Difference between revisions of "Tutorial: ISS"

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(what? 3 years?)
 
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{{Stub}}
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{{Outdated|
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* This article is based on a version of KSP which is over three years old and doesn't account for several gameplay changes and content additions.}}
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{{Quote|"It's fantastic. I can't say how much this means to all of us."|Robert Cabana|first person to enter the ISS }}
 
{{Quote|"It's fantastic. I can't say how much this means to all of us."|Robert Cabana|first person to enter the ISS }}
 
Welcome to my first tutorial! Here, we will try to re-enact one of the most important space programs: the '''International Space Station(ISS/MKC)'''
 
Welcome to my first tutorial! Here, we will try to re-enact one of the most important space programs: the '''International Space Station(ISS/MKC)'''
  
All of the designs are based on actual modules and rockets. Of course, I can't do it perfectly, but I am trying my best. Also, I am doing it without any mod parts, but I use MechJeb for autopilot.  
+
All of the designs are based on actual modules and rockets. Of course, I can't do it perfectly, but I am trying my best. Also, I am doing it without any mod parts, but I suggest using the part welder plugin to reduce lag.
I will go and add more launches when I'll do them myself.
+
 
 +
'''''This article is in need of images for visual representation and supplement of which would be greatly appreciated'''''
  
 
==Vocabulary list==
 
==Vocabulary list==
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* LPA - launch phase angle; angle between the vector of the launching rocket and the line drawn from the launchpad to another object in sky
 
* LPA - launch phase angle; angle between the vector of the launching rocket and the line drawn from the launchpad to another object in sky
  
==Proton-K - Russian Launcher==
+
 
[[File:Proton-K.png|thumb|upright|Proton-8K82K]]
+
==Construction sequence==
This is a recreation of the Russian rocket [[w:Proton-K|Proton 8K82K]]. I used it for all of the current modules, even if American modules were launched with the [[w:STS|Space Shuttle]].
+
 
=== Ship Design ===
+
{| class="wikitable sortable"
* Payload
+
|-
** Add whatever you want; the current maximum launched is 13.02 tons (Zarya)
+
! Part !! Launch Vehicle !! Diameter (m) !! Mass (Metric tonnes)
* Third Stage
+
|-
** 1x [[Clamp-O-Tron Docking Port]] '''OR''' a decoupler/separator for the payload
+
| Zarya (FGB) || Proton-K || 4.1 || 19.3
** 1x MechJeb 1m Pod '''OR''' any pod you will use
+
|-
** 1x [[Rockomax X200-8 Fuel Tank]]
+
| Unity (Node 1), PMA-1 & PMA-2 || US Shuttle || 4.57 || 11.6
** 8x [[Z-400 Rechargable Battery]] (if you use an unmanned pod)
+
|-
** 1x [[FL-R1 RCS Fuel Tank]]
+
| Zvezda (Service Module) || Proton-K || 4.15 || 19.1
 +
|-
 +
| Z1 Truss and PMA-3 || US Shuttle || 4.2 || 8.8
 +
|-
 +
| P6 Truss & SolarArrays || US Shuttle || 4.9|| 15.8
 +
|-
 +
| Destiny (US Laboratory) || US Shuttle || 4.27 || 14.5
 +
|-
 +
| External StowagePlatform-1 || US Shuttle ||  || 
 +
|-
 +
| Canadarm2 (SSRMS) || US Shuttle || .35 || 4.9
 +
|-
 +
| Quest (Joint Airlock) || US Shuttle || 4 || 6.1
 +
|-
 +
| Pirs (Docking Compartment and Airlock) || Soyuz-U || 2.55 || 3.6
 +
|-
 +
| S0 Truss || US Shuttle || 4.6 || 14
 +
|-
 +
| Mobile Base System || US Shuttle || 2.9 || 1.5
 +
|-
 +
| S1 Truss || US Shuttle || 4.6 || 14.1
 +
 
 +
|-
 +
| P1 Truss || US Shuttle || 4.6 || 14.0
 +
|-
 +
| ESP-2 || US Shuttle || 4.9 || 2.7
 +
 
 +
|-
 +
| P3/P4 Truss & SolarArrays || US Shuttle || 4.9 || 15.9
 +
|-
 +
| P5 Truss || US Shuttle || 4.6 || 1.8
 +
|-
 +
| S3/S4 Truss and SolarArrays || US Shuttle || 4.9 || 15.9
 +
|-
 +
| S5 Truss and ESP-3 || US Shuttle || 3.9 || 12.6
 +
|-
 +
| Harmony (Node 2) Relocationof P6 Truss || US Shuttle || 4.48 || 14.3
 +
|-
 +
| Columbus (European Laboratory) || US Shuttle || 4.5 || 12.8
 +
|-
 +
| Dextre (SPDM) Japanese Logistics Module (ELM-PS) || US Shuttle || 4.4 || 4.2
 +
|-
 +
| Japanese PressurizedModule (JEM-PM)JEM Robotic Arm (JEM-RMS) || US Shuttle || 4.4 || 15.9
 +
|-
 +
| S6 Truss & SolarArrays || US Shuttle || 73.2 x 10.7 || 15.9
 +
|-
 +
| Japanese ExposedFacility (JEM-EF) || US Shuttle ||  || 4.1
 +
|-
 +
| Poisk (MRM-2) || Soyuz-U ||  || 3.7
 +
|-
 +
| ExPRESS LogisticsCarriers 1 & 2 || US Shuttle ||  || 
 +
|-
 +
| Cupola and Tranquility (Node 3) || US Shuttle || 4.25 (Node3) 2.95 (Cupola) || 12.2
 +
|-
 +
| Rassvet (MRM-1) || US Shuttle ||  || 5.1
 +
|-
 +
| Leonardo (PMM) and EXPRESS Logistics Carrier 4 || US Shuttle ||  || 9.9
 +
 
