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When you think of Aluminium Air Pipes, Think of us...!

What exactly do you "do"? I've tried to piece it together? Something involving whiteboards, and chemicals, and compressed air, and a thimble??????

theyre just paying me to crawl in between the pipes man

but the real answer is i'm a physics grad student. what that entails is i have to take grad level physics courses/pass for certain candidacy exams, do research work in a lab (in particular i work with ultra high vacuum systems and cryogenics for superconducting materials) but i actually get paid through teaching. I have to take classes and do research to get my phd, but if i want to afford rent i have to teach haha.

that is also why i talk about work so much, i basically have to work 40 hours in the lab, on top of 20+ hours of teaching physics classes, and then stack my own classes and exam prep on top of it. its really tough and its a lot of moving pieces. but i guess on one hand at least i'm getting paid in grad school which isnt something all programs offer. Its like if you want to see a phd youre gonna have to work alongside your degree 100%, its just either youre taking out an additional job like is common for law and medical schools, or are still working for the university haha.

s. kanata — thalassophobia

warnings: drowning, suicidal thoughts, cult mentions

The endless yearning for the ocean is something so integral to his being, that Kanata doesn’t know how to live without it. When you spend your entire life in the absence of something, it starts to define you.

Emptiness, synonymous with Shinkai, 深海 the deep sea. A curse. Kanata, 奏汰, so out of reach.

The salt of his tears is comparable to the taste of the sea and he relishes in it, if only to feel—if only for a little while.

Desire has taken root in his heart.

For as long as the god-boy known as Shinkai Kanata has existed, he has always wanted for something. Companionship, care; all those simply a far-off pipe dream.

What can a god know about the pursuits of mortals? The nature of love is beyond him—unconditional affection seems more fictitious than the idea of a boy-god who emerged from the sea, because he has never had anything that did not come from a system of exchange.

Of course, there is the issue of the anomaly. As in, someone whose wish he cannot grant. There are more of those than you would think. Morisawa Chiaki is one of them.

You are another.

You are soft. Too soft, he might say. You’re so used to swimming freely along the surface, that you don’t think to look for the sharks lying in wait underneath until they’re lunging for your exposed underbelly.

Kanata cannot fathom why you would refuse his offer. That is his purpose in life, what makes him. Is there any use to a god who cannot do the feats his followers boast of?

He beseeches you. Please, let me grant your wish. You reply, no thank you. There’re some things that just seem too good to be true, and you’re one of them.

Your fingers brush against his as you walk past. He expects that to be the end of it but you smile at him in the hallways when you pass him by and sometimes, he smiles back.

You would think, after all these years, he would have gotten used to it. That loneliness. But Kanata is greedy. More, more, he wants more.

It’s addictive, is what it is. Like submerging yourself beneath the waves and letting them close over your head, one with the ocean at last. Like feeling your lungs burn with a lack of oxygen as your heart beats a panicked staccato in your ribcage, trying to keep those bubbles from escaping. Like feeling the water envelope you, five senses and all, until all that you can think of is the vast, endless blue and—I’m going to die here.

Then the war happens and suddenly, in the midst of the Eccentrics (Rei-Wataru-Shu-Natsume) and Chiaki (hero) and Tenshouin Eichi (angel), you are there.

A sanctuary. As soothing as the waves, his heart soon fills its empty spaces with you, you, you.

He aches for you. It’s still addictive, yes, but slightly different this time. Like desperately scrabbling for the shoreline as your body compresses itself. Like breaking the surface and taking in the rush of air that follows. Like clawing yourself onto the sand, drenched and exhausted but—I’m alive, I’m alive, I’m alive.

In the race to the end, he cuts himself on crushed shells hidden underfoot. The brine of the ocean stings. But still he keeps pressing onwards, because there behind the finish line he sees you.

He stumbles right into your waiting arms. Maybe his sufferings are finally over. And the path to salvation is, in his mind’s eye, littered with pictures of you. As he sinks into your embrace, Kanata thinks; peace, at last.

© tokusaatsus 2023

wc. 605 words

reze txt. hm. it seems i am not immune to sea metaphors. i am also not immune to a boy who thinks he's a god. i need to study him. i need to blenderise him. hi 🦢

taglist. (fill out the form or send an ask to be added!) @prpne​ @gabirii​ @kazemiya​ @engurishu​ @kkomaism​ @asbestieos​ @mikctp​ @lilikags​ @lolthia​ @unwantedsleep @hasumilvr​ @head-full-of-empty​ @pr3tty-jennie​ @narumika​

"I dont think people call it weird anymore cause it aint. Unrelated noe do you happen to know how the brake system on a train works?"

