

g.add(doc.path(d='M {0},0 A {1},{1} 0 0 0 {1},0 A {1},{1} 0 0 0 {0},0'.format(-r1, r1),
      stroke='#0000c4', stroke_width=2.5, marker_end='url(#arrow1)'))
g.add(doc.path(d='M {0},0 A {1},{1} 0 0 0 {1},0 A {1},{1} 0 0 0 {0},0'.format(-r2, r2),
      stroke='#bc0d0d', stroke_width=2.5, marker_end='url(#arrow2)'))

a1 = (r1 + rb) / 2
b1 = sqrt(a1**2 - (a1 - r1)**2)
a2 = (r2 + rb) / 2
b2 = sqrt(a2**2 - (a2 - r2)**2)

g.add(doc.path(d='M {},0 A {},{} 0 0 0 {},0'.format(-rb, a1, b1, r1),
      stroke='#00b996', stroke_width=2, stroke_dasharray='2,4'))
g.add(doc.path(d='M {},0 A {},{} 0 0 0 {},0'.format(r2, a2, b2, -rb),
      stroke='#ff991b', stroke_width=2, stroke_dasharray='2,4'))
g.add(doc.path(d='M {},0 A {},{} 0 0 0 {},0'.format(r1, a1, b1, -rb),
      stroke='#00b996', stroke_width=5))
g.add(doc.path(d='M {},0 A {},{} 0 0 0 {},0'.format(-rb, a2, b2, r2),
      stroke='#ff991b', stroke_width=5))

dv1 = sqrt(2/r1 - 1/a1) - sqrt(1/r1)
dv2 = sqrt(2/rb - 1/a2) - sqrt(2/rb - 1/a1)
dv3 = sqrt(2/r2 - 1/a2) - sqrt(1/r2)
l1 = 160

g.add(doc.line(start=(r1, 0), end=(r1, -l1),
      stroke='#197810', stroke_width=3, marker_end='url(#arrow3)'))
g.add(doc.line(start=(-rb, 0), end=(-rb, l1*dv2/dv1),
      stroke='#197810', stroke_width=3, marker_end='url(#arrow3)'))
g.add(doc.line(start=(r2, 0), end=(r2, l1*dv3/dv1),
      stroke='#a42d0c', stroke_width=3, marker_end='url(#arrow4)'))

# text
g.add(doc.text('1', font_size='48px', stroke='none', fill='black',
      text_anchor='middle', transform='translate(84, 18)',
      font_family='Bitstream Vera Sans'))
g.add(doc.text('2', font_size='48px', stroke='none', fill='black',
      text_anchor='middle', transform='translate(-508, 18)',
      font_family='Bitstream Vera Sans'))
g.add(doc.text('3', font_size='48px', stroke='none', fill='black',
      text_anchor='middle', transform='translate(181, 18)',
      font_family='Bitstream Vera Sans'))

doc.save(pretty=True)

Licensing

I, the copyright holder of this work, hereby publish it under the following licenses:
GNU head Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License.
w:en:Creative Commons
attribution share alike
This file is licensed under the Creative Commons Attribution-Share Alike 4.0 International, 3.0 Unported, 2.5 Generic, 2.0 Generic and 1.0 Generic license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
  • share alike – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.
You may select the license of your choice.

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2 April 2008

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72dce82939298aef41f506b8252b348e65c89d82

4,223 byte

580 pixel

768 pixel

File history

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Date/TimeThumbnailDimensionsUserComment
current15:46, 29 May 2020Thumbnail for version as of 15:46, 29 May 2020768 × 580 (4 KB)Geek3computed the actual aspect ratios of the ellipses and delta-v.
16:32, 7 April 2008Thumbnail for version as of 16:32, 7 April 2008768 × 472 (21 KB)AndrewBuckA bi-elliptic transfer from a low circular starting orbit (dark blue), to a higher circular orbit (red). The green arrows indicate forward directed thrust (prograde) and the red arrow indicates reverse directed thrust (retrograde).
06:13, 3 April 2008Thumbnail for version as of 06:13, 3 April 2008768 × 472 (13 KB)AndrewBuck{{Information |Description=A bi-elliptic transfer from a low circular starting orbit (dark blue), to a higher circular orbit (red). |Source=self-made |Date=2008-04-02 |Author= AndrewBuck |Permission= |other_versions= }}

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