 +
|-
 +
| Alpha Magnetic Spectrometer, OBSS and EXPRESS Logistics Carrier 3 || US Shuttle ||      || 6.7
 +
|-
 +
| Nauka (MLM) EuropeanRobotic Arm || Proton-M ||  || 20.3
 +
|-
 +
| Nodal Module (UDM) || Soyuz 2.1b ||  || 4.0
 +
|-
 +
| Science-PowerModule-1 || Proton-M ||  || 
 +
|-
 +
| Science-PowerModule-2 || Proton-M ||  || 
 +
|-
 +
| BigelowExpandable Activity Module || Falcon 9 ||  || 
 +
|}
 +
 
 +
Some of the parts of the station like the Nodal Module have not yet been launched.
 +
 
 +
==Rockets==
 +
 
 +
===Proton Rocket family - Russian Launchers===
 +
The proton rocket family had 7.4 meter diameter fuel tanks but we do not so I just used 4 large sized tanks to make the diameter 7.5 meters but however this causes problems as it has nothing surrounding the small tanks, so I used a few [[Modular Girder Segment XL]] to connect the boosters to the inner part. Since all the rockets in the Proton rocket family are so similar they will be used interchangeably in this tutorial.
 +
==== Ship Design ====
 +
[[File:Ksp Proton.png|thumb|This is the layout for the Rockomax Jumbo Tanks to make a Proton family rocket. The black lines are just for reference.]]
 +
* 1x Payload in fairings (Use pre-made fairings such as the [[AE-FF2 Airstream Protective Shell (2.5m)]])
 +
* 3x [[TR-XL Stack Separator]] (Connect it to a few [[M-2x2 Structural Panel]] under/part of the fairings)
 +
* 3x [[RC-L01 Remote Guidance Unit]]
 +
* 3x [[Z-4K Rechargeable Battery Bank]]
 +
* 3x [[Advanced S.A.S Module, Large]]
 +
* 8x [[Rockomax Jumbo-64 Fuel Tank]] (three columns of tanks two tanks high surrounding two other tanks stacked on top each other)
 +
* 3x [[FTX-2 External Fuel Duct]] (Going from the core tanks to the outward ones surrounding it)
 +
* 3x [[FL-R1 RCS Fuel Tank]]
 
** 8x [[RV-105 RCS Thruster Block]]
 
** 8x [[RV-105 RCS Thruster Block]]
** 1x [[Rockomax "Poodle" Liquid Engine]]
+
* 3x [[Rockomax "Skipper" Liquid Engine]]
 +
* 3x [[TR-XL Stack Separator]]
 +
* 12x [[Rockomax Jumbo-64 Fuel Tank]] (three columns of tanks three tanks high surrounding three other tanks stacked on top each other)
 +
* 3x [[FTX-2 External Fuel Duct]] (Going from the core tanks to the outward ones surrounding it)
 +
* 3x [[Rockomax "Mainsail" Liquid Engine]]
 +
* 3x [[TR-XL Stack Separator]]
 +
** 72x [[Rockomax Jumbo-64 Fuel Tank]]
 +
*** 12x [[Modular Girder Segment XL]] (two on each of the core tanks leading to the center core tank)
 +
*** 18x [[FTX-2 External Fuel Duct]] (going from each of the 6 outer core tanks to the outer tanks on the outer boosters)
 +
*** 18x [[Rockomax "Mainsail" Liquid Engine]]
  
* Second Stage
+
===STS - Space Shuttle===
** 1x [[Rockomax Brand Decoupler]]
+
This is the American launcher. I'm trying to make a replica that is flyable and dockable. Unfortunately, it used a mechanical arm to dock modules, a thing we don't have.  Alternatively, you could use the stock [[Learstar A1]], which closely resembles the Shuttle.  The Learstar still needs some items (such as the parachute) which aren't on the craft.  The Learstar, however, also includes [[cargo bay]]s which make it easier when transporting cargo.
** 1x [[Rockomax X200-32 Fuel Tank]]
+
====Ship Design====
** 3x [[Delta-Deluxe Winglet]]
 