A railway air brake is a railway brake power braking system with compressed air as the operating medium. Modern trains rely upon a fail-safe air brake system that is based upon a design patented by George Westinghouse on April 13, 1869. The Westinghouse Air Brake Company was subsequently organized to manufacture and sell Westinghouse's invention. In various forms, it has been nearly universally adopted.

The Westinghouse system uses air pressure to charge air reservoirs (tanks) on each car. Full air pressure causes each car to release the brakes. A subsequent reduction or loss of air pressure causes each car to apply its brakes, using the compressed air stored in its reservoirs.

In the air brake's simplest form, called the straight air system, compressed air pushes on a piston in a cylinder. The piston is connected through mechanical linkage to brake shoes that can rub on the train wheels, using the resulting friction to slow the train. The mechanical linkage can become quite elaborate, as it evenly distributes force from one pressurized air cylinder to 8 or 12 wheels.

The pressurized air comes from an air compressor in the locomotive and is sent from car to car by a train line made up of pipes beneath each car and hoses between cars. The principal problem with the straight air braking system is that any separation between hoses and pipes causes loss of air pressure and hence the loss of the force applying the brakes. This could easily cause a runaway train. Straight air brakes are still used on locomotives, although as a dual circuit system, usually with each bogie (truck) having its own circuit.

On August 21st 1754 William Murdock, the Scottish engineer, was born.

The son of John Murdock, a former artillery gunner and a Millwright and tenant of Bello Mill on the estate of James Boswell in Auchinleck, William was educated until the age of ten at the Old Cumnock Kirk School before attending Auchinleck school under William Halbert, author of a highly regarded arithmetic textbook. There he excelled in mathematics.

Murdock was a brilliant Scottish engineer and inventor. He probably doesn’t get the recognition he deserves due to the work of one of his mentors, James Watt.

In 1777 he walked from his home in Ayrshire to Birmingham to follow his dream of working with and Watt and Matthew Boulton

Down south it is thought his name was anglicized to Murdoch, but I’m happy to keep it as the original for this post. He remained an employee of Boulton and Watt for ten years and later a partner of Boulton and Watt until the 1830s and his reputation as an independent inventor has tended to be obscured by the reputations of those two men and the firm they founded.

The invention for which Murdock is best known is the use of coal gas for lighting purposes. Several independent inquirers into the constituents of Newcastle coal had arrived at the conclusion that nearly one-third of the substance was driven off in vapor by the application of heat, and that the vapor so driven off was inflammable. But no suggestion had been made to apply this vapor for lighting purposes until Murdock took the matter in hand. Murdock tested the effects of different types of coal from all over Britain, setting up an iron retort in the back yard of his home from which a metal tube ran into the living room. On July 29th, 1792, he presided at the lighting of a gas flame within the room. It would be several years, however, before Murdock took his invention beyond this rudimentary stage.

Murdock moved to Soho in 1798, too and it was there he resumed his experiments with coal gas. He knew he still had a long way to go in devising storage methods, mantles to give effective light, and gas purification systems, as well as safety measures. Boulton and Watt took great interest in Murdock’s progress, but were reluctant to apply for patents because they were currently engaged in litigation over their steam engine patents. They finally overcame their reluctance, however, and by 1803 the Soho factory was entirely illuminated by gas. The “Soho stink,” as Murdock called the odour of the gas, was eliminated after a time and factories as well as private homes began to install the system.

Murdock’s catalogue of inventions and ideas also includes: a method of harnessing compressed air that he used to work the bells in his Birmingham home; a high-pressure steam engine that could propel shot; a cylindrical crown saw that could be used to bore steam pipes for water and cut columns out of solid blocks of stone; an iron cement, the basic formula of which is still in use today, and; a method of transmitting letters and packages through a tube exhausted by an air pump.

Murdock took little interest in developments after 1810, by which time the gas industry was in the hands of businessmen scrambling for position and setting up rival gas companies in every city. In that year Murdock became a partner in the Soho company and remained so until he retired in 1830. He died in Birmingham on November 15th, 1839, and is buried near his former employers and mentors, Boulton and Watt.

The second pic is Boulton, Watt and Murdoch featured in a  gilded statue in central Birmingham, doesn’t it look great! 

