Orbital Object Propulsion Systems
It Has Begun
In Kerbal Space Program (KSP) there is a wonderful modification (mod) called Better Than Starting Manned (BTSM). The author of this mod is named FlowerChild or FC for short. FC has created a challenging aspect to KSP. Not only do you do space missions, but with BTSM you have to think about what your next goal is and plan accordingly. When you add in KSP carreer mode, you need to do missions for Funds (the name of kerbal money in game) otherwise your space program will go broke, BTSM adds a level to the game that is just down right fun. For example do you research decouplers or another tank and rocket. Both can get you into an orbit but one will be cheaper for you or will allow you to do a few more missions for the Funds and science.
Now that I have learn most of how it all works. Orbital Object Propulsion Systems will be tracking how it gets things done.
(please note I will try to update at least once a week on Sunday, however some weeks I will not be able to post a mission or four because of my schedule)
Sunday, September 7, 2014
Mission 013: D Series Rocket Bluejay Model 3
With our next goal in sight, a polar orbit, OOPS engineers created the Bluejay 3 rocket. They gave it more delta-v since it was not getting the assist from the Kerbin rotation.
Mission 012: D Series Rocket Bluejay Model 2
Bluejay 2 took some time to develop. Many designs were considered and testes (sandbox mode). Here are a couple of the failures.
Mission 011: D Series Rocket Bluejay Model 1
OOPS Engineers developed a RCS system designed to be able to control rockets where there is little to no atmosphere. and placed it on the Bluejay 1, now, new and improved
Sadly the extra weight made it difficult to control properly and the rocket never made it into orbit. Although it was not a success it did yield good research. OOPS engineers determined that any craft orbiting Kerbin would need more power so the amount of batteries needed to be increase. The also determined there had to be a way to loose the dead weight of spent rocket and empty fuel tanks. Finally they used to fact that they could control the craft because of the RCS and was able to bring the whole craft, minus 1 battery, back to safely crash into Kerbin. instead of exploding around 25 km.
Sadly the extra weight made it difficult to control properly and the rocket never made it into orbit. Although it was not a success it did yield good research. OOPS engineers determined that any craft orbiting Kerbin would need more power so the amount of batteries needed to be increase. The also determined there had to be a way to loose the dead weight of spent rocket and empty fuel tanks. Finally they used to fact that they could control the craft because of the RCS and was able to bring the whole craft, minus 1 battery, back to safely crash into Kerbin. instead of exploding around 25 km.
Mission 010: D Series Rocket Bluejay Model 1 Experimental
OOPS Scientist wanted more Gravioli data. So the engineers designed and built the D Series Bluejay 1 rocket.
However at the last moment the OOPS Experimental Division required that new illuminators be tested in space. So like most thing they were slapped on the rocket in pairs. Bluejay 1 X was born.
However at the last moment the OOPS Experimental Division required that new illuminators be tested in space. So like most thing they were slapped on the rocket in pairs. Bluejay 1 X was born.
Mission 009: C Series Rocket Sparrow Model 3
Since someone had to go back up to get the research data Bill failed to bring back, Jeb Kerman decided to "volunteer" for the mission. OOPS engineers dried out Bill craft, refueled it and readied it for launch. Jeb loaded up his snacks and launched toward space.
Every thing went well as he climbed almost 40 km above Kerbin, collecting the need goo data for the OOPS scientist.
Every thing went well as he climbed almost 40 km above Kerbin, collecting the need goo data for the OOPS scientist.
Mission 008: C Series Rocket Sparrow Model 3
While still working on proper reentry procedures, OOPS scientists decided they need more data from high atmosphere. However current capsule most likely could not keep the Kerbals inside alive, so it was decided that the engineers needed to create a pressurize capsule. the end result was the Sparrow 3
Sparrow 3 added a middle tank and engine as well as 2 more control surfaces and upgraded the 2 small batteries to the new larger versions. Of course OOPS scientist included to GOO Capsules on the side for other experiments. Much to the dismay of Jeb, Bill Kerman was selected for this mission. The goal of the mission was to collected data on goo at different altitude but also go higher into the atmosphere and report back to what is happening up there from a Kerbal perspective.