** 3x [[Rockomax Mark 55 Radial Mount Liquid Engine]]
 
** 1x [[Rockomax "Mainsail" Liquid Engine]]
 
* First Stage
 
** 1x [[Rockomax Brand Decoupler]]
 
** 7x [[Rockomax Jumbo-64 Fuel Tank]] (1 in middle + 6 symmetric radial NO DECOUPLERS)
 
** 7x [[Rockomax "Mainsail" Liquid Engine]]
 
** 6x [[S.A.S Module]] (only on the exterior 6 tanks)
 
** 6x [[Mk16-XL Parachute]]
 
** 12x [[AV-R8 Winglet]] (not in actual rocket but is necessary for stability)
 
** 12x [[EAS-4 Strut Connector]] (connect to next stage for stability and between the tanks)
 
  
==STS - Space Shuttle '''Working on it'''==
+
===== Orbiter =====
This is the American launcher. I'm trying to make a replica that is flyable and dockable. Unfortunately, it used a mechanical arm to dock modules, a thing we don't have.
+
* 1x [[Mk1 Cockpit]]
==Zarya - 1A/R==
+
** 3x [[Rockomax Mark 55 Radial Mount Liquid Engine]] (Put in the middle between tip and the slant beginning)
 +
* 1x [[Mk3 Cockpit]]
 +
** 1x [[Small Gear Bay]] (Middle)
 +
** 2x [[Illuminator Mk2]]
 +
* 1x [[Small Inline Reaction Wheel]]
 +
* 16x [[M-2x2 Structural Panel]] (Put it so it is 1x4 of the 2x2 panels in a square shape)
 +
** 16x [[Z-400 Rechargeable Battery]] (Four on the top side of each panel)
 +
** 1x [[Clamp-O-Tron Shielded Docking Port]] (Second panel from the front)
 +
** 2x [[Small Gear Bay]] (Two on the farthest Panel)
 +
** 3x [[Delta Wing]] (One each side far back panel and one going vertically)
 +
*** 4x [[Standard Control Surface]] (Two for each wing)
 +
* 1x [[Rockomax X200-16 Fuel Tank]]
 +
** 4x [[Cubic Octagonal Strut]] (Make it so the first three were placed with 3x symetry on completely centered and the last one being placed as high as possible)
 +
*** 3x [[LV-T45 Liquid Fuel Engine]]
 +
*** 1x [[Oscar-B Fuel Tank]] (Just using it here so the [[Mk16 Parachute | parachute]] will have something better to be placed on)
 +
**** 1x [[Mk16 Parachute]]
 +
 
 +
===== External tank and solid rocket booster =====
 +
* 1x [[Rockomax Brand Adapter]]
 +
** 1x [[Mk16-XL Parachute]]
 +
* 1x [[Rockomax Jumbo-64 Fuel Tank]]
 +
** 2x [[TT-70 Radial Decoupler]]
 +
*** 2x [[S1 SRB-KD25k]]
 +
**** 4x [[Cubic Octagonal Strut]] (put beside each other 2 on each booster on the inner side)
 +
***** 4x [[Sepratron I]] (Slant each one 5° in so they will be shaped like this /\ {angles exaggerated for clarity})
 +
**** 2x [[FL-A10 Adapter]] (One per booster)
 +
**** 2x [[Mk2-R Radial-Mount Parachute]]
 +
***** 2x [[Mk16 Parachute]]
 +
** 1x [[FTX-2 External Fuel Duct]] (Connect to the orbiter's fuel tank)
 +
** 4x [[Hydraulic Detachment Manifold]] (Use to shoot the Jumbo-64 tank off the '''shuttle''' do ''not'' use it to shoot the shuttle off from the Jumbo-64 tank)
 +
 
 +
===Falcon 9 - SpaceX rocket===
 +
The Falcon 9 was developed by SpaceX and resupply the ISS with the Dragon capsule. The payload in real life is supplies but as kerbals need no supplies to live you can use it to send up fuel, solar arrays, science, or a tug. <!--http://www.nasa.gov/mission_pages/station/structure/elements/dragon.html#.U1g9Ao7D9pU--> SpaceX is developing the Falcon Nine to be reusable. The first stage will fly back to the launch pad while the second stage is doing an orbit and then return to the launch pad. The Dragon capsule is along with the Soyuz the only vehicle to return back to Earth intact after the retirement of the Space Shuttle.
 +
====Ship Design====
 +
* 1x Payload in fairings
 +
* 1x [[Probodobodyne OKTO2]]
 +
* 1x [[Z-4K Rechargeable Battery Bank]]
 +
* 1x [[Inline Advanced Stabilizer]]
 +
* 1x [[Kerbodyne S3-7200 Tank]]
 +
* 1x [[S3_KS-25_"Vector"_Liquid_Fuel_Engine|S3 KS-25 Engines]]
 +
* 1x [[TR-XL Stack Separator]]
 +
** 2x [[Kerbodyne S3-14400 Tank]] (One on top of the other)
 +
*** 4x [[A.I.R.B.R.A.K.E.S]]
 +
**** 1x [[S3_KS-25_"Vector"_Liquid_Fuel_Engine|S3 KS-25 Engines]]
 +
***** 8x [[S3_KS-25_"Vector"_Liquid_Fuel_Engine|S3 KS-25 Engines]]
 +
****** 4x [[LT-2 Landing Strut|LT-2 Landing Struts]]
 +
 
 +
===Soyuz Rocket===
 +
A Soyuz rocket is another Russian rocket used to launch the manned Soyuz craft mainly but was also used to launch the Pirs docking compartment and airlock.
 +
 
