Forwarded from DoomPosting
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Prince Andrew’s ex Lady Victoria Hervey to Piers Morgan: 'You’re in the files… because you’re not a LOSER'
🄳🄾🄾🄼🄿🤖🅂🅃🄸🄽🄶
🄳🄾🄾🄼🄿🤖🅂🅃🄸🄽🄶
😁4
Forwarded from DoomPosting
Notice how Democrats aren’t making any claims about the SAVE America Act that don’t have to do with verifying voter eligibility. Here’s why that’s significant:
Normally, Congressional bills are filled with awful policies that have nothing to do with the title of the bill. But not the SAVE America Act. It’s so straightforward, all Democrats can do is lie about the consequences of verifying voter eligibility.
It’s an indirect admission that they know the bill has no schemes and that the voter fraud is so rampant, any law requiring voters to verify their eligibility would lead to a red tsunami.
That’s why it MUST pass, and it’s also the reason RINOs don’t want it to pass.
🄳🄾🄾🄼🄿🤖🅂🅃🄸🄽🄶
Normally, Congressional bills are filled with awful policies that have nothing to do with the title of the bill. But not the SAVE America Act. It’s so straightforward, all Democrats can do is lie about the consequences of verifying voter eligibility.
It’s an indirect admission that they know the bill has no schemes and that the voter fraud is so rampant, any law requiring voters to verify their eligibility would lead to a red tsunami.
That’s why it MUST pass, and it’s also the reason RINOs don’t want it to pass.
🄳🄾🄾🄼🄿🤖🅂🅃🄸🄽🄶
👍7❤1
MODULE 5
“Lunar Industrialization & Settlement—Birth of Polyglobal Civilization”
https://t.me/AzazelNews/961341
“Lunar Industrialization & Settlement—Birth of Polyglobal Civilization”
https://t.me/AzazelNews/961341
❤8👍2
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MODULE 5 — The Real Villain: Heat Rejection
1) Why the Moon makes heat rejection unforgiving
No convection
On Earth, heat can be dumped into air or water.
On the Moon, there is no atmosphere.
You cannot blow heat away.
Conduction is weak
Heat can be conducted into lunar soil, but regolith:
- is dry and porous
- conducts heat poorly
- heats up locally very fast
For large continuous power, regolith is not a viable long-term heat sink.
Radiation is the only scalable option
To reject hundreds of kilowatts, heat must be radiated to space.
2) Why radiators dominate mass, size, and layout
Radiators must be:
- large (enough surface area)
- thin (to limit mass)
- thermally conductive
- coated for high emissivity
- structurally deployed and supported
They are not “components.”
They are major structural systems.
In many designs:
- radiator area exceeds habitat footprint
- radiator mass rivals or exceeds the reactor
- radiator placement dictates base geometry
1) Why the Moon makes heat rejection unforgiving
No convection
On Earth, heat can be dumped into air or water.
On the Moon, there is no atmosphere.
You cannot blow heat away.
Conduction is weak
Heat can be conducted into lunar soil, but regolith:
- is dry and porous
- conducts heat poorly
- heats up locally very fast
For large continuous power, regolith is not a viable long-term heat sink.
Radiation is the only scalable option
To reject hundreds of kilowatts, heat must be radiated to space.
2) Why radiators dominate mass, size, and layout
Radiators must be:
- large (enough surface area)
- thin (to limit mass)
- thermally conductive
- coated for high emissivity
- structurally deployed and supported
They are not “components.”
They are major structural systems.
In many designs:
- radiator area exceeds habitat footprint
- radiator mass rivals or exceeds the reactor
- radiator placement dictates base geometry
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3) Radiators are fragile by necessity
Radiators must be thin to stay launchable.
That makes them vulnerable to:
- micrometeoroids
- joint failures
- thermal fatigue
- coating degradation
- deployment errors
They cannot be heavily armored without becoming too massive.
This fragility is driven by physics and mass limits, not poor design.
4) Radiator failure is mission-critical
Most subsystems degrade gracefully.
Radiators usually do not.
If:
- a pump fails → power may degrade
- a sensor fails → redundancy may cover it
But if:
- radiator capacity drops significantly
- or a coolant loop leaks
Then:
- reactor power must be reduced or shut down
- decay heat still must be removed
- life support and base power are immediately threatened
A single major radiator failure can force base abandonment.
https://www.youtube.com/watch?v=dj0WfgtA_U0
Radiators must be thin to stay launchable.
