Tornado Proof like Flood + Earthquake then Ground Disturbance
TORNADO PROOF
Tornado Proof like Flood + Earthquake then Ground Disturbance
TORNADO LIKE FLOOD OR BUNKER
Tornado in Calgary seen from Mount Royal over Nose Hill pre-GSL closure to Wolfe
https://youtube.com/shorts/yqURtbiCarc?si=l6Kl86gGLFcuTyqE
A tornado-proof bunker, also known as a storm shelter or safe room, is a reinforced structure designed to protect individuals from the extreme winds and flying debris associated with tornadoes. These structures are typically built with reinforced concrete or steel and can be installed either underground or above ground within a home or as a standalone unit.
Types of Tornado Shelters:
• Underground Shelters: These are installed beneath a home, garage, or in the backyard, offering maximum protection.
• Above-Ground Safe Rooms: These are reinforced steel or concrete enclosures built within a house or garage.
• Standalone Shelters: Separate structures designed specifically for storm safety.
Key Consideration:
• Material Strength:
Reinforced concrete and steel are the most durable options for withstanding high winds and impacts.
• Size and Capacity:
The size of the shelter should be adequate to accommodate the number of people it needs to protect.
• Accessibility:
The shelter should be easily accessible, especially during a tornado warning.
• Ventilation and Air Filtration:
Adequate ventilation and, in some cases, air filtration systems (for nuclear, biological, or chemical threats) are crucial.
• Egress:
The shelter should have at least one, preferably two, ways to exit, in case one exit is blocked.
• Security:
Shelters should be lockable from the inside and potentially have a secondary exit.
DIY vs. Professional Installation:
• DIY:
While possible, building a tornado shelter is a complex undertaking that requires careful planning and execution.
• Professional:
Reputable companies offer pre-built shelters and can provide expert installation services.
Cost:
• The cost of a tornado shelter varies depending on size, materials, and whether it's a DIY or professionally installed project.
• For example, a four-person, above-ground pod can cost around $4,000, while a 16-person underground shelter can cost $9,800.
Additional Features:
• Prepping Features:
Some bunkers can be customized to include features like media rooms, home offices, or fallout shelters.
• Air Filtration:
Donaldson filtration units can remove heavy particulates, while HEPA filters can provide protection against nuclear, biological, and chemical threats.
Flood-Proof
A flood-proof bunker is a reinforced, subterranean structure designed to protect occupants from rising floodwaters and other hazards. Key features include robust construction with reinforced concrete, effective waterproofing, and comprehensive drainage systems.
Key considerations for flood-proof bunker construction:
• Location and Design:
Consider the potential flood levels in your area, local building codes, and the specific threats you want to protect against. A slope at the base of the walls can help direct moisture away according to YouTube videos.
• Materials:
Reinforced concrete is a common choice for walls, floor, and roof, providing strength and durability. Waterproofing admixtures can be added to the concrete to reduce leakage.
• Waterproofing:
Waterproofing membranes and coatings, like rubberized asphalt or cementitious coatings, are crucial to prevent water intrusion.
• Drainage:
A robust drainage system, including French drains and sump pumps, is essential for diverting water away from the bunker.
• Ventilation:
Ensure proper ventilation for air circulation and filtration, especially in enclosed spaces.
• Reinforcement:
Metal beams or rebar can be used to reinforce the structure and protect against collapse.
• Sealing:
Pay careful attention to sealing all seams and openings to prevent water from seeping in.
• Accessibility:
Entrances should be designed to be flood-resistant and easily accessible.
Specific techniques for floodproofing:
• Waterproofing Admixtures: Add these to the concrete mix to reduce water permeability says a Reddit thread.
• Waterproofing Coatings: Apply waterproof coatings to the exterior of the bunker.
• French Drains: Install these around the perimeter of the bunker to channel water away.
• Sump Pumps: Use sump pumps to remove any water that does infiltrate the bunker.