 +
====Ship Design====
 +
* 1x Payload in fairings
 +
* 1x [[TR-38-D]]
 +
* 1x [[Kerbodyne S3-14400 Tank]]
 +
* 1x [[Kerbodyne KR-2L Advanced Engine]]
 +
* 1x [[TR-38-D]]
 +
* 2x [[Kerbodyne S3-14400 Tank]]
 +
** 4x [[Hydraulic Detachment Manifold]] (attached radially with 4x symetry on)
 +
*** 4x [[Kerbodyne S3-7200 Tank]]
 +
**** 4x [[Cubic Octagonal Strut]] (attached on top on each tank off centered to be closer to the core)
 +
***** 4x [[Rockomax X200-32 Fuel Tank]]
 +
****** 4x [[Cubic Octagonal Strut]] (attached on top on each tank off centered to be closer to the core)
 +
******* 4x [[FL-T800 Fuel Tank]]
 +
******** 4x [[Tail Connector]] (attached on top of each tank upside down and slanted to be close to the core]]
 +
**** 4x [[Kerbodyne KR-2L Advanced Engine]] (On the bottom this time)
 +
***** 8x [[FTX-2 External Fuel Duct]] (Two per tank)
 +
** 1x [[Kerbodyne KR-2L Advanced Engine]]
 +
 
 +
==Spacecraft==
 +
 
 +
===Progress - resupply ship===
 +
Progress is an unmanned Russian resupply ship the routinely sends up supplies to the station as kerbalnauts need no food you can send up fuel and/or spare parts.
 +
====Ship design====
 +
* 1x [[Clamp-O-Tron Jr.]]
 +
* 1x [[FL-A10 Adapter]]
 +
* 1x [[FL-A10 Adapter]] (This time make it upside down)
 +
* 1x [[NCS Adapter]]
 +
* 1x [[RC-001S Remote Guidance Unit]]
 +
* 1x [[Z-1k Rechargeable Battery Bank]]
 +
* 1x [[FL-R25 RCS Fuel Tank]]
 +
* 1x [[FL-T200 Fuel Tank]]
 +
** 6x [[Place-Anywhere 7 Linear RCS Port]] (Use 2x symetry and place it three times each under the other spaced out evenly using all the room on the fuel tank)
 +
** 2x [[Gigantor XL Solar Array]]
 +
* 1x [[LV-909 Liquid Fuel Engine]]
 +
 
 +
*You can add an extra fuel tank(s) or solar arrays if you want to actually send up stuff and not just let it be there. The three adapters are meant to look like progress and are NOT meant to do anything.
 +
 
 +
===Soyuz - Russian/International Crew Transfer Vehicle===
 +
A soyuz can carry three Cosmonauts to the station at a time.
 +
 
 +
====Ship Design====
 +
* 1x [[Clamp-O-Tron Docking Port]]
 +
* 1x [[Mk1-2 Command Pod]]
 +
* 1x [[Rockomax Brand Adapter 02]]
 +
* 1x [[Clamp-O-Tron Docking Port]]
 +
* 1x [[Mk1-2 Command Pod]]
 +
** 1x [[Mk2-R Radial-Mount Parachute]]
 +
* 1x [[Clamp-O-Tron Sr. Docking Port]]
 +
* 1x [[Rockomax X200-16 Fuel Tank]]
 +
** 2x [[Gigantor XL Solar Array]]
 +
* 1x [[Rockomax "Poodle" Liquid Engine]]
 +
 
 +
===Cygnus - Orbital Sciences Resupply Ship===
 +
Cygnus is a craft made by Orbital Sciences contracted by NASA. It is launched by the Antares rocket.
 +
 
 +
====Ship Design====
 +
* 1x [[Clamp-O-Tron Docking Port]]
 +
* 1x [[RC-001S Remote Guidance Unit]]
 +
* 1x [[Inline Advanced Stabilizer]]
 +
* 1x [[Z-1k Rechargeable Battery Bank]]
 +
** 2x [[Gigantor XL Solar Array]]
 +
* 1x [[FL-T200 Fuel Tank]]
 +
* 1x [[LV-909 Liquid Fuel Engine]]
 +
 
 +
===Dragon - SpaceX Resupply Ship===
 +
Dragon is launched by SpaceX with their Falcon 9 rocket.
 +
====Ship Design====
 +
* 1x [[Clamp-O-Tron Docking Port]]
 +
* 1x [[Rockomax X200-8 Fuel Tank]]
 +
* 6x [[Rockomax Mark 55 Radial Mount Liquid Engine]] (Three pairs)
 +
* 1x [[Kerbodyne ADTP-2-3]]
 +
* 1x [[TD-37 Decoupler]]
 +
* 1x [[Kerbodyne S3-3600 Tank]] (Remove all the oxidizer and liquid fuel)
 +
 
 +
==Station Parts==
 +
 
 +
===Zarya - 1A/R===
 
'''Zarya''' (Dawn in Russian) or '''FGB''' (Functional Cargo Block) was the first module of the ISS. FGB Zarya initially provided flight control  as well as electricity and fuel supplies. Now, it is mostly used for storage. It is the connection between the Russian and American side of the station.
 
