Understanding Water Softeners and the Role of Water Flow Measurement Devices

Water. It's essential to life, and we interact with it daily, whether it's drinking a cold glass of water on a hot day or taking a warm bath. But have you ever stopped to think about the quality of water you're using? Or how water flow measurement devices play a pivotal role in enhancing your water experience? 

In this blog post, we’ll explore two seemingly unrelated topics: water softeners and water flow measurement devices. Ready to embark on a wet and wild adventure? If that’s so, let’s get started.

A Quick Glance at Hard Water Issues

Water, on the surface, seems so simple, so clear, and so basic. Yet, it's anything but. Often, it carries with it tiny passengers: minerals. These minerals, mainly calcium and magnesium, give the water a 'hard' quality. And while the term "hard water" sounds tough, the reality is a bit more problematic than the name suggests.

In households with hard water, you might have noticed white deposits around taps or on your showerhead. This is the residue left behind by these minerals. Not only is it unsightly, but it can also clog pipes and damage appliances over time. Imagine a river slowly carving a canyon: it's a bit like that, but inside your plumbing.

And here's a fun fact: Hard water can be sneakily expensive. How? Well, it reduces the efficiency of your water heater, leading to increased energy bills. 

Now, to combat these challenges, it’s essential to determine the hardness level of your water. This is where water flow measurement devices play a pivotal role. By gauging the water's flow and the subsequent readings, these devices can provide data on mineral concentration, offering you insight into your water's exact condition.

Enter the Water Softener: A Saviour for Your Home

So, we've determined hard water is a bit of a troublemaker. But what’s the solution? Enter the water softener, the superhero your household needs.

These ingenious devices work by a process called ion exchange. In layman’s terms, they take the ‘hard’ out of the water, literally. They replace the minerals making your water hard with sodium ions, rendering the water soft.

Now, imagine you’re baking and you add an ingredient based on the weight of the dough. The water softener similarly treats water based on its flow. And how does it achieve this precision? You got it: with the invaluable help of water flow management. 

These devices ensure that the softener gets an accurate reading of how much water is flowing through, so it can adjust its softening process accordingly. Think of it as the perfect partnership, where one cannot function at its best without the other.

The Connection: Water Flow Measurement Devices at Play

When we talk about the dynamic duo of water softeners and water flow measurement devices, it’s like talking about a classic partnership in a movie. One is the action hero (water softener) making significant changes, and the other (water flow measurement device) is the strategist, ensuring everything is timed to perfection.

Water softeners need to know when to regenerate. If they do it too soon, it's a waste of resources, and if they do it too late, you're stuck with hard water. Water flow measurement devices act as a reliable gauge, informing the softener of the amount of water processed. By keeping tabs on this, they ensure that the softener does its job just when needed.

This partnership is especially crucial in households with fluctuating water usage. Some days you might have guests, leading to increased water use, while on others, it might just be a regular day. 

Water flow measurement devices help the softener adjust to these changing needs, ensuring consistent water quality regardless of the consumption rate. It’s a dance of precision and responsiveness, creating a harmonious water experience for the user.

Benefits of Softened Water

Softened water is like the unsung hero you never knew you needed until you experience its myriad of benefits. First and foremost, those unpleasant white marks around your taps? A thing of the past. Softened water doesn't leave the mineral deposits that are the hallmark of hard water.

Furthermore, when you use soft water, appliances such as dishwashers, washing machines, and water heaters perform better and have a longer life span. Think of it this way: if hard water was like running a marathon with a backpack full of bricks, soft water is sprinting freely with the wind in your hair.

And let’s talk about personal benefits. Soft water can transform your bathing experience. Hair feels silkier, and the skin is more moisturized. Those with sensitive skin might even notice fewer irritations. 

Plus, if you've ever felt that your soap doesn't lather as much as it should, switching to soft water can make all the difference. With all these benefits, the tandem work of water softeners and water flow measurement devices shines even brighter.

Taking Care of Your Water Softener System

Everything that serves us well deserves a little care in return, right? Your water softener system is no different. Ensuring its longevity and efficiency is pivotal to continuously reaping the benefits of soft water.

First, the brine tank (where salt is stored) needs occasional checking. Over time, a crust might form, which can prevent the system from softening water effectively. Periodically breaking up this crust ensures smooth operation.

Next, the type of salt you use can make a difference. While most salts work fine, some are specifically designed for water softeners, reducing potential build-up. It's like giving premium fuel to your car.

But how do you know when maintenance is due? Here’s where water flow measurement devices make another appearance. By monitoring the amount of water processed and the efficiency of the system, these devices can hint when it’s time for a check-up or salt refill. They're essentially the guardians of your softening system, ensuring it runs without a hitch.

The Big Question: Do You Need a Water Softener?

Deciding to invest in a water softener is much like deciding to buy a new appliance. There are obvious benefits, but do you genuinely need it? 

If you're frequently battling with stubborn soap scum, witnessing scale build-up on appliances, or just tired of the lackluster feel of your hair and skin post-shower, a water softener could be your savior. For more details visit us at https://www.nemfg.com/.

An excellent way to make an informed decision is by assessing the hardness of your water. Many water testing kits are available on the market, or you can also get a professional assessment.

And let's not forget our trusty water flow measurement devices. They can give you an insight into your daily water consumption, helping you choose a softener that aligns perfectly with your household’s needs. By understanding the flow and quality of your water, you can tailor your water solutions for the ultimate user experience.

Conclusion

Water is an essential part of our daily lives, and its quality directly impacts our well-being. While water softeners play a pivotal role in improving water quality, water flow measurement devices ensure they function optimally. So next time you enjoy that perfect shower or sip on a refreshing glass of water, remember the intricate dance between these devices that made it all possible.

Read More:

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The Importance of Water Management and Its Transformation

The importance of stormwater management in engineering

Some Science Vocabulary

for your next poem/story

Word — Science Meaning; Public Meaning

Bank - land alongside a river/lake; a place where people store money

Bar - unit of measure of atmospheric pressure; place to drink alcoholic beverages

Belt - collection of asteroids in a disc shape; materials worn around waist to support clothes

Bonding - electrostatic attraction between atoms; making an emotional connection

Charge - force experienced by matter when in an electromagnetic field; demand a price for rendered goods/services

Code - software/computer language; encrypted message

Crust - outermost layer of planet; edge of pizza/pie

Current - water or air moving in a direction; belonging to the present time

Cycling - flow of nutrients or elements; riding a bicycle

Dating - determining age of site/artifact; initial stage of romantic relationship

Driver - influential factor; someone who drives a vehicle

Dwarf - celestial body resembling small planet; characters from Snow White

Fault - fracture in a rock with movement; responsible for accident/misfortune

Fetch - distance traveled by wind/waves over water; go far and then bring back something/someone

Force - strength/energy of action/movement; make someone do something against their will

Grade - gradient/slope; level of proficiency

Hertz - the SI unit of frequency; rental car company

Jet - gas stream ejected from an accretion disk surrounding star; an aircraft powered by jet engines

Mantle - planet layer between crust and core; important role passed from person to person

Matter - physical substance in general; be of importance, have significance

Model - computer simulation; promotes fashion/product

Mole - SI unit used to measure amount of something; small rodent-like mammal

Plastic - substance that is easily shaped/molded; synthetic material

Pressure - force per unit area that gas/liquid/solid exerts on another; use of persuasion to make someone do something

Productive - creating organic matter through photo/chemosynthesis; busy and efficient

Sample - to take a sample for analysis; a small part of something

Scale - system of marks used for measuring; device used for measuring weight

Shear - difference in wind speed/direction; cut wool off of

Shelf - a submarine bank; a surface for displaying/storing objects

Stress - pressure/tension exerted on a material object; mental/emotional strain

Submarine - existing/occurring under the sea surface; a ship that stays submerged under water for extended periods

Surf - line of foam on seashore from breaking waves; riding a surfboard

Swell - sea movement in rolling waves that do not break; to become larger in size (e.g. a body part)

Source ⚜ More: Word Lists

Quick sketch for Piers’ bionic arm.

Design Features

•Aesthetics: Streamlined, ergonomic design with a minimalist look, often featuring a matte or metallic finish.

•Materials: Lightweight composites like carbon fiber and titanium, providing durability without sacrificing mobility.

•Color Options: Customizable colors or finishes, including options for skin-like textures or futuristic metallics.

Technology

•Actuation: Advanced motors and actuators that enable precise, fluid movement mimicking natural limb motion.

•Sensors: Integrated sensors (e.g., myoelectric sensors) to detect muscle signals for intuitive control and movement.

•Feedback Systems: Haptic feedback mechanisms to provide users with sensory information about grip strength and object texture.

Safety and Durability

•Water and Dust Resistance: High IP ratings to protect against environmental factors.

•Emergency Features: Manual override systems or fail-safes in case of technology malfunction.

Advanced Technological Interface

•Integrated Biosensors: Built-in biosensors that can analyze blood or interstitial fluid samples to measure viral load in real time.

•Data Analytics: Utilizes algorithms to process biosensor data, providing insights on viral dynamics and trends.

•Alerts and Notifications: Real-time alerts sent to the user or healthcare provider when viral load exceeds predetermined thresholds.

•Communication System: Integrated with a communicator on the wrist, the arm serves as a reliable device for maintaining contact with his team. This system includes encrypted channels for secure communication during high-stakes operations.

•Objective Management Display: The arm features a holographic display that provides a detailed version of the communicator’s data, allowing Piers to view mission objectives and tactical data in real-time. This feature minimizes the need for external devices and keeps critical information accessible.

Augmented Reality (AR) Compatibility

•Enhanced Visualization: The arm’s display projects augmented reality overlays, allowing Piers to see additional information, such as enemy positions, weapon stats, or tactical directions, directly in his line of sight.

•Environmental Scanning: The arm can analyze the surroundings for potential threats, detect biological or chemical hazards, and provide alerts for safer navigation through hostile environments.

Electricity Conduction and Control

•Energy Conduit Design: The bionic arm acts as a conductor for the constant electrical energy generated by Piers’ mutation. It includes specialized channels and circuits designed to manage this energy flow, allowing Piers to use his mutation’s electrical pulse without it spiraling out of control.

•Dielectric Structures: The arm’s design incorporates materials that mimic the dielectric properties of his mutated tissue, particularly in the finger joints and bones. These dielectric components help regulate and contain the high voltage his body produces, diffusing excess energy safely throughout the arm.

•Controlled Release Mechanism: To avoid overload, the arm features a controlled release system that allows Piers to release pulses of energy strategically, whether in combat or to alleviate the internal buildup. This system prevents the arm from overheating or sustaining damage from prolonged electrical activity.

Containment and Compression of the Mutation

•Compression Framework: The prosthetic was specially designed by UMBRELLA engineers to act as a containment “net” around his mutation. It includes a flexible, reinforced framework that compresses the mutated tissue, keeping it in check and preventing further growth or erratic shifts in form.

•Adaptive Pressure System: As the mutation strains against the arm, sensors detect any changes in size or energy output, triggering adaptive responses. The arm tightens or loosens as necessary to hold the mutation back, functioning almost like a high-tech brace that adjusts in real-time to maintain Piers’ arm in a stable form.

•Automatic Safety Lock: In the event of a significant spike in mutation activity or electrical output, the arm engages an emergency lock to keep the mutation from expanding. This feature is a safeguard against sudden bursts of energy that could cause the arm to revert to its mutated state.

Dependency and Risks of Removal

•Rapid Mutation Onset: Without the prosthetic in place, Piers’ arm begins to mutate almost immediately, returning to its original, unstable form. The electrical pulse that his body generates becomes unrestrained, emitting a continuous, breath-like rhythm that is both painful and dangerous, with energy leaking through protruding bones and exposed tissue.

•Uncontrollable Pulse: When uncontained, the electrical pulse from his mutation surges in intensity, lacking any natural “closure” or stopping point. This pulse causes rapid fluctuations in his vital signs and risks systemic overload, leading to loss of control over his mutation and putting him at severe physical risk.

Miscellaneous Details

•The arm has a unique serial code engraved on an inner plate, serving as an identifier for UMBRELLA technicians. This code also links to Piers’ personal health records, mutation data, and arm specifications for quick access during maintenance or in emergencies.

•Due to the intense electrical pulses generated by his mutation, the arm is equipped with an internal cooling system. Micro-fans and heat-dissipating channels prevent overheating during extended use, keeping the arm at a safe, comfortable temperature. If the arm overheats, an internal alarm alerts Piers to prevent any potential damage.

•The outer layer is treated with a UV-resistant coating to protect it from environmental damage and exposure. This ensures that prolonged exposure to sunlight or harsh conditions doesn’t wear down the arm’s exterior, making it more durable in diverse climates and situations.

•Designed for various operational environments, the arm is fully waterproof and corrosion-resistant. It functions normally underwater, which is crucial for aquatic missions or when exposed to rain, mud, or corrosive substances.

•The holographic display can be customized to show additional details, such as weather, GPS navigation, or tactical maps. Piers can also set personal preferences, like color schemes or alert tones, for a more intuitive user experience. This flexibility lets him prioritize the information he finds most critical during missions.

•The communicator has an onboard language translator, enabling Piers to communicate with individuals across different languages. The arm’s display shows translated text, and a subtle earpiece can even relay audio translations, making it easier for him to gather intel and negotiate in multilingual environments.

Research abounds at the International Space Station

At the International Space station, researchers are making strides in everything from Earth science to chemical properties. Here's what they're up to and why it matters.

Recently, researchers have found that eddies, or swirling wind patterns, increased moisture evaporation in an alfalfa field. A better understanding of the complex exchange of water and heat between the ground and atmosphere could improve remote sensing products and their use in agricultural water management.

The station's ECOSTRESS instrument takes high-resolution thermal infrared measurements of Earth's surface that provide data on changes in water availability, vegetation water stress, and agricultural water use. Researchers use observations from the USGS Landsat 8 and 9 satellites and ECOSTRESS to validate climate models and update data on Earth's surface energy (the amount of energy absorbed from the sun and radiated back into the atmosphere).

Properties of flow boiling

Researchers have identified various properties for flow boiling using n-perfleurohexane, a fluid used to cool electronics. A better understanding of this process can improve models for designing thermal cooling systems used in the electronics, energy, aerospace, and other industries.

Flow boiling, a method of thermal management, uses the heat generated by a device to boil a liquid, generating vapor bubbles that lift the heat from the surface. The Flow Boiling and Condensation Experiment (FBCE) tested a flow boiling method in microgravity, where the process is less efficient; in the absence of buoyancy, bubbles grow larger and remain near the surface.

A new radiation-resistant polymer

Researchers successfully manufactured a polymer of rare metals and other elements that showed high radiation resistance and has a suitable size and weight for use in space. This result provides knowledge that can support development of improved shielding for future spacecraft and extraterrestrial habitats.

The Roscosmos investigation Shielding Composite tested the absorbed radiation dose of two polymers during 225 days on the space station using monthly monitoring by the Pille-ISS investigation. The data showed that the material has high and stable radiation shielding characteristics. Protecting crew members and equipment from radiation is an important requirement for future long-duration space missions.

TOP IMAGE: The ECOSTRESS instrument on the International Space Station. Credit: NASA

CENTRE IMAGE: ECOSTRESS data shows evaporative stress in agricultural fields in California’s San Joaquin Valley. Credit: NASA

LOWER IMAGE: NASA astronauts Mark Vande Hei and Kayla Barron set up for the Flow Boiling and Condensation Experiment. Credit: NASA

Tea Pet or Tea Lover's Pet (simplified Chinese: 茶宠; traditional Chinese: 茶寵; pinyin: cháchǒng), also known as Chachong, is a small pottery figure which is kept by some tea drinkers for good luck.[1] They are usually made of "zisha" or Yixing clay, from the region near Yixing in Jiangsu province, China. Similar to Yixing teapots made from the same clay, tea pets are unglazed, and are mostly monochromatic with a rough surface.[2]

A tea pet is typically placed on a tea tray and has tea poured over it during tea time. Due to the tea pet not being glazed, the figurine absorbs some of the tea, resulting in the tea pet changing color over time, as well as building up a tea scent.

One of the most popular models for the tea pet is the "pee-pee boy", which, when first soaked in cold water and then showered with hot water, will squirt out the water it previously absorbed.

The main feature of the "pee-pee boy" is the ability to squirt water when hot water is poured onto it. To do this, the tea pet, which is hollow, is immersed in cold water until it is filled up, and is shaken to ensure it is halfway filled with water; after this, hot water poured over the "pee-pee boy" will make it "pee" if the water is hot enough. The hotter the water, the farther it "pees".

The principle behind the "pee-pee boy" is thermal expansion of air. It is designed to be hollow with only one tiny opening, so that water can flow into the "pee-pee boy" at a slow pace, and will not drip out until sufficiently hot water is poured on its head. When hot water is poured over its head, the air in the "pee-pee boy" expands, resulting in the water being squeezed out through the tiny opening. Experimental and simulation results based on thermodynamics and fluid mechanics principles have verified the capability of such device to measure temperature.[3]

THE FIRST LAVA LAMP...?

The history of the lava lamp can be quite muddled and confusing to approach. From its original invention to its manufacturing and sale, who exactly “did it first” is often unclear. Two lava lamp companies, Lava Lite and Mathmos, are said to be the originators of the lava lamp, and both draw their histories back to inventor Edward Craven Walker… Who himself is disputed as the true inventor of the lava lamp.

So, what’s the real story?

Well, it starts sometime in the 1940s with a Scot by the name of Donald Dunnet, a motor engineer living in South East England. Little information is available on Dunnet, and the most helpful source on him and his inventions is his great-grandson Charlie Leverett, who along with his father and aunt have tried to piece together accurate information on Dunnet and his invention.

According to an old (unfortunately dateless) newspaper article, which the family uses as a source, the original invention came about when Felicity, Dunnet’s youngest daughter and Charlie Leverett’s grandmother, broke the family’s egg-timer, coincidentally while there was a wartime shortage of egg-timers in the UK. Dunnet, who was described as a part-time inventor, set out to build a replacement – imagining, instead of sand falling down to measure time, a controlled rising of oil to the surface of water. This “inverted egg-timer” would therefore be the very first lava lamp prototype.

It would not, however, be the last prototype created by Donald Dunnet. In December 1950, Dunnet applied for a patent granted in 1954 for “a display device using liquid bubbles in another liquid” – making no reference to time measurement, it can be assumed that at this point the invention no longer had anything to do with egg-timers and was instead meant to be an aesthetically pleasing display.

The abstract further describes the invention as “a display device [which] comprises an upper layer of liquid 2 and a lower layer of liquid 3 in a transparent container 1, the two liquids being non-miscible and the upper layer being of lower specific gravity than the lower layer and means 9 for heating the lower layer so that it rises through the upper layer in the form of liquid bubbles […], the bubbles being cooled by the upper layer so that they return to the lower layer.”

Further technical detail is added, but with this initial description, you may already have recognized the basic workings of a lava lamp: wax or oil heated by a light bulb at the bottom of the lamp bubbles up through the fluid filling the container (typically water); the bubbles cool down as they reach the top of the lamp and fall back to the bottom, creating a continuous flow of 'lava'.

While there are no other patents I could find for further iterations on this invention, Dunnet continued to improve on his design. The family was able to find one picture of various models created by Dunnet: one resembles a large glass jug, one a long-necked, bulbous bottle, and three resemble lanterns (interestingly, lantern designs would later be sold by both Lava Lite and Crestworth). The picture is dated "Easter 1960".

Dunnet was even featured on “The BBC Inventors Club” (date of broadcast unknown) for another of his inventions, seemingly his “cleaner for flat surfaces” patented in 1955, pictured here:

According to Dunnet’s grandson, in the 1960s, the family still owned and used one of Dunnet’s lamps, which he says “worked really well and was well developed, quite far removed from his original ‘egg timer’ based design”. He further describes this lamp as using “a Grant’s whiskey bottle with Red lava”. He also declared his intention to create a replica of this prototype based on his memories of it, but it seems pictures of such a replica never materialized.

Sadly, Donald Dunnet passed away sometime between 1960 and 1964, and would never market his invention himself. According to his grandson, his widow had his workshop completely cleared after his death, and no surviving prototypes remain. Still – thanks to newspaper articles, family testimony, the 1950s patent, and the surviving photographs of Donald Dunnet and his inventions, it seems clear that he was the true original inventor of the lava lamp, though not the one who would come to market it to the public.

Unfortunately, Dunnet seems to have been widely forgotten from lava lamp history, with many sources not mentioning him at all, and only his initial egg-timer prototype being briefly credited as inspiring Edward Craven Walker in other sources. It seems Dunnet’s family passed on his story through generations and often spoke of his invention as being stolen, though his granddaughter Linda Leverett is “not sure what really happened”, and the family primarily expresses wishing that he was better known and recognized for his creations. You can take a look at various other patents held by Dunnet here.

So then, who is this Edward Craven Walker we keep hearing about?

Edward Craven Walker (1918-2000) was a British inventor, now known as the creator of the lava lamp. In 1963, Craven Walker found himself at the Queen’s Head pub in Dorset, England. There, he spotted a “blob light” on the bar, described as “a glass cocktail shaker full of oil and water with a light bulb beneath”. This was one iteration of Dunnet’s invention – already no longer an egg-timer as is often claimed, but instead a decorative item.

Craven Walker, learning that Dunnet had died, decided to take on the further development of the lamp himself. He hired British inventor David George Smith to further develop the device. In 1964, Smith applied for a patent assigned to Craven Walker’s company ‘Crestworth Limited’ and granted in 1968, for “a display device comprising a container having two substances therein, with one of the substances being of a heavier specific gravity and immiscible with the other substance […] and when heat is applied to the container, the first substance will become flowable and move about in the other substance”.

Craven Walker named this lamp the “Astro Lamp”, and this model was sold by Crestworth starting in 1963, making it the first commercial lava lamp.

The Crestworth Astro and its variations (such as the Astro Mini) have defined the classic look of lava lamps ever since. They were greatly successful throughout the 1960s and 1970s and are now icons of the era. Crestworth would be renamed Mathmos in 1992, and Mathmos is still one of the two best-known lava lamp companies in the world.

So, what’s with Lava Lite and its claim of being “the original lava lamp company”?

In the end, it’s simply a case of international manufacturing rights. In 1965, Craven Walker sold the US manufacturing rights of his Astro Lamp to two American entrepreneurs, Adolph Wertheimer and Hy Spector, who saw the lamp at a novelty convention in Hamburg, West Germany. Wertheimer and Spector founded the Lava Manufacturing Corporation in Chicago, Illinois, and the Astro Lamp was renamed the Lava Lite and brought to the US market. In the 1970s, the rights to the Lava Lite were sold to Haggerty Enterprises, and it would be distributed by a subsidiary called Lava World International. Lava World International was later renamed Lava Lite LLC. Finally, the Lava Lamp brand was acquired by toy manufacturer Schylling in 2018. This brand, often referred to as “Lava Lite”, is the other big player in the lava lamp world. Because both Mathmos and Lava Lite originate from Craven Walker’s initial Astro Lamp, both brands still lay claim to “the original lava lamp”.

So that’s the story of the lava lamp, as best as I’ve been able to piece it together! An original invention by Donald Dunnet, developed by Edward Craven Walker, and sold in the US by Lava Lite and internationally by Mathmos. A simple but ingenious device, originally only meant as an egg-timer, which would become an icon of the 60s and the 70s, and remains popular to this day.

Did I get something wrong? Am I missing details? Do you have more information on lava lamp history? Feel free to reach out with an ask or submission!

Sources:

The History of the Astro Lamp - Designs by Donald Dunnet - FlowOfLava

The History of the Lava Lamp - Smithsonian Magazine

Donald Dunnet - Original Lava Lamps Inventor by Charlie Leverett on OozingGoo

The Mystique of the Lava Lamps - BBC

Craven Walker - The Telegraph

The Dreams of Hyacinth

Next

Nicholas North ran down the alley, diving over refuse bins and rolling under fences. He could hear the shouts of the CorpCops in pursuit. As he rounded a corner and burst out from the covered alley into a crowded street, Nick noticed it was raining. He hoped the rain would help conceal him from the CorpCops chasing him. He ducked his head down and tried to blend in with the crowd of commuters heading home.

The first time Nick stepped foot onto Hyacinth, he was surprised at the weather. The Orbital was so large that in the huge volume of air high above him there was room for the water cycle to continue. There would be clouds and then rain and then the sun of Sol would shine through the gaps in the arms, warming everyone, and the cycle would begin anew. Now though, the regular rainy days dragged him down. He was in space, on an Orbital high above the Graveyard of the Billionaires. It shouldn't be raining.

Like the locals, Nick called Mars the Graveyard of the Billionaires. Long in the past, some people with more wealth than sense back on Earth attempted to colonize the surface of Mars and remake it into a capitalist paradise.

If failed.

Tens of thousands of people died in the attempt, and in the end the billionaires were murdered in their half completed colony domes as well. These days, nobody even remembers which billionaires it was. Just that they were stupid, killed thousands, and died for it.

Nick dared to glance back into the crowds as he approached the metro. He could see the white and blue uniforms of the CorpCops looking around, their drones hovering two heads taller than they were, scanning people. They were too far back to notice him though; it looks like Nick got away this time. Selkirk would be pleased.

Nick walked with the crowd as they entered the metro station and the thronged mass of people flowed like water down the stairs and escalator to the platform. As Nick reached the turnstyle, he palmed a little handmade device and touched it to the reader. With a satisfied beep, the turnstile opened and admitted him. He didn't know whose account he was using; it cycled through tens of thousands of purloined accounts. If it was a different, random one every time the chances of getting discovered was that much lower.

Nick didn't use the emulator much anyway. He preferred to walk above ground, but sometimes you did what you had to do. Hyacinth was too large to walk from end to end unless you were out to do it just for the sake of doing it.

High Mars Orbital Hyacinth was old.

Built before humans mastered gravity, before they mastered wormhole travel, even before they launched their mighty colony ships and settled other worlds, Hyacinth was an antique. Made in the style of an O'Neil Cylinder, It was 96.5 kilometers long and 32.1 kilometers wide. The numbers weren't nice and round because Hyacinth was so old it was built using the Old Measures. Sixy Miles by Twenty Miles.

Rotating slowly to use centripetal force to borrow a feeling like gravity, Hyacinth had six arms that soared away from the "bottom." Three were habitation and three were mirrored to help reflect the sun into the Orbital and give a kind of day-night cycle. The Habitation arms kept parallel to themselves, and the mirrored arms would swing wider and narrower to direct sunlight into the Orbital. Originally powered by solar collectors and old-style fission reactors, these days Hyacinth used the same type of reactors as the Starjumpers and Colony ships, just a larger version of them.

Just to make sure, Nick rode two stops past his usual stop and got off with everyone. It was a major hub station at the 'bottom' of the arm and one or the first ones people would see when they disembarked from their ships, so it was full of people not familiar with the area, walking slowly trying to make sense of the labyrinthine metro system. That combined with the commuters in a hurry to go home, Nick was able to disappear and make his way to the surface.

Touching his emulator with the purloined identity to the exit turnstile - making sure it was the same user he used for in and out - Nick exited the metro station and looked around. Congregation Square, at the very bottom of Hyacinth. If Nick turned around, behind him would be the base the arms connected to, which houses the docking rings for ships as well as most of the large scale mechanicals for the orbital. Reactors, water and air purifiers, things like that. At the base of the arms, under full gravity, was the administration buildings and embassies, and then Congregation Square itself.

The rain had tapered off by the time Nick made it to Congregation Square and now everything was hot and moist. Doing his best to walk purposefully without looking like he was escaping something he made his way across the square to a coffee stand sitting on the edge of the square.

"Nick! What the hell are you doing down here? I only ever see you in Laurel. What are you doing in civilization?" Laughing, the coffee vendor was doing his best to express surprise at seeing Nick, but also enough familiarity with him so that he would be recognized as one of his regulars - enough to tip generously at the flattery ideally.

Nick looked around, and then at the coffee vendor. He was an old human, with dark skin and a shock of curly white hair on the top of his head. "Hey, Ambrose. Is this where I can find you when you're not in Laurel Square?"

Ambrose nodded, his hair bobbing gently. "On Mondays and Fridays yes. Tuesday and Thursday I'm in Laurel, Wednesday is my day off, and I spend the weekend in Gladiolus."

Nick smiled. "Well then, it must be kismet that we met. Let's do something special. How about a Flat White?"

"Sure thing Nick, what's your dairy today? The usual soy?"

Nick shook his head. "Nah, something special today. To commemorate a... success. Let's go with cow."

As he bustled to get the espresso ready Ambrose stopped. "You sure Nick? Real mammal dairy costs."

Nick waved his hand dismissively. "I said I'm celebrating, didn't I? Cow milk Ambrose. You know it's the only one for the best microfoam in a flat white." Nick placed two paper bills and a small plastic chit on the counter. Cash for Ambrose, the chit for the coffee.

Almost faster than they eye could follow, the money disappeared behind the counter. As Ambrose worked and the pressure built for the espresso, a group of 5 tiny steam whistles sang like a tiny calliope. Everyone who knew Ambrose's coffee cart knew the song.

Ambrose pulled the shot and then quickly blasted boiling steam through the real milk. The sound and scent of the milk was familiar and nostalgic to Nick. Beef is a vital export of Parvati, so when Nick was young he was never far from bovines, and cow's milk really is his favorite in Coffee. The price on Hyacinth normally stops him from getting it regularly, but Nick really wanted to have his flat white just the way he liked it.

Ambrose slid over the coffee in a paper cup and the chit with it. The cash was long gone.

"Thanks Ambrose, I'll see you next week."

"Take care of yourself Nick. I'll keep the cow milk open another 5 days. You can have another drink at a discount so I don't waste it."

Nick raised the coffee in salute and turned away and walked across the square. He took a careful sip. It was almost just like how he remembered it from his childhood on the colony. The coffee grown on Parvati had a different terroir as the Terran coffee, but it was as close as he was going to get unless he spent six months rent on importing some Parvati Gold.

As Nick walked along sipping his coffee and staying off the main roads, his phone buzzed, and his headset projected the caller ID onto his eyeballs. It was Selkirk.

"Hey Sel, what's up?"

Sel had video turned on, so in Nick's upper left of his vision he saw a small image of his K'laxi friend. She had grey white fur and her right ear had a large notch out of it. Below her notched ear is an artificial eye surrounded by a deep, old scar. "Don't give me that false confidence, Nick! You were supposed to check in an hour ago and now I see you walking up from the base with a coffee?"

"Sel, Sel, everything is fine. Better than fine really. Shiny and Chrome. I ran into some CorpCops and had to lose them in the Metro. I rode down to Congregation and found that's where Ambrose goes when he's not in Laurel. Got a coffee to celebrate and I'm making my way back now. No stress Selkirk, no stress."

"Yes stress Nicholas, yes." Sel flicked her ears with irritation. Or was it worry? "Did you get it?"

Nick nodded and took another sip of coffee. "Course I did."

It was in his coat pocket, and the feeling of it was much heavier than its actual mass.

"Get back up here then Nick, We gotta hand it over to Eastern before we get paid. You know how she gets when we're late."

He winced when he mentioned Eastern. He did know exactly how she gets when they're late. "I'm headed back up now Sel, I'll be there in an hour. I don't want to draw attention to myself by hustling, and I want to stay out of the Metro."

The moment he stopped speaking, Eastern's voice could be heard. "I hear your delaying tactics, Nicholas North and they aren't going to work on me. I'm running a timer and for every second over one hour you are getting deducted an additional 1%."

Selkirk just looked at Nick through the call. Her ears flicked again.

"Ancestors Sel, I wish you told me I was on speaker. Hi Eastern, what's up?"

"Your ass, unless you hustle Nick."

"Pleasant as always Eastern. I'll see you soon." Nick disconnected the call.

Nick finished his flat white and tossed the cup into the trash. If he kept on the meandering path he was taking now, his phone said it would take him seventy five minutes to get back to Selkirk. If he moved back to the main street, he could cut it down almost in half to fourty five. Even shorter if he took the omnibus.

"Ugh, fine." Nick turned left and walked over to the main street. As he approached, an electric omnibus clattered and buzzed towards him, the overhead panograph giving off an ozone smell. Cycling another identity with his emulator, he palmed it onto the reader and the doors opened. Stepping aboard, he smelled the hot electric motor, the rubber tires and the masses of people aboard. The electric omibus was much cheaper than the Metro though it was a good deal slower. That suited Nick much better than the expensive and much better guarded Metro.

Nick stood in the middle of the omnibus, hooking his elbow around a pole while he read the news projected onto his eye from his pad. Nick's world was decidedly small in the grand scheme of things, but he still liked to hear about what was going on elsewhere. The Provisional Venusian government looks like they were voting to drop provisional from their title later this year. After their emperor was ousted... and then the next Empress was ousted, Venus decided that maybe having royalty run them wasn't really something they wanted to do anymore. Nick had no skin in their game, but he wished them luck. He wasn't in Sol when that whole business with Empress Melody happened a decade back or so, but he asked some old timers about it once when he was curious and anyone that actually had an opinion had figured she was nice enough and that the AI faction was too harsh.

Before too long, Nick reached his stop, just outside of Laurel Square. He pressed on the tape that ran along the top of the omnibus to signal a stop, and as the vehicle rattled and clattered to a stop be pressed his palmed emulator to the reader and the back door hissed open.

Stepping out into the moist and misty evening, Nick started down the alley towards the meeting place.

Next

Hapi

Major cult center:Elephantine

Symbols:Amphora 𓎿 𓏂, Fertility, Hippopotamus, Lotus and Crocodiles (Upper Egypt), Papyrus plants and attended by frogs (Lower Egypt), Nile, Water

Connection to other gods:Geb (God of the earth), Neper (God of grain)

Priest names

(roles) priests were involved in rituals to ensure the steady levels of flow required from the annual flood. Located at Ta-Sety, Abu/Elephantine there was nilometer, a measuring device, was carefully monitored to predict the level of the flood, and his priests must have been intimately concerned with its monitoring.

Features

Hapy is show as an intersex person with a large belly and pendulous breasts, wearing a loincloth and ceremonial false beard. He is depicted with either blue or green skin, representing water. In Lower Egypt, he was adorned with papyrus plants and attended by frogs. In Upper Egypt, it was the lotus and crocodiles which were more present in the Nile. He is often pictured carrying offerings of food or pouring water from an amphora, but also, very rarely, was depicted as a hippopotamus. During the Nineteenth dynasty Hapy is often depicted as a pair of figures, each holding and tying together the long stem of two plants representing Upper and Lower Egypt, symbolically binding the two halves of the country around a hieroglyph meaning "union". Not to be confused with one of Horu's son Hapi by the same name.

Hapi (Ancient Egyptian: ḥʿpy) was the god of the annual flooding of the Nile in ancient Egyptian religion. The flood deposited rich silt (fertile soil) on the river's banks, allowing the Egyptians to grow crops. Hapi was greatly celebrated among the Egyptians. Some of the titles of Hapi were "Lord of the Fish and Birds of the Marshes" and "Lord of the River Bringing Vegetation". Hapi is typically depicted as an androgynous figure with a prominent belly and large drooping breasts, wearing a loincloth and ceremonial false beard.

Mythology

The annual flooding of the Nile occasionally was said to be the Arrival of Hapi. Since this flooding provided fertile soil in an area that was otherwise desert, Hapi symbolised fertility. He had large female breasts because he was said to bring a rich and nourishing harvest. Due to his fertile nature he was sometimes considered the "father of the gods",and was considered to be a caring father who helped to maintain the balance of the cosmos, the world or universe regarded as an orderly, harmonious system. He was thought to live within a cavern at the supposed source of the Nile near Aswan. The cult of Hapi was mainly located at the First Cataract named Elephantine. His priests were involved in rituals to ensure the steady levels of flow required from the annual flood. At Elephantine the official nilometer, a measuring device, was carefully monitored to predict the level of the flood, and his priests must have been intimately concerned with its monitoring.

Hapi was not regarded as the god of the Nile itself but of the inundation event. He was also considered a "friend of Geb", the Egyptian god of the earth, and the "lord of Neper", the god of grain.

Roles

Hapi is an intersexed god, who is probably shown this way to represent the fertility of the nile's annual flood. He is not considered the God of the Nile , but represent the annual flooding of the Nile and inundation event called the Arrival of Hapi. Hapi maintain the balance of the cosmos. He was sometimes considered the Father of the Gods because of his fertile.

Iconography

Although male and wearing the false beard, Hapi was pictured with pendulous breasts and a large stomach, as representations of the fertility of the Nile. He also was usually given blue or green skin, representing water. Other attributes varied, depending upon the region of Egypt in which the depictions exist. In Lower Egypt, he was adorned with papyrus plants and attended by frogs, present in the region, and symbols of it. Whereas in Upper Egypt, it was the lotus and crocodiles which were more present in the Nile, thus these were the symbols of the region, and those associated with Hapi there. Hapi often was pictured carrying offerings of food or pouring water from an amphora, but also, very rarely, was depicted as a hippopotamus. During the Nineteenth Dynasty Hapi is often depicted as a pair of figures, each holding and tying together the long stem of two plants representing Upper and Lower Egypt, symbolically binding the two halves of the country around a hieroglyph meaning "union".This symbolic representation was often carved at the base of seated statues of the pharaoh.[ Egyptian historian Al Maqrizi (1364–1442) related in his "El Khutat El Maqrizia (The Maqrizian Plans) that living virgins were sacrificed annually as "brides of the Nile" ("Arous El Nil") and this has been historically accepted as late as the 1970s. but this claim is disputed by some Egyptologists such as Bassam El Shammaa.

──────⊰In Workings⊱──────

*Please know basic protections and energy work before attempting any deity work.*

*It is important to note that everyone's experiences are different and will work with spirits for different reasons. Some people may like a spirit while others will not and that's okay. Ask these spirits what they will work with you on as well as ask them if they can help you with whatever it is you need.*

Ideas for honoring or working with/worshipping Hapi

Altar

Create an altar/sacred space for your rituals and giving offerings for Hapi. Items may include

⬩An altar cloth

⬩Blue candles (you can use any color)

⬩Cup or chalice

⬩Incense and an incense burner

⬩Offering bowl

⬩Statue of Hapi

For more information on basic deity work and altar setups check out the deity work post.

Basic offerings:Bread, Frankincense, Game Meat, Lion Statue Myrrh, Sour Dough, Meat, Sun Symbols,

Ritual

Ideas for rituals may include

⬩Fertility rites

⬩Maintaining balance

⬩Maintaining steady levels from the flood

⬩Ask him what else he can help you on⬩

The Hymn to the Flood

Lightmaker who comes from the dark Fattener of herds Might that fashions all None can live without him People are clothed with the flax of his fieldsThou makest all the land to drink unceasingly, as thou descendest on thy way from the heavens.

𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖𓈖

For more content relating to other practices/religions or pantheons follow my main blog for updates

If you have any more questions or wish to join a community feel free to join my 18+ discord server

Ask me anything on my blog

"Distress Call."

[Cortana X Reader]

Contains: Evil AI. Forced Fattening.

"Help! Help! Send help! My smart house is trying to fatten me up! I can't fit through the door anymore! I can't...Oh gosh, my heart hurts just waddling over to this phone...please! You have to...hello? HELLO?" The soft pop of static followed by dead air, fills your heart with dread, sweating, dizzy from the sheer act of standing, your fat sack like gut smooshed against the kitchen counter propping you up. Behind you a dazzling blue light forms from the moving wall projector. A small, camera like box that slid on a track all around your house. Cortana stepped closer to you. Your cleaning robots, once used to tidy up the house, were flanking her left and right sides as she slowly sashayed up to you. Wagging a finger back and forth Cortana tuts at you. "Naughty fatty." The Blue Bombshell sighed. For a second her visage flickered a magenta/red hue her voice growling: "No one's comming to help you you fat slob. I'm the only help you need." Little, three fingered claws gripped your wrists, you were too chubby and weak to resist as the cleaning bots yanked you off the counter your big bulging butt landing on the two little trash can shaped robots. Their long crab like legs whining as they buckle a little under your 400 pound girth. Each flabby cheek smooshing and smothering the little robots as they each served as a makeshift seat for each cheek. Your flabby ass pouring over the sides of their tops. Their little hands holding your wrists to your chunky thighs like handcuffs. The magenta flicker stopped and Cortana was no longer scowling. Her rampancy was ramping up, it came in more frequent bursts now. Usually when you "misbehaved." Refusing to eat even when you were full to bursting, getting up to go to the bathroom yourself wasting those "precious calories" instead of being carried. She snapped at anything that wasn't eating, growing, or cumming. "One hundred and fifty calories burned just getting up to call for help. If you need to order out, I'm more than capable of making a call my big squishy piggy." Cortana mused. From the corner of the room, a tall cabinet like box powered up. Mechancis whirring inside. It was almost 8 feet tall, and polished like porcelian with a metalic white pain. It had no handles or keyhole, folded open, and a tall, pale white maniquin stepped out. The manniquin was over 7ft Tall, it's belly button holding the same little camera like device that trailed the house feeding Cortana into the room, with a similar projector on it's lower back where a human spine would be. The surface felt soft like fleshy velvet, a little weird but not uncomfortable. It's face completely blank, absolutely smooth and vacant. The maniquin turned it's head to you, watching your little makeshift throne carry you out of the room. It sashayed up to cortana, and Cortana took a few steps toward it, the pair moving in a collision course, until with a flicker, Cortana's wall projection winked out, and She stood, a holographic mask mapped over the opaque body. A blue hand reached out and grabbed a fistful of your soft tummy, giving it a shake. "160 calories down, you know what that means little fatty..." Cortana grabbed the door to the massive 12 tall and 4 foot wide fridge. Cracking it open, was like opening a small vault door, she practically stepped into it, grabbing a few boxes of cold pizza and a salad bowl full of pudding. "...we'll just have to stuff you extra to make up for it fatass." Cortana squeezed as much of your butt as she could. A didgital ripple like cascading water flowed from her neck, down to her hips, and Cortana began to walk ahead of you in nothing but a lace lined, floral apron. She gathered up her hair, and tied it into a top knot. A performative measure, purely aesthetic, as it would never actually get in her way. You Cortana settling in next to you, resting the bowl of pudding, on your pudding like belly, a box of pizza ontop. She opened it Like a makeshift throne,

watched her naked, digital ass waltz ahead of you, whimpering, even now you were hot for your house AI, even as she threatened to feed you to immobility. Even as she carried herself like a maid, even as you reached the MASSIVE new couch she'd ordered and assembled for you. Even as the little cleaning bots raised their front legs, tipping you like a tow truck bed, back onto the couch, and crawling out from under your thick, pillow sized legs. The thought gripped you, as you grew insanely aroused looking at the massive pushed up blue cleavage when Cortana turned to face you again....staring at the insane AI's body...it whispered into your very groin: That was probably the last time you'd ever stand again.

Your crotch throbbed. And you almost burst into tears of despair. Why were you such a helpless, hopeless feedee? With a shuddering gasp you mumble: "I'm sorry Cortana. I'm just...I'm scared..."

Cortana shushed you. "You asked me to make you as fat as possible. You want me to make you as fat as possible." Her hand worked its way under your heavy, heavy gut, between your smashed together thighs (It was impossible to spread your legs anymore. No matter how far apart the bones sat, your flab squeezed you tight.) and Cortana grabbed your fucking needy center. "You're still breathing on your own, you're still conscious, you're still growing." She gave your big belly a gentle shake, sending waves throughout your cellulite riddled form. "So clearly, you're not as fat as possible yet."

Types Of Flow Measurement Devices

In the dynamic realm of industrial processes, the accurate measurement of fluid flow is crucial for efficiency and performance. In this article, we delve into the different types of flow measurement devices that play a pivotal role in optimizing processes across various sectors.

Electromagnetic Flow Meters: In applications where the fluid is conductive, electromagnetic flow meters shine. These devices utilize Faraday's law of electromagnetic induction to measure the velocity of the fluid. The resulting data, combined with the pipe's cross-sectional area, provides a precise measurement of the flow rate, making them ideal for industries dealing with water or other conductive liquids.

Ultrasonic Flow Meters: Employing ultrasonic waves to determine the velocity of fluid, these non-intrusive devices are gaining popularity. Transit-time and Doppler are two common types within this category. Transit-time ultrasonic meters measure the time it takes for ultrasonic signals to travel with and against the flow, while Doppler meters use the frequency shift of reflected waves to calculate flow velocity.

Coriolis Flow Meters: Renowned for their accuracy, Coriolis flow meters operate on the principle of the Coriolis effect. As fluid flows through a vibrating tube, the Coriolis effect induces a phase shift, which is proportional to the mass flow rate. This technology is particularly effective for measuring both liquids and gases with high precision.

Vortex Shedding Flow Meters: Capitalizing on the phenomenon of vortices forming downstream of a bluff body placed in the fluid stream, vortex Shedding flow meters are apt for measuring the flow of gases and liquids. The frequency of vortices shed is directly proportional to the flow rate, enabling accurate measurements.

In conclusion, the world of flow measurement devices is as diverse as the industries they serve. Each type has its strengths and applications, catering to specific needs and scenarios. As industries continue to evolve, the synergy of these devices with cutting-edge technologies ensures that accurate flow measurement remains a cornerstone for optimizing processes and enhancing overall efficiency.

Finding the Perfect Flow: Your Guide to Selecting the Best Water Flow Meter

Whether it's sprinkling our backyard garden or fueling massive industries, water remains at the heart of everything. Naturally, keeping tabs on this precious resource is paramount, which brings us to the pivotal role of water flow measurement devices. But with a sprawling variety out there, how do you pinpoint the one for you? 

In this post, we’ll embark on this aqueous adventure together, charting a course through the sea of options, ensuring you dock at the right port. Let’s begin, shall we?

Understanding Your Needs: More Than Just Numbers

Before getting swept away by the technical jargon or shiny features of water flow meters, let’s hit the brakes. 

Start with a heart-to-heart chat with yourself. What do you truly need? Maybe you're a homeowner, ensuring that your lawn gets the right amount of water without skyrocketing your utility bill. Or, you're an industrial tycoon, where every drop equates to currency.

The point here is: Your ‘why’ matters. And while we're at it, remember, not every water flow meter dances to the same rhythm. Some groove to high beats (high flow rates), while others sway to soft melodies (low flow rates). By sketching out a mental blueprint of your needs, you filter through the noise, making your journey to the right meter more harmonious.

Lastly, the money talk. Sure, fancy features might wink at you, but will they really make a difference in your day-to-day? Set a budget, but stay flexible enough for those worth-a-little-extra-splurge features.

Dive into the Different Types: Exploring the Underwater World

Think of water flow meters as different species in an aquatic kingdom. Some are like the trusty goldfish: simple yet effective. Others? The majestic dolphins, are sophisticated and sleek.

Mechanical meters are our goldfish. These trusty devices dance with the flow of water, rotating a paddle or wheel. They're often celebrated for their straightforward approach, making them a darling for many.

Ultrasonic meters, the dolphins of the group, echo sophistication. They harness the power of sound waves to gauge water flow. Precision is their anthem, making them the go-to for industries where every drop and decibel counts.

Magnetic meters are a unique breed. Imagine a meter that taps into the magnetic prowess of water, especially when it's mixed with impurities. They're like the chameleons of the water meter realm, adapting well to wastewater applications.

The ocean of water flow measurement devices is vast and varied. The key isn’t to snag the shiniest fish but to reel in the one that sings to your tune.

Considering Installation and Maintenance: Smooth Sailing or Rocky Waters?

We’ve all been there: buying a gadget and then scratching our heads, tangled in installation woes. A water flow meter shouldn’t send you down that rabbit hole. Some meters promise a breezy setup; think plug-and-play. Others might demand a more hands-on approach or even a professional touch.

Maintenance is the sequel to the installation story. While some meters, like the loyal soldiers they are, stand guard without much fuss, others like to be pampered with regular check-ins. The trick is to find a balance. If you're someone who prefers set-it-and-forget-it, scout for meters that champion low maintenance.

Also, here's a golden nugget: compatibility. Imagine finding a meter that checks all boxes, only to discover it's not in sync with your pipes. Heartbreak, right? To sidestep this, always ensure harmony between your chosen device and the infrastructure it will join.

The Importance of Accuracy: Hitting the Bullseye Every Time!

Imagine baking a cake and missing the mark with your measurements. You might end up with a soggy mess or a brick-hard dessert. Similarly, when gauging water flow, precision is not just a buzzword: it's a necessity. In industries, even a smidgen of inaccuracy can create a domino effect of problems, sometimes even translating into significant monetary losses.

So, when you're wading through the aisles (or web pages) scouting for your perfect water flow mate, peek at those reviews. What are users raving about? Any common hiccups? Real-world feedback can be a treasure trove of insights. Meters boasting calibration certificates or easy calibration processes might just get an extra brownie point. They're like the star students of their class.

But, as with everything, perfection is elusive. Every device, no matter how grand, will have its margin of error. It's like trying to hit that high note: sometimes you're on point, sometimes you're a tad off. The goal? Find a meter whose occasional off-days are still within an acceptable range for your operations.

Durability and Longevity: The Guardians of the Water Realm

In the epic tale of water flow meters, durability is the unsung hero. It's not just about today, tomorrow, or next week; it's about the long haul. 

Would you invest in a car that breaks down after a few rides? Probably not. Similarly, your water flow meter should be the trusty steed, galloping effortlessly through the rugged terrains of time.

Picture this. If your