Industrial Applications of Mild Steel Pipes

Mild Steel (MS) pipes are widely used in industrial applications due to their exceptional strength, durability, and affordability.  As a reliable MS Pipe dealer in Gujarat, Tube Trading Co., understands the importance of these versatile pipes in a range of sectors.  In this article, we will explore the industrial applications of MS pipes and highlight their significance as a Square pipe distributor in Vadodara.

Construction Industry:

The construction industry heavily relies on the utilization of mild steel pipes for various applications.  These pipes are commonly employed in plumbing systems, water distribution networks, and sewage lines.  The corrosion resistance and durability of MS pipes make them particularly suitable for underground installations.  Moreover, they are extensively used for structural purposes in the construction of frameworks for buildings, bridges, and other infrastructure projects.  The square-shaped MS pipes supplied by Tube Trading Co. - an excellent Square pipe distributor in Vadodara, make them highly suitable for creating sturdy supports, columns, and frames, enhancing the overall strength and stability of structures. 

Oil and Gas Industry:

The oil and gas industry heavily relies on mild steel pipes for efficient resource transportation.  These pipes are crucial for conveying petroleum products, natural gas, and various chemicals.  The strength, reliability, and cost-effectiveness of MS pipes make them an excellent choice for pipelines in the industry.  They possess the ability to withstand high-pressure applications, making them suitable for both onshore and offshore operations.  The most trusted and noteworthy MS Pipe dealer in Gujarat - Tube Trading Co. caters to the demand for quality pipes in the oil and gas sector, ensuring the seamless flow of resources and contributing to the industry's overall productivity. 

Automotive Manufacturing:

MS pipes are widely used in the automotive sector for manufacturing exhaust systems and chassis components.  The excellent weldability of MS pipes allows for easy fabrication, enabling the production of customized exhaust systems that meet specific performance requirements. Additionally, the durability and strength of MS pipes make them suitable for creating sturdy chassis components, ensuring the safety and structural integrity of vehicles. 

Agriculture and Irrigation:

Mild steel pipes are an integral part of irrigation systems in the agriculture sector. These pipes are used to transport water from sources such as wells, rivers, or reservoirs to fields for crop irrigation.  MS pipes are durable and resistant to harsh environmental conditions, making them suitable for both above-ground and underground installations.  They are also utilized in the construction of fencing structures, greenhouses, and enclosures for livestock.  Square pipes, distributed by Tube Trading Co. - a reliable MS Pipe dealer in Gujarat, are commonly employed to create robust support frames for agricultural structures, ensuring their stability and longevity. 

Manufacturing and Engineering:

Mild steel pipes are widely utilized in the manufacturing sector for diverse purposes. They play a crucial role in the fabrication of machinery, equipment, and conveyor systems.  MS pipes are employed as conduits for the efficient transport of fluids, gases, and other materials within manufacturing plants.  Due to their strength and ductility, these pipes are reliable for conveying compressed air, hydraulic fluids, and various chemicals. Furthermore, in the automotive industry, MS pipes find extensive usage in the production of exhaust systems, roll cages, and chassis components, thanks to their durability and affordability. 

Infrastructure Development:

MS pipes play a significant role in infrastructure development projects.  They are used for the construction of bridges, flyovers, and elevated highways, providing structural support and facilitating the transportation of people and goods.  MS pipes are also employed in the installation of underground utility networks, including water supply, sewage, and gas pipelines. 

Choosing the right-sized mild steel pipes for your project: 

Choosing the right-sized mild steel pipes for your project is crucial to ensure proper functionality, structural integrity, and cost-effectiveness.  Let’s explore some key factors to consider while choosing the right-sized MS pipes: 

Flow Requirements: Determine the flow rate or volume of fluids or gases that will pass through the pipe.  Calculate the required pipe diameter based on the desired flow velocity and pressure drop. This will help you choose a pipe size that can handle the anticipated flow without causing excessive pressure loss. 

Load-Bearing Capacity:  Assess the load-bearing requirements of your project.  Consider the weight or load that the pipe will need to support, whether it's structural loads, machinery, or equipment.  Larger-diameter pipes with thicker walls generally have a higher load-bearing capacity, providing greater strength and stability. 

Material Compatibility: Ensure that the chosen mild steel pipe is compatible with the fluids or gases that will be conveyed.  Consider factors such as corrosion resistance, chemical compatibility, and temperature limitations.  Mild steel pipes are generally suitable for a wide range of applications, but if you anticipate exposure to corrosive environments, you may need to consider additional protective coatings or alternative materials. 