'''Zarya''' (Dawn in Russian) or '''FGB''' (Functional Cargo Block) was the first module of the ISS. FGB Zarya initially provided flight control  as well as electricity and fuel supplies. Now, it is mostly used for storage. It is the connection between the Russian and American side of the station.
=== Ship Design ===
+
==== Ship Design ====
 
{| class="wikitable" style="float: right"
 
{| class="wikitable" style="float: right"
 
| colspan="2" | [[File:Zarya-zenith.png|thumb|center|upright|Zarya before launch]]
 
| colspan="2" | [[File:Zarya-zenith.png|thumb|center|upright|Zarya before launch]]
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** 2x [[RV-105 RCS Thruster Block]] (port and starboard on the 1x1 panels)
 
** 2x [[RV-105 RCS Thruster Block]] (port and starboard on the 1x1 panels)
 
** 2x [[Z-400 Rechargable Battery]] (zenith on 1x1 panels)
 
** 2x [[Z-400 Rechargable Battery]] (zenith on 1x1 panels)
* 1x MechJeb 1m Pod '''OR''' [[S.A.S Module]] (if you don't have MechJeb, put a manned pod on the launcher)
+
* 1x MechJeb 1m Pod '''OR''' [[Small Inline Reaction Wheel]] (if you don't have MechJeb, put a manned pod on the launcher)
 
* 1x [[Rockomax Brand Adapter 02]]
 
* 1x [[Rockomax Brand Adapter 02]]
 
** 4x [[Z-400 Rechargable Battery]]
 
** 4x [[Z-400 Rechargable Battery]]
Line 80: Line 296:
 
** 4x [[RV-105 RCS Thruster Block]]
 
** 4x [[RV-105 RCS Thruster Block]]
 
** 2x [[Rockomax 24-77]] (zenith and nadir)
 
** 2x [[Rockomax 24-77]] (zenith and nadir)
* 1x [[S.A.S Module]]
+
* 1x [[Small Inline Reaction Wheel]]
  
 
* 1x [[Rockomax Brand Adapter]]
 
* 1x [[Rockomax Brand Adapter]]
Line 89: Line 305:
 
* 1x [[Clamp-O-Tron Docking Port]]
 
* 1x [[Clamp-O-Tron Docking Port]]
  
===The Mission===
+
====The Mission====
The original Zarya launch happened on November 20, 1998. <strike>I can't find the original orbital information</strike> The module was placed on a Low Earth Orbit, which usually corresponds to 160 to 2000 km. The current ISS orbit is 402km PE × 424km AP with a 51.6° orbital inclination. So, if you want to make it good, launch as usual, with a gravity turn starting at 10km. Turn towards 38.4 degrees (the 51.6 inclination). Continue until you reach 424km apoapsis, then burn there to get 402km periapsis. <strike>''I'll have to test myself if it's possible with the current Proton-K design''</strike> It is possible to achieve this orbit with precise flying or an autopilot. It leaves 60% of 3rd-stage fuel and a full on-station tank.
+
The original Zarya launch happened on November 20, 1998. <s>I can't find the original orbital information</s> The module was placed on a Low Earth Orbit, which usually corresponds to 160 to 2000&nbsp;km. The current ISS orbit is 402&nbsp;km PE × 424&nbsp;km AP with a 51.6° orbital inclination. So, if you want to make it good, launch as usual, with a gravity turn starting at 10&nbsp;km. Turn towards 38.4 degrees (the 51.6 inclination). Continue until you reach 424&nbsp;km apoapsis, then burn there to get 402&nbsp;km periapsis. <s>''I'll have to test myself if it's possible with the current Proton-K design''</s> It is possible to achieve this orbit with precise flying or an autopilot. It leaves 60% of 3rd-stage fuel and a full on-station tank.
  
 
When you have the stable orbit, open the solar panels and the antennas. Move the station to orient it the good way (the one radial docking port facing the Earth; the HubMax towards your prograde vector). Transfer any fuel or electricity (if you are in the dark zone) then either undock the third stage or keep it until the Zvezda mission.
 
When you have the stable orbit, open the solar panels and the antennas. Move the station to orient it the good way (the one radial docking port facing the Earth; the HubMax towards your prograde vector). Transfer any fuel or electricity (if you are in the dark zone) then either undock the third stage or keep it until the Zvezda mission.
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There you go, the ISS begins to exist!
 
There you go, the ISS begins to exist!
  
==Unity - 1A==
+
===Unity - 1A===
 
{| class="wikitable" style="float: right"
 
{| class="wikitable" style="float: right"
 
| colspan="2" | [[File:unity.png|thumb|center|upright|Unity as seen in VAB]]
 
| colspan="2" | [[File:unity.png|thumb|center|upright|Unity as seen in VAB]]
Line 106: Line 322:
 
'''Unity''', also known as '''Node 1''', is the first American-only module on the ISS. It is basically a connector between many parts of the station. It was delivered with two PMA (Pressurized Mating Adapters), one that is permanently placed between Zarya and Unity, and the second has moved many times since its installation.
 