That makes them vulnerable to:
- micrometeoroids
- joint failures
- thermal fatigue
- coating degradation
- deployment errors
They cannot be heavily armored without becoming too massive.
This fragility is driven by physics and mass limits, not poor design.
4) Radiator failure is mission-critical
Most subsystems degrade gracefully.
Radiators usually do not.
If:
- a pump fails → power may degrade
- a sensor fails → redundancy may cover it
But if:
- radiator capacity drops significantly
- or a coolant loop leaks
Then:
- reactor power must be reduced or shut down
- decay heat still must be removed
- life support and base power are immediately threatened
A single major radiator failure can force base abandonment.
https://www.youtube.com/watch?v=dj0WfgtA_U0
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5) Why segmentation and isolation dominate design
Because radiators are fragile and existential, serious designs require:
- segmentation (many smaller panels)
- isolation (shut off damaged sections)
- graceful degradation (reduced power, not total loss)
This is about survival, not optimization.
Segmentation adds:
- more joints
- more valves
- more sensors
- more plumbing
- more failure modes
Radiator design becomes a system-level trade, not a materials problem.
6) Dust is a silent but severe threat
Lunar dust:
- sticks electrostatically
- is abrasive
- alters surface thermal properties
- accumulates unevenly
Dust can:
- reduce radiator effectiveness
- create hot spots
- drive thermal gradients
- accelerate material degradation
Radiators become:
- monitoring problems
- mitigation problems
- autonomy problems
Slow degradation alone is enough to constrain operations.
Because radiators are fragile and existential, serious designs require:
- segmentation (many smaller panels)
- isolation (shut off damaged sections)
- graceful degradation (reduced power, not total loss)
This is about survival, not optimization.
Segmentation adds:
- more joints
- more valves
- more sensors
- more plumbing
- more failure modes
Radiator design becomes a system-level trade, not a materials problem.
6) Dust is a silent but severe threat
Lunar dust:
- sticks electrostatically
- is abrasive
- alters surface thermal properties
- accumulates unevenly
Dust can:
- reduce radiator effectiveness
- create hot spots
- drive thermal gradients
- accelerate material degradation
Radiators become:
- monitoring problems
- mitigation problems
- autonomy problems
Slow degradation alone is enough to constrain operations.
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7) Thermal cycling never stops
Radiators experience:
- temperature gradients along their length
- standby ↔ full-power transitions
- shadowing effects (especially at polar sites)
- repeated expansion and contraction
These stresses act on:
- thin materials
- joints
- seals
- coatings
Over long durations, fatigue and seal failure often matter more than impacts.
8) Radiators lock in the entire plant architecture
Radiator requirements dictate:
- reactor operating temperature
- conversion system choice
- plant placement
- allowable ramp rates
- startup and shutdown procedures
- autonomy response to degradation
You can redesign a reactor core.
You cannot easily redesign a deployed radiator field.
Radiators define the geometry of the base.
https://www.youtube.com/watch?v=YH3c1QZzRK4
Radiators experience:
- temperature gradients along their length
- standby ↔ full-power transitions
- shadowing effects (especially at polar sites)
- repeated expansion and contraction
These stresses act on:
- thin materials
- joints
- seals
- coatings
Over long durations, fatigue and seal failure often matter more than impacts.
8) Radiators lock in the entire plant architecture
Radiator requirements dictate:
- reactor operating temperature
- conversion system choice
- plant placement
- allowable ramp rates
- startup and shutdown procedures
- autonomy response to degradation
You can redesign a reactor core.
You cannot easily redesign a deployed radiator field.
Radiators define the geometry of the base.
https://www.youtube.com/watch?v=YH3c1QZzRK4
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9) Why no solution “fixes” this
All mitigation strategies trade risks:
- run hotter → smaller radiators, higher stress
- overbuild → higher mass and launch cost
- heat pipes → passive but limited
- pumped loops → flexible but complex
- shadow placement → improves stability, not fragility or dust
No serious study claims to eliminate the problem.
They aim to manage it.
> The reactor enables power.