Sparrow 3 added a middle tank and engine as well as 2 more control surfaces and upgraded the 2 small batteries to the new larger versions. Of course OOPS scientist included to GOO Capsules on the side for other experiments. Much to the dismay of Jeb, Bill Kerman was selected for this mission. The goal of the mission was to collected data on goo at different altitude but also go higher into the atmosphere and report back to what is happening up there from a Kerbal perspective.
Mission 007: B Series Rocket Tanager Model 2 Experimental
Face with new mission/contract to test a new fuel system in space OOPS engineers decide the B series could do it with small modifications. The reasons were the B series of rockets were simple and achieved the altitude needed for the test.
Our scientist also wanted more gravity data from space. This meant the new rocket would need more batteries because gravity data was large and took a bit to transmit. The all fell into place with the Tanager 2 Experimental.
OOPS executive felt the engineers went a bit overboard on the batteries but the engineers assured them they need that much in case the craft "accidentally" got into orbit. So the designed remained intake and the launch proceeded.
Our scientist also wanted more gravity data from space. This meant the new rocket would need more batteries because gravity data was large and took a bit to transmit. The all fell into place with the Tanager 2 Experimental.
OOPS executive felt the engineers went a bit overboard on the batteries but the engineers assured them they need that much in case the craft "accidentally" got into orbit. So the designed remained intake and the launch proceeded.
Mission 006: C Series Rocket Sparrow Model 2
Bob Kerman looked at the footage and flight data of Sparrow 1 and knew he had the answer. He and the engineers were working on a new device Bob called a control surface. With a few modification Bob help create Sparrow 2
Bob added four control surface, removed the barometer and place the extra batteries to the outside of the rockets. The engineers assured him that the craft was balanced. So bad was ready to take on the mission to launch and go no higher than 25 km and report back. There was one thing Mission Control added to the mission. He had to do it not spend more than 1000 Funds after the mission was complete otherwise the extra would come out of his pay. Considering how little kerbalnauts make, if Bob failed, he would be paying for his miscalculation for the rest of his life.
Bob added four control surface, removed the barometer and place the extra batteries to the outside of the rockets. The engineers assured him that the craft was balanced. So bad was ready to take on the mission to launch and go no higher than 25 km and report back. There was one thing Mission Control added to the mission. He had to do it not spend more than 1000 Funds after the mission was complete otherwise the extra would come out of his pay. Considering how little kerbalnauts make, if Bob failed, he would be paying for his miscalculation for the rest of his life.
Friday, September 5, 2014
OOPS We Did It Again - LOG 001
Some at OOPS have wonder how we choose our missions and next area of research. Well it is simple
First we review all available contracts.
Here are a few samples ones OOPS have completed in the past.
Looking at the funds we need to decide to get a rocket that either is already built with a few modifications or designed a complete new one to complete the contract. This is where OOPS relies heavily on our Engineers. If they over engineer the rocket it will cost to much or if the try to refit an existing design it may not be suited for the job. Also the engineers can only work with the parts we have research and as is the case early on in our company's history we just have limited part available.
First we review all available contracts.
Here are a few samples ones OOPS have completed in the past.
Looking at the funds we need to decide to get a rocket that either is already built with a few modifications or designed a complete new one to complete the contract. This is where OOPS relies heavily on our Engineers. If they over engineer the rocket it will cost to much or if the try to refit an existing design it may not be suited for the job. Also the engineers can only work with the parts we have research and as is the case early on in our company's history we just have limited part available.
Mission 005: B Series Rocket Tanager Model 1 Experimental
With the first manned mission under our belt it was time to get some needed funds and do some testing of a new part. So we dusted off an Tanager 1 and created Tanager 1 X
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