'''Unity''', also known as '''Node 1''', is the first American-only module on the ISS. It is basically a connector between many parts of the station. It was delivered with two PMA (Pressurized Mating Adapters), one that is permanently placed between Zarya and Unity, and the second has moved many times since its installation.
 
=== Ship Design ===
 
=== Ship Design ===
I can't really simulate the PMA's, because they aren't straight but a bit tilted. Here's what I did:<br /><br />
+
I can't really simulate the PMA's, because they aren't straight but a bit tilted. Here's what I did:
 +
 
 +
 
  
 
'''NOTE:''' : I made a little mistake, because the PMAs are supposed to be moveable. Check lower for info.
 
'''NOTE:''' : I made a little mistake, because the PMAs are supposed to be moveable. Check lower for info.
 
* 1x [[Clamp-O-Tron Docking Port]]
 
* 1x [[Clamp-O-Tron Docking Port]]
* 1x [[S.A.S Module]]
+
* 1x [[Small Inline Reaction Wheel]]
 
* 1x [[Rockomax Brand Adapter 02]]
 
* 1x [[Rockomax Brand Adapter 02]]
 
* '''2x [[Clamp-O-Tron Docking Port]]''' for moveable PMAs
 
* '''2x [[Clamp-O-Tron Docking Port]]''' for moveable PMAs
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* '''2x [[Clamp-O-Tron Docking Port]]''' for moveable PMAs
 
* '''2x [[Clamp-O-Tron Docking Port]]''' for moveable PMAs
 
* 1x [[Rockomax Brand Adapter 02]]
 
* 1x [[Rockomax Brand Adapter 02]]
* 1x [[S.A.S Module]]
+
* 1x [[Small Inline Reaction Wheel]]
 
* 1x [[Clamp-O-Tron Docking Port]]
 
* 1x [[Clamp-O-Tron Docking Port]]
  
===Mission Phases===
+
====Mission Phases====
 
The original launch happened 2 weeks after deployment of ''Zarya'', on December 4, 1998.
 
The original launch happened 2 weeks after deployment of ''Zarya'', on December 4, 1998.
====Launch====
+
=====Launch=====
For my launch, I had to use the '' Proton-K'' launcher, because there isn't any solid fuel boosters as powerful as was used by the ''Space Shuttle''. It had two boosters, each at 12.5 MN while the [[Rockomax BACC Solid Fuel Booster|Rockomax booster]] has only 300 kN (2.4 %).
+
For my launch, I had to use the '' Proton-K'' launcher, because there isn't any solid fuel boosters as powerful as was used by the ''Space Shuttle''. It had two boosters, each at 12.5 MN while the [[Rockomax BACC Solid Fuel Booster|Rockomax booster]] has only 300&nbsp;kN (2.4%).
  
Try your best to put it on the same orbit as ''Zarya''. If you have an auto-pilot, use the "Launch to rendezvous" function. If not, try to send it with ''Zarya'' at a 45 degree LPA. Once again, the orbit is 424 km AP × 402 km PE.
+
Try your best to put it on the same orbit as ''Zarya''. If you have an auto-pilot, use the "Launch to rendezvous" function. If not, try to send it with ''Zarya'' at a 45 degree LPA. Once again, the orbit is 424&nbsp;km AP × 402&nbsp;km PE.
====Rendez-vous====
+
=====Rendez-vous=====
 
Check the tutorials on rendezvous and [[docking]] if you don't know how to. The goal is to attach one of the PMA ends (front or aft, they're symmetrical) to the Hubmax (front end). You may need to switch between vessels to put them in the right diretions.
 
Check the tutorials on rendezvous and [[docking]] if you don't know how to. The goal is to attach one of the PMA ends (front or aft, they're symmetrical) to the Hubmax (front end). You may need to switch between vessels to put them in the right diretions.
====They connected!====
+
=====They connected!=====
 
[[File:ISS orbit 2.png|thumb|Unity connected to Zarya]]
 
[[File:ISS orbit 2.png|thumb|Unity connected to Zarya]]
 
On the actual mission, there were 3 EVA's to connect cables between the modules, and once to enter the ''ISS''. As of 0.19.1, you can only do that last point. If you brought any Kerbonauts, put them in EVA and let them enter the Hitchhiker. After some time, get them back on what's left of your launcher.
 
On the actual mission, there were 3 EVA's to connect cables between the modules, and once to enter the ''ISS''. As of 0.19.1, you can only do that last point. If you brought any Kerbonauts, put them in EVA and let them enter the Hitchhiker. After some time, get them back on what's left of your launcher.
Line 136: Line 354:
  
 
I didn't use a manned pod, so I just dropped the launcher with as less fuel left as possible. Instead, try to return the Kerbonauts on the last stage of your ''Unity'' launcher. You can pump the fuel from the ''Zarya'' launcher if it's still docked; you'll also need the aft docking port of ''Zarya'' for the next mission.
 
I didn't use a manned pod, so I just dropped the launcher with as less fuel left as possible. Instead, try to return the Kerbonauts on the last stage of your ''Unity'' launcher. You can pump the fuel from the ''Zarya'' launcher if it's still docked; you'll also need the aft docking port of ''Zarya'' for the next mission.
 