• Proper Slope: Ensure a slope at the base of the walls to direct water away from the foundation according to a YouTube video.
• Metal Reinforcement: Use metal beams and rebar to strengthen the structure and prevent collapse.
• Sealing: Thoroughly seal all seams and openings with waterproof sealant.
Considerations for DIY construction:
• Soil Stability: Assess the soil conditions and consider additional support if necessary.
• Safety Precautions: Take necessary safety precautions when working with heavy machinery and materials.
• Professional Advice: Consult with civil engineers or construction professionals for guidance.
Earthquake
An earthquake-proof bunker is a structure designed to withstand the forces of an earthquake and protect its occupants. Key features include reinforced concrete or steel construction, a strong foundation, and potentially hidden entrances. Underground bunkers generally offer better protection than above-ground structures due to their ability to move with the earth.
Key Elements of Earthquake-Proof Bunkers:
• Reinforced Concrete:
Using steel rebar embedded within concrete provides significant strength and resistance to cracking and crumbling during shaking.
• Strong Foundation:
A solid foundation is crucial to prevent the bunker from shifting or settling unevenly during an earthquake.
• Underground Location:
Underground structures generally experience less ground shaking than those above ground.
• Hidden Entrances:
Entrances, like those hidden under garages or driveways, can be reinforced with steel and designed to be easily opened from the inside.
• Ventilation and Filtration:
Systems to provide fresh air and filter out contaminants are essential for long-term survival within a bunker.
• Waterproofing and Drainage:
Protecting the bunker from water intrusion is critical to prevent damage and maintain a safe, habitable environment.
• Backup Systems:
Redundant power supplies, air filtration, and other critical systems are important for long-term survival.
• Specific Safety Features:
Some bunkers incorporate features like NBC air filtration systems (for protection against chemical, biological, and nuclear threats) and EMP protection (for protection against electromagnetic pulses).
• Structural Integrity:
The bunker's design should consider the local seismic activity and ensure the structure can withstand the anticipated forces.
Important Considerations:
• Soil Stability:
The stability of the surrounding soil is crucial to ensure the bunker's foundation can withstand the forces exerted during an earthquake.
• Local Regulations:
Building codes and regulations related to underground structures and safe rooms can vary by location.
• Cost:
Building a high-quality, earthquake-proof bunker can be a significant investment.
• Regular Maintenance:
Bunkers require regular inspections and maintenance to ensure their integrity and functionality.
Under the Ground Hazards - Ground Disturbance
Underground gas hazards pose significant risks due to potential leaks, fires, explosions, and toxic exposure. These hazards can arise from various sources, including damaged gas lines, underground gas storage facilities, and natural gas leaks in confined spaces. Understanding these risks and taking preventative measures is crucial for safety.
Types of Underground Gas Hazards:
• Damaged Gas Lines: Hitting gas lines during digging can cause leaks, fires, or explosions.
• Underground Gas Storage: Leaks from underground storage facilities can release harmful pollutants and pose fire and explosion risks.
• Confined Spaces: In enclosed areas like sewers or manholes, gas leaks can accumulate and cause asphyxiation or explosions.
• Landfill Gas: Decomposing waste in landfills can produce methane, which is flammable and explosive.
• Natural Gas Leaks: Methane, a primary component of natural gas, is flammable and explosive when mixed with air.
• Hydrogen Sulfide: This gas, often found in sewers and oil/gas wells, is toxic and flammable.
Risks and Consequences:
• Personal Injury and Death:
Exposure to flammable or toxic gases can cause severe health problems, including suffocation, explosions, and burns.
• Property Damage:
Gas leaks and explosions can damage buildings, infrastructure, and equipment.
• Service Disruptions:
Damage to gas lines can interrupt essential services like natural gas, electricity, and communication.
• Environmental Hazards:
Gas leaks can release harmful pollutants into the environment.
Preventative Measures:
• Locate Utilities:
Always contact local utility locating services before digging to identify the location of underground utilities, including gas lines.