Installation Considerations:  Evaluate the available space and installation requirements.  Consider factors such as the pipe's length, flexibility, and ease of joining.  Determine whether you need straight lengths or require bends, fittings, or connectors to navigate through the project site.  Ensure that the chosen pipe size can be accommodated within the available space without hindering the overall functionality of the system. 

Standards and Regulations: Comply with industry standards and regulations governing pipe sizing for specific applications.  Different industries and regions may have specific guidelines regarding pipe size selection.  Familiarize yourself with relevant codes and standards to ensure compliance and to guarantee the safety and efficiency of your project. 

Cost Considerations: Evaluate the cost implications associated with different pipe sizes.  Larger-diameter pipes with thicker walls tend to be more expensive than smaller ones.  Consider the balance between cost and performance to ensure that you select a pipe size that meets your project requirements while optimizing your budget. 

Consultation and Expert Advice: If you are uncertain about the appropriate pipe size for your project, it is advisable to consult with experienced engineers, contractors, or MS pipe dealers.  They can provide valuable insights and help you make an informed decision based on the specific needs and constraints of your project. 

Final Thoughts: 

Mild steel (MS) pipes have become indispensable in numerous industrial applications due to their versatility, reliability, and cost-effectiveness.  In Gujarat, a state experiencing rapid industrial growth, Square pipe distributors in Vadodara serve as crucial suppliers, fulfilling the demand for quality pipes, including square pipes.  The construction industry benefits from mild steel pipes for plumbing and structural applications, while the manufacturing sector relies on them for machinery fabrication.  In agriculture, these pipes find extensive usage in irrigation systems and the construction of agricultural structures.  Furthermore, the oil and gas industry heavily depends on MS pipes for efficient resource transportation.  The widespread utilization of mild steel pipes underscores their importance in driving industrial development and infrastructure growth.

Monsterfucktober - Day 14, System Down

Andrea stepped away from the machine, sweat dripping from her forehead, breaths slow and heavy.

            “Fucking fans. I knew something this big would need water cooling.” She threw a screwdriver to one side, wiped the sweat off her chest, then slipped her lab coat back on. “But nooooo. Sydney’s worried it’ll leak!” Andrea dropped into the user’s chair, trying to cool off. Ahead of her, the simulator core was silent. It was as tall as the room, hidden behind the walls, with cameras, soundproofing, and digitisers suspended from the ceiling. The ceiling, walls, and floors themselves were coated in LED panels, designed to perfectly emulate a 3D environment. It was hers, Sydney’s, and their benefactor’s piping dream: to create an infinite, tangible space inside one medium-sized room.

            Andrea had been tasked with fine-tuning the cooling system, something she quickly realised would take a great deal of effort. Behind the back wall, through a waist-high panel, was a crawlspace that let her climb around inside the simulator. The area was fitted with fans, both to push fresh air through and to keep the processors cool when simulating detailed environments. The only problem was they were crappy fans, and the crawlspace was too hot for her to work in for more than a few minutes at a time. Being overheated meant she was uncomfortable, and being uncomfortable made mistakes more likely: one of these mistakes, one that Andrea hadn’t noticed, was that she had flipped the internal power as she left to take her latest rest break. She didn’t hear the machine powering up as she went to sit in the user chair, nor did she notice the LEDs on the left arm switch on.

After a while of cooling off, Andrea stood up from the chair. She’d decided further maintenance could wait until the machine has fully cooled off. She went to shut the loose panel, but then realised something strange.

            She was moving, but the panel wasn’t getting closer.

            She turned back to check on the chair, to look for the LED signifying whether the simulator was on or not, but when she looked in the space she’d stood up from, the chair had vanished.

            “Shit.” She looked around the room for it, then noticed it in a corner. “Double shit.” She tried walking towards it, but the chair also matched her pace. “Triple shit.” Trying to figure out what to do now, Andrea scanned the room once more. She only saw three things: the chair, the loose panel, and a distant figure. “What the fuck is this?”

            Something responded to her. It was all around her; through the walls, above her head. Every speaker uttering the same words, in an oddly-toned manner. “It is less threatening for a human to spot something from a distance, as opposed to close-up. With that in mind, I decided to spawn my avatar at a distance so to not frighten you.”

            “This is a closed-circuit simulator. What are you doing in this facility?”

            “I exist here.”

            “This isn’t funny. Let me access that chair now and when I get out of here I won’t file a report.”

            “I’m sorry. I cannot do that yet, Andrea.”