==Zvezda - 1R '''Coming Soon'''==
 
[[File:zvezda.png|thumb|center|Zvezda as seen in VAB]]
 
[[File:ISS orbit 3.png|thumb|center|Zvezda connected to the ISS]]
 
  
 
==What now==
 
==What now==
Possibly a lunar base? Let your imagination run wild!
+
Possibly a [[Tutorial:Building a Lunar base|lunar base]]? Let your imagination run wild!
  
[[Category:Tutorials]]
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[[Category:Tutorials|ISS]]

Latest revision as of 21:32, 12 June 2023

This article is a stub. You can help KSP Wiki by expanding it.


"It's fantastic. I can't say how much this means to all of us."

Robert Cabana, first person to enter the ISS

Welcome to my first tutorial! Here, we will try to re-enact one of the most important space programs: the International Space Station(ISS/MKC)

All of the designs are based on actual modules and rockets. Of course, I can't do it perfectly, but I am trying my best. Also, I am doing it without any mod parts, but I suggest using the part welder plugin to reduce lag.

This article is in need of images for visual representation and supplement of which would be greatly appreciated

Vocabulary list

With LPA as α and object in sky as P

Just so you know, some terms I am using here :

  • Zenith - top side of the ship; usually oriented away from the orbited body.
  • Nadir - bottom side of the ship; usually oriented towards the orbited body.
  • Port - left side of the ship
  • Starboard - right side of the ship
  • Front - front side/end of the ship
  • Aft - back side/end of the ship
  • LPA - launch phase angle; angle between the vector of the launching rocket and the line drawn from the launchpad to another object in sky


Construction sequence

Part Launch Vehicle Diameter (m) Mass (Metric tonnes)
Zarya (FGB) Proton-K 4.1 19.3
Unity (Node 1), PMA-1 & PMA-2 US Shuttle 4.57 11.6
Zvezda (Service Module) Proton-K 4.15 19.1
Z1 Truss and PMA-3 US Shuttle 4.2 8.8
P6 Truss & SolarArrays US Shuttle 4.9 15.8
Destiny (US Laboratory) US Shuttle 4.27 14.5
External StowagePlatform-1 US Shuttle
Canadarm2 (SSRMS) US Shuttle .35 4.9
Quest (Joint Airlock) US Shuttle 4 6.1
Pirs (Docking Compartment and Airlock) Soyuz-U 2.55 3.6
S0 Truss US Shuttle 4.6 14
Mobile Base System US Shuttle 2.9 1.5
S1 Truss US Shuttle 4.6 14.1
P1 Truss US Shuttle 4.6 14.0
ESP-2 US Shuttle 4.9 2.7
P3/P4 Truss & SolarArrays US Shuttle 4.9 15.9
P5 Truss US Shuttle 4.6 1.8
S3/S4 Truss and SolarArrays US Shuttle 4.9 15.9
S5 Truss and ESP-3 US Shuttle 3.9 12.6
Harmony (Node 2) Relocationof P6 Truss US Shuttle 4.48 14.3
Columbus (European Laboratory) US Shuttle 4.5 12.8
Dextre (SPDM) Japanese Logistics Module (ELM-PS) US Shuttle 4.4 4.2
Japanese PressurizedModule (JEM-PM)JEM Robotic Arm (JEM-RMS) US Shuttle 4.4 15.9
S6 Truss & SolarArrays US Shuttle 73.2 x 10.7 15.9
Japanese ExposedFacility (JEM-EF) US Shuttle 4.1
Poisk (MRM-2) Soyuz-U 3.7
ExPRESS LogisticsCarriers 1 & 2 US Shuttle
Cupola and Tranquility (Node 3) US Shuttle 4.25 (Node3) 2.95 (Cupola) 12.2
Rassvet (MRM-1) US Shuttle 5.1
Leonardo (PMM) and EXPRESS Logistics Carrier 4 US Shuttle 9.9
Alpha Magnetic Spectrometer, OBSS and EXPRESS Logistics Carrier 3 US Shuttle 6.7
Nauka (MLM) EuropeanRobotic Arm Proton-M 20.3
Nodal Module (UDM) Soyuz 2.1b 4.0
Science-PowerModule-1 Proton-M
Science-PowerModule-2 Proton-M
BigelowExpandable Activity Module Falcon 9

Some of the parts of the station like the Nodal Module have not yet been launched.

Rockets

Proton Rocket family - Russian Launchers

The proton rocket family had 7.4 meter diameter fuel tanks but we do not so I just used 4 large sized tanks to make the diameter 7.5 meters but however this causes problems as it has nothing surrounding the small tanks, so I used a few Modular Girder Segment XL to connect the boosters to the inner part. Since all the rockets in the Proton rocket family are so similar they will be used interchangeably in this tutorial.

Ship Design

This is the layout for the Rockomax Jumbo Tanks to make a Proton family rocket. The black lines are just for reference.

STS - Space Shuttle

This is the American launcher. I'm trying to make a replica that is flyable and dockable. Unfortunately, it used a mechanical arm to dock modules, a thing we don't have. Alternatively, you could use the stock Learstar A1, which closely resembles the Shuttle. The Learstar still needs some items (such as the parachute) which aren't on the craft. The Learstar, however, also includes cargo bays which make it easier when transporting cargo.