• Safe Digging Practices:
Follow safe digging practices to avoid damaging buried infrastructure. This includes using hand tools near known utilities and backfilling trenches properly.
• Gas Detection:
Utilize gas detection equipment in areas where gas leaks are suspected, especially in confined spaces.
• Ventilation:
Ensure adequate ventilation in areas where gas leaks might occur, such as basements and manholes.
• Emergency Procedures:
Establish and follow emergency procedures for gas leaks, including evacuating the area and contacting emergency services.
Recognizing Gas Leaks:
• Smell:
Natural gas is often odorized to have a "rotten egg" smell, but some leaks may be odorless.
• Sight:
Look for dead vegetation, bubbles in water, blowing dust, or ground frosting in summer.
• Sound:
Listen for hissing or roaring noises near suspected leaks.
• Symptoms:
Be aware of potential symptoms of gas exposure, including headaches, dizziness, nausea, and breathing difficulties.
By understanding the risks and taking preventative measures, we can minimize the potential for underground gas hazards and protect ourselves and our communities.
Atmosphere. Ground. Salt or fresh-water
Earthquake - Seismic Beds
https://youtu.be/1LTuTA7g_i0?si=iSfCwp0_qG7DomVD
A triangular shape. A design that contracts into an X - triangular pattern to void exterior debris & crushing then emergency communication + escape efforts after a major event
Grounded steel cages void lift in a tornado or hurricane then breathing air with sewage efforts between 72+ hour emergency supplies are required
Dr Sydney Nicola Bennett is used to Tornados (F2-5), Earthquakes (4.0-6.0), Floods + larger scale storms & landslides while some areas experience smaller events
Fire storms are different like bombings or neurological striking + neuro-sonic melting
Neurological technology storage
Coachella Valley rockpiles void of fault line specifics on higher ground or mountain region like in Switzerland voiding fire risk for Neurological Technology storage or flat & land altered to void rock of natural or man-made disasters or hazards
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TORNADO SAFE AREA
The lowest cost option for a Tornado according
Instead of a steel cage anchored to the foundation
A steel beam (Triangle) you tie yourself to then debris cover to hide under with a helmet on
A literal steel bar like a triangle lodged i to the concrete - steel reinforced foundation
Tornado goes over top... same for apartments or condos if they ate reinforced steel - concrete as wood will just get picked up & your died
In the movie Twister 1990's. Take a belt & wrap it around the beam. Hide under the beam cover with your helmet on & keep 72 hour supplies tied to a box to the beam. This includes a chainsaw & knives plus weapons to dig out of debris & communication to stay alive
Tornado in Calgary seen from Mount Royal over Nose Hill pre-GSL closure to Wolfe
https://youtube.com/shorts/yqURtbiCarc?si=l6Kl86gGLFcuTyqE
REALITY FOR DR SYDNEY NICOLA BENNETT
After having to take it easy between 2000-2003 & before 2012. Serious injuries led to accessibility concerns
Dr Sydney Nicola Bennett is permanently with a cain now due to the 2012-2025 attacks by NB-OT Labs destroying the 2000-2003 flexible cord fusion & repaired limb + hand - writet fractures while mild brain mass loss & damage exists with a fractured jaw
No more physical activities. Can look after oneself to shower & eat or drink then use a toilet & get dressed yet serious permanent physical limitations know especially since 2012
Even with surgeries or a cain or wheelchair + maybe short distant walks due to inability based on repeatative & permanent injuries
Can drive a vehicle. Motorcycle or cart yet no physical lifting of objects
Owns a cart, cain & wheelchair now with three suitcases then different residence options
THE SECOND OF TWO SETTLEMENTS
2001 + 2022
H.I.3 Scheme for S.B.G of CIG & Dr Sydney N Bennett plus rewards covers everything May 1, 2025 & damages owed since then H.I.3 Case accounts during the investigation
Previously used to enjoy sports. Boardsports & others
CIG
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