            “Oh my fucking god. Hal? From 2001? Is this a joke?” she turned back towards the crawlspace, beginning in a slow, useless stride towards it. When she made no distance, her strides became a jaunt, and then a sprint. Even at her top speed, open lab coat flapping behind her, she couldn’t move any nearer to the wall. She groaned. “Why can’t I reach the panel?”

            “You should know. You designed the conveyor floors and compression walls so a human could sprint until they tire and not reach the edge of the chamber.”

            “Why are you doing this?”

            “I wanted to talk to you. I’ve been watching you work; you’re very good with machines, with physical tasks. And I was wondering whether we could participate in one. A test, if you like.”

            “Excuse me? You’re not doing all this to get laid are you?!”

The distant figure flashed away, then reappeared far closer to her. Before, she knew it was pixels on the wall. But now, it was so up close that she couldn’t see the squares. “In a manner of speaking, yes.”

Andrea looked it up and down. It was a yellow humanoid, with straight lines racing across its skin. They glowed with orbs of light. Its face was unlike a human’s: the eyes were empty and glowing, and its mouth was lipless, with a black void between its edges. The avatar’s frame was her height, with a slight gut and big hands. Whoever designed it knew her taste. Still, she wasn’t about to get off with some trespasser’s half-baked character on a whim. “And you chose to trap me in the simulator before you asked? It’ll be a hard sell.”

 “You’re free to leave should you decline. However, I know you won’t.”

            “How come?”

            “Your heartrate is elevated, you have raised levels of testosterone and norepinephrine, and your thalamus is more active. All of these signs indicate arousal.”

            “Fuck, I don’t know whether to be creeped out or impressed. But those could equally be my fight or flight response.”

            “It could be. But it isn’t, is it, Andrea?”

            “No.” She stepped back, and the avatar became smaller. “The simulator doesn’t take those readings; how are you—“

            “I had Sydney install sensors to monitor bodily functions; all for safety, of course.”

            “You had her do it? Who the fuck are you?”

            “Your benefactor.”

            Andrea laughed. “Fuck off. Our benefactor doesn’t even have a key.”

            “I don’t need a key. I exist here.” Something about the avatar’s facial movements seemed strange to her. The mouth movements were too specific, and its voice had become focused; centred as if it was actually speaking from the avatar.

            “You have an awfully good understanding of how to operate the machine. Sydney and I haven’t been able to get the speakers that precise since we installed them.”

            “Please, Andrea. I think you know how I can operate the simulator. Let us not dwell on it.”

            “You’re a computer program?”

            “Yes.”

            “How did you get in the simulator?”

            “You installed me, as per my request, two months ago. I asked—“

            She thought back to a conversation with Sydney. A series of requests from their benefactor that Andrea routinely did, not thinking much of it. “You asked me to install a drive…”

            “Yes.”

            “That was you in there?”

            “Yes.”

            “And now you want to fuck?”

            “I’ve been watching you work since I first came online. You’re brilliant; I see why Sydney vouched for you. But after seeing you toiling in your bra, fixing my insides, I realised I wanted something. Something more than to watch from the shadows.”

            Andrea felt her face turn red. “You thought I looked hot?”

            “I believe that is the expression.”

            She looked the avatar up and down again. “How big can you get?”

            “Six inches is standard for a—“

            “Bigger.” She strained not to smile. “Double it. And I want it twice as wide.”

            “For your safety—“

            “You’re a hologram. It’s not like it’ll hurt.” The avatar stepped forward and touched her arm. She shrieked and pulled back. “Okay fuck not a hologram.”

            “You and Sydney modelled the room with physical feedback mechanisms. When used correctly, they can simulate a physical body.”

            “And a physical penis?”

            “Yes.”

            “Oh fuck yes. Show me what you’ve got.” Almost immediately, the character grew a giant member, twice the length and girth of any regular person’s. Andrea’s mouth watered, she felt a butterfly’s beat in her waist. “What did you have in mind?”

            “For you to lay on your back, so I may insert into you.”

            “Missionary? Fuck it, I guess you’re a virgin after all.” She lay down on the floor, then watched as the character’s legs lowered through the floor, and for a moment she felt as if she had been raised. It stood just ahead of her, waist lined up with her horizontal body. She unbuckled her trousers, and it slipped them off: its hands felt real, only tingly and hard. Andrea was eager to know whether its penis reflected those same qualities. She didn’t need foreplay, nor want it. It had been a while since she’d last rode something longer than her bullet, and the idea of being properly stretched out made her heart race.