Ship Design

Orbiter
External tank and solid rocket booster

Falcon 9 - SpaceX rocket

The Falcon 9 was developed by SpaceX and resupply the ISS with the Dragon capsule. The payload in real life is supplies but as kerbals need no supplies to live you can use it to send up fuel, solar arrays, science, or a tug. SpaceX is developing the Falcon Nine to be reusable. The first stage will fly back to the launch pad while the second stage is doing an orbit and then return to the launch pad. The Dragon capsule is along with the Soyuz the only vehicle to return back to Earth intact after the retirement of the Space Shuttle.

Ship Design

Soyuz Rocket

A Soyuz rocket is another Russian rocket used to launch the manned Soyuz craft mainly but was also used to launch the Pirs docking compartment and airlock.

Ship Design

Spacecraft

Progress - resupply ship

Progress is an unmanned Russian resupply ship the routinely sends up supplies to the station as kerbalnauts need no food you can send up fuel and/or spare parts.

Ship design

  • You can add an extra fuel tank(s) or solar arrays if you want to actually send up stuff and not just let it be there. The three adapters are meant to look like progress and are NOT meant to do anything.

Soyuz - Russian/International Crew Transfer Vehicle

A soyuz can carry three Cosmonauts to the station at a time.

Ship Design

Cygnus - Orbital Sciences Resupply Ship

Cygnus is a craft made by Orbital Sciences contracted by NASA. It is launched by the Antares rocket.

Ship Design

Dragon - SpaceX Resupply Ship

Dragon is launched by SpaceX with their Falcon 9 rocket.

Ship Design

Station Parts

Zarya - 1A/R

Zarya (Dawn in Russian) or FGB (Functional Cargo Block) was the first module of the ISS. FGB Zarya initially provided flight control as well as electricity and fuel supplies. Now, it is mostly used for storage. It is the connection between the Russian and American side of the station.

Ship Design

Zarya before launch
Statistics
Mass (full) 13.02 t
Δv (vacuum) 1 081 m/s

Front to aft (1st-level bullets indicate the body; 2nd-level indicates radially-mounted parts):

The Mission

The original Zarya launch happened on November 20, 1998. I can't find the original orbital information The module was placed on a Low Earth Orbit, which usually corresponds to 160 to 2000 km. The current ISS orbit is 402 km PE × 424 km AP with a 51.6° orbital inclination. So, if you want to make it good, launch as usual, with a gravity turn starting at 10 km. Turn towards 38.4 degrees (the 51.6 inclination). Continue until you reach 424 km apoapsis, then burn there to get 402 km periapsis. I'll have to test myself if it's possible with the current Proton-K design It is possible to achieve this orbit with precise flying or an autopilot. It leaves 60% of 3rd-stage fuel and a full on-station tank.

When you have the stable orbit, open the solar panels and the antennas. Move the station to orient it the good way (the one radial docking port facing the Earth; the HubMax towards your prograde vector). Transfer any fuel or electricity (if you are in the dark zone) then either undock the third stage or keep it until the Zvezda mission.

There you go, the ISS begins to exist!

Unity - 1A

Unity as seen in VAB
Statistics
Mass (full) 3.79 t

Unity, also known as Node 1, is the first American-only module on the ISS. It is basically a connector between many parts of the station. It was delivered with two PMA (Pressurized Mating Adapters), one that is permanently placed between Zarya and Unity, and the second has moved many times since its installation.

Ship Design

I can't really simulate the PMA's, because they aren't straight but a bit tilted. Here's what I did:


NOTE: : I made a little mistake, because the PMAs are supposed to be moveable. Check lower for info.

Mission Phases

The original launch happened 2 weeks after deployment of Zarya, on December 4, 1998.

Launch

For my launch, I had to use the Proton-K launcher, because there isn't any solid fuel boosters as powerful as was used by the Space Shuttle. It had two boosters, each at 12.5 MN while the Rockomax booster has only 300 kN (2.4%).

Try your best to put it on the same orbit as Zarya. If you have an auto-pilot, use the "Launch to rendezvous" function. If not, try to send it with Zarya at a 45 degree LPA. Once again, the orbit is 424 km AP × 402 km PE.

Rendez-vous

Check the tutorials on rendezvous and docking if you don't know how to. The goal is to attach one of the PMA ends (front or aft, they're symmetrical) to the Hubmax (front end). You may need to switch between vessels to put them in the right diretions.

They connected!
Unity connected to Zarya

On the actual mission, there were 3 EVA's to connect cables between the modules, and once to enter the ISS. As of 0.19.1, you can only do that last point. If you brought any Kerbonauts, put them in EVA and let them enter the Hitchhiker. After some time, get them back on what's left of your launcher.

Landing on Kerbin

I didn't use a manned pod, so I just dropped the launcher with as less fuel left as possible. Instead, try to return the Kerbonauts on the last stage of your Unity launcher. You can pump the fuel from the Zarya launcher if it's still docked; you'll also need the aft docking port of Zarya for the next mission.

What now

Possibly a lunar base? Let your imagination run wild!