The Interior Core
The interior core maintains concrete tube tunnels, that will house cities, shopping areas, mechanical equipment and wind tunnels to capture the energy and use it in the structure. Within the core are vertical elevators, ventilation shafts, water and support systems. If fire reaches one chamber, it will be dampered and isolated from the other chambers.
On the exterior will be mounted giant catapults that will launch the space vehicles into space without using fuel for the launch. They will be literally giant run-ways. There will be a long track. It will work on a tension system. The entire system is pulled into tension upon launch. The trigger is released gradually, with increasing pressure as the speed increases. This will catapult the space vehicles into space with no fuel used. The energy for the tension mechanism will be extracted from wind and solar panels mounted on the sides of the pyramid, and the wind channels in the core.
As stated, the interior core will be simply filled with earth and sand.
The Cost
Very economical to build.
The Structure
Very strong, resistant, heavy and permanent.
Modern Energy Collection Systems
It will employ the latest in wind and solar energy collectors.
The Functions
Multiple Interior cities, global access portal, natural green energy plant.
The Scope
Global in scale. A free open project which will allow thousands of companies and individuals to participate.
Who Will Pay For It
The public, those who participate, the governments, the funding companies, the world.
PROJECT "LIQUID UNIVERSE"
The Global Pyramid
PROJECT "LIQUID UNIVERSE"
PROJECT "LIQUID UNIVERSE"
PROJECT "LIQUID UNIVERSE"
THE SYSTEM
PYRAMID GLOBAL WORLD
Goal:
To build the world's largest structure ever built, that is economical, strong and will allow man to reach space for the lowest cost possible.
Attached is an image of the new pyramid structure.
The Size
It will be approximately 120 km wide by 140 km high.
It will reach from the earth into space.
The Purpose
To provide a global bridge to space.
The Foundation
It will be built on a base of solid stone.
The Exterior Membrane
The exterior membrane will consist of a simple affordable membrane system as follows -->>
The A core of earth and sand infill. Over this,
Before embarking on a final solution, we were forced to understand some of the initial questions and technical difficulties:
1. Getting building approvals.
2. How this will interfere with man-made flying objects.
3. How to make the structure stable with economical materials.
4. How to build it in a reasonable amount of time, in a way that can be actually managed and budgeted in a way that makes sense.
5. How to get the cooperation and companies involved to build it.
6. In essence, an actual working design.
Reasons for choosing the pyramid structure:
To realize this big tower we must -->>
5. Will resist gigantic forces of wind, rain, storms.
6. Can be done in a reasonable amount of time and for a budget that can be kept under control.
7. Can get construction approval.
8. That will survive the test of time.
9. A project that is able to engage the participation of many companies, government, and people with influence.
10. A project that is in tune with the technology of the times.
11. Construction techniques that are feasible.
12. A structural system that will allow for flexible use.
13. Allow for workers to work in sub-gravity conditions, with no oxygen and extremely high winds on the way up.
In essence, we are attempting to do what one of the greatest, most powerful civilizations of all time attempted to do thousands of years ago and failed. This is no small challenge, even with today's technology. Especially considering the fact that to even construct the pyramids of Egypt with today's technology is no small feat. Until today, we still don't know for sure how the Egyptians built the pyramids.
The pyramid is the ideal structure as it ---->>>
FURTHER CONSIDERATIONS ON THE PYRAMID
Below is an overlay of the pyramid on the temperature zones, showing which areas will be more usefull, habitable and the temperate regions to be faced during construction. Range 0 to 3.5 km acceptable livable space. This is equivalent to a building 120 km wide by 3.5 km high of total usable region! Now, even if we build in 5% of this useful space and place the tunnels, we have an incredibly large area of real estate! Range 41 km to 66 km acceptable livable space, indicated as areas "A" below and the black triangles and red stars. This is equivalent to a building 80 km wide by 25 km high of total usable region! These will be the habitable regions of the pyramid of greatest value. The other regions will be for storage, space exploration, mechanical systems and the like. In the final region "A", there will be an observation tower of glass, where temperatures range from 0 C to 20 degrees C or 63 F. From this vantage point, man will be able to observe the global ring, the Aurora Borealis, as well as view the spacecraft being launched into space from a distance of around 300 meters, without this craft ever being in danger of reaching the observation tower. This observation tower will be in itself a mega structure. It will be a pyramid of aproximately 10 kilometers high by 10 kilometers wide with an exterior skin of LED thermal solar panel insulated glass with water bearing sheets of glass panels that will absorb the radiant energy and convert it to heated water to supply the entire structure. It will be, so to speak, "Sitting on top of the World "! Those who own this real estate will be the new billionaires of the future.
A
A
F
32 km
72,5 km
F
A
A vapor and water containment barrier of Interior multiple sheets of plastic over the interior core, to protect it from humidity and from leaking out of the interior core.
1.
Next, an internal perimeter wall 200 Meters wide of plastic stones and bricks, filled with earth and sand.
2.
The outer layer, an inclined stone wall 10 Meters thick.
3.
Chose a material that is light in weight, so it can be transported vertically easily, but that can made heavy, to hold much weight.
1.
A material that is economical, can be massed produced, can be assembled easily.
2.
Can engage global participation.
3.
Resolve environmental impact issues.
4.
Resists lateral wind loads and storms well.
1.
Allows for a large base and the top, when reaching the stratosphere, to be reduced in size.
2.
Allows platforms to be built on the ends, and then as the structure goes up, to fill them in as one proceeds to the next level.
3.
Requires less materials up at the top, thus allowing the crews to lift less materials, as they progress.
4.
Is very stable structurally.
5.
It a timeless form, one that is able to resist the ages.
6.
It is a form and shape that carries a multitude of symbology.
7.
Makes it easy to engage global participation.
8.
The pyramid is a huge city, with the inner parts of the pyramid houses millions of businesses and residences.
9.
It is a full plate for developers.
10.
The sides of the pyramid are used to launch vehicles into space. It is an acceleration platform into space!
11.
It is a launch point for celestial balloons.
12.
It will become the largest communication tower on earth.
13.
The sides of the tower will house a millions of solar collectors and wind capturing tunnels in the core, that will produce energy from the strong winds at high altitudes.
14.
The new journey to build the worlds biggest tower ever has just began!
Welcome to the journey!
You can count on my help George! It can be done!
How To Build This
As much as possible, we will use all natural materials available in the local area.
We will first of all place the foundation of stones.
We start building the side walls which will house the infill of earth and sand.
As we proceed up, giant vacuum shoots will suck the materials up into the land fill areas inside the structure.
This process will be continued all the way up.
Where there are interior spaces, these will be made with concrete tunnels. These tunnels can be transformed either into wind tunnels or into occupied spaces.
The structure will proceed to the highest altitudes, where workers will wear pressurized suits and equipment.
Where Will We Build This?
Possible places are the Arab Emirates, Egypt, Arizona, Africa or other desert locations with plenty of sand, silty soil and native stones and rocks. Certainly it cannot be placed on a small land mass with much drift, or an entire area could sink with the weight of the structure.
How much will it cost to build?
Total cost aprox. 140 -168 billion = that is 14 to 16.8 billion a year for 10 years. By selling stock, with 23 million people investing, that is only US$50-60 per month per person. Over 10 years, they invest only US$6000 to $7200 and when completed, their stock will be worth hundreds of thousands or even millions. How many people do you think will want to own a share of this pie? Their money invested will multiply thousands of times over.
Why 140 Km?
"The lower region of the thermosphere, from approximately 130 to 180 km, has been very difficult to explore. Satellites cannot orbit in this region because they would rapidly fall from orbit and burn up from atmospheric friction. Balloons cannot reach this altitude, and sounding rockets pass through the region too quickly to obtain more than a quick vertical profile of a particular spot."
Information on the Atmosphere.
The temperatures in this region, the Thermosphere, are suitable for exiting into the ring, and thus for the position of the global ring!
Further, "The dynamics of the lower thermosphere (below about 120 km) is dominated by atmospheric tide which is driven, in part, by the very significant diurnal heating. The atmospheric tide dissipates above this level since molecular concentrations do not support the coherent motion needed for fluid flow."
Thus, it is the ideal height for the positioning of the global ring, at 140 km!
Further, it is interesting to place this just above the "Kármán line" and in the region of the Aurora Borealis
A material that is economical, can be massed produced, can be assembled easily.