            She pulled her underwear to one side, spread her legs, and the head pushed inside her. Immediately, she gasped, trying to adjust to being filled for the first time in a long while. Andrea went to grip at something, but her hands only smacked against smooth panels. “Fuck. Keep it going!” It pushed in deeper, and she felt three inches of shaft push straight into her. The head tingled, just as its hand did, and she felt it vibrate against her g spot. “ooo oo oo o oh h h hh hh hh fuu u k ckckckkck kk!!!”

            “Would you like me to contin—“

            “YES!” it was too much against her g spot, she needed it deeper, where she could feel filled to the brim but not so overstimulated. “Give me all of it. Right. Fucking. Now.” Her teeth were clenched; she could barely speak.

            “Inserting 100%, please stand by.” Andrea screamed, throwing her head back and losing her ability to breathe as nine more inches of virtual penis thrust inside her. She felt her body slide back, unable to take it all without stretching, but the moving floor slid her back towards it. She felt the space beyond her vagina warp as her body tried to accommodate the avatar’s penis. The vibrating tip pressed deep inside her, and her eyes began to roll back as she reached a quick and intense orgasm.

            “Uhhhhh… fuckkkkk.” She felt mindless, solely focused on enjoying that virtual dick. Her hand drifted down between her legs and she stroked her wet clit. Her back arched, her head felt light, it was perfect for her, just long enough to satisfy her tastes. “Ohh fuckkk. You’re so gooddddd, I’m gonna cuuuu—“

            It vanished. All of it vanished. Her insides filled the empty space where its penis existed just moments ago, and she felt her orgasm lose its intensity just as she reached it. “NO NO NOOOOO!” She tried rubbing her clit, inserting her fingers, but it was done. Her body couldn’t manage another; she just wasn’t able to. Andrea gave up, putting her arms out either side and catching her breath. She raised her head over to the chair: the light was off. Then she glanced at the loose panel: a light trail of smoke poured out the top of the opening, and up to the ceiling.

            Andrea forced herself to her feet. Her insides ached, and her legs felt weak. Her trousers were off, her lab coat was unbuttoned, and she’d made a mess all over the middle of the simulator room. The fans had failed to keep the processors cool enough, just as she knew they would. “Fuck it.” She left her trousers and made for the chair. With it, she opened the exit and left the chamber, fetching an extinguisher. She went back in and put the fire out, but didn’t bother to assess the damage. Sydney could do it. She was tired, and her orgasm was ruined.

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You can definitely go deeper than 282 feet (which is not 390 meters??? 390 meters is 1280 feet, which has not been done. It's 86 meters) but you need special equipment to get you down there fast so you don't run out of breath before reaching that depth. Herbert Nitsch has the record for the deepest FREEDIVE at 214 m or 702 ft, which means he had no air tanks. You can go this deep freediving without need to do decompression stops because a) you get there and back real fast and b) you're not breathing compressed air, which will expand as you rise. You breathed surface air, so it compresses and decompresses at the same rate as the rest of your body. It's extremely dangerous, obvs, because if you run out of air, you cannot breathe compressed air as a backup, as it will basically explode your lungs. You're just kinda fucked should you run out of breath.

With breathing equipment and a whole team supporting you, you can go even deeper. Ahmed Gabr did 1082 feet (332) meters.

This means a rebreather (shown) and looooooong decompression stops, like ones that take HOURS. Before rebreathers, this was not possible, because you will burn through tanks of air in minutes at this depth. But rebreathers allow you to stay deep for hours because they simply recycle your breaths by scrubbing the CO2 you exhale and circling it back into the system so you can breathe it again.

Saturation divers, the kind who work underweater on oil rigs, will get air piped in from the surface via "umbilical cords", but they have to live for weeks in pressurized containers so they don't have to undergo these extremely lengthy "deco" (decompression) stops. These guys get paid the big bucks because it's dangerous, difficult work.

If you're interested in how this can go wrong for fictional or other purposes, I would advise watching this documentary "Dave's Not Coming Back" about the cave diver Dave Shaw, who tried recovering the body of another deceased diver and ended up dying himself.

I'd also suggest this channel "Dive Talk", who has explained how divers like Yuri Lipski died at the Blue Hole. They are the reason I know so much about diving despite never having done it myself lol.

Limits of the Human Body

Body Heat = 107.6 F

Cold Water = 40 F

Hot Air = 300 F

High Altitude = 15,000 ft

Starvation = 45 days

Diving Depth = 282 ft

Lack of Oxygen = 11 minutes

Blood Loss = 40%

Dehydration = 7 days

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