> The radiator decides whether the base survives.
All mitigation strategies trade risks:
- run hotter → smaller radiators, higher stress
- overbuild → higher mass and launch cost
- heat pipes → passive but limited
- pumped loops → flexible but complex
- shadow placement → improves stability, not fragility or dust
No serious study claims to eliminate the problem.
They aim to manage it.
> The reactor enables power.
> The radiator decides whether the base survives.
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Forwarded from Fireworks Daily Team (Mythic)
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DO NOT CHASE THE FIREWORKS 🎇 OR BOOMS💥
You Are Dealing With Unfathomable Evil
Standby for #UndergroundWarReport for 02/12/2026
TO MAINTAIN PERMANENT SUPREMACY THEREIN
Godspeed Subterranean Troops.
#GWOHT
#GlobalWarOnHumanTraffickers
#Cycles101
#MOV
#UndergroundWarReport
@AzazelNews
You Are Dealing With Unfathomable Evil
Standby for #UndergroundWarReport for 02/12/2026
TO MAINTAIN PERMANENT SUPREMACY THEREIN
Godspeed Subterranean Troops.
#GWOHT
#GlobalWarOnHumanTraffickers
#Cycles101
#MOV
#UndergroundWarReport
@AzazelNews
❤1
Forwarded from Fireworks Daily Team (Sis)
vxTwitter / fixvx
💖 3.44K 🔁 791
💖 3.44K 🔁 791
Dustin (@r0ck3t23)
Alex Karp just said what every other tech CEO is terrified to admit: the world doesn’t split three ways. It splits two. And second place is extinction.
Europe watches. Everyone else becomes a customer. The fight is bin…
Europe watches. Everyone else becomes a customer. The fight is bin…
👏2
Forwarded from Fireworks Daily Team (Youcanrunbutnothide)
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🚨 Former Canadian Defense Minister Paul Hellyer drops the bombshell: "UFOs are as real as the airplanes flying over our heads... because I know that they are. They've been visiting this planet for thousands of years." 👽🛸😱
He goes further: "There is what is called a federation of these people and they have rules."
And: "UFOs are real and you have to accept them as being real."
First high-level official to confirm ET visits publicly—thousands of years of contact with a federation that has rules? Mind officially blown.
What do YOU think—do aliens have a "federation" with rules for visiting Earth? Why would a government official risk everything to say this? Are we being observed or protected? Drop your wildest theories or questions below! 👽🌍🛸
https://vxtwitter.com/i/status/2021734746699837869
He goes further: "There is what is called a federation of these people and they have rules."
And: "UFOs are real and you have to accept them as being real."
First high-level official to confirm ET visits publicly—thousands of years of contact with a federation that has rules? Mind officially blown.
What do YOU think—do aliens have a "federation" with rules for visiting Earth? Why would a government official risk everything to say this? Are we being observed or protected? Drop your wildest theories or questions below! 👽🌍🛸
https://vxtwitter.com/i/status/2021734746699837869
👏5❤3
Forwarded from Fireworks Daily Team (Youcanrunbutnothide)
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BREAKING:
🇨🇳 A massive sinkhole suddenly opened in Shanghai, China swallowing a large section of roadway.
https://vxtwitter.com/i/status/2021863312766734568
🇨🇳 A massive sinkhole suddenly opened in Shanghai, China swallowing a large section of roadway.
https://vxtwitter.com/i/status/2021863312766734568
🙏4
Forwarded from Fireworks Daily Team (Youcanrunbutnothide)
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Feb 12: the leakage at the construction site for the Qixin Road (七莘路) subway station of Jiamin Line (嘉闵线) in Shanghai the previous night ended up as a massive collapse of a large swathe of road surfaces…
https://vxtwitter.com/i/status/2021843692144013555
https://vxtwitter.com/i/status/2021843692144013555
Forwarded from Fireworks Daily Team (Youcanrunbutnothide)
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Feb 11: sections of Qixin Road (七莘路) and Li’an Road (黎安路) near the construction site for the Qixin Road subway station of the under-construction Shanghai Suburban Railway Jiamin Line (嘉闵线) were blocked off in the evening after water leakage was seen underground.
https://vxtwitter.com/i/status/2021837801596367152
https://vxtwitter.com/i/status/2021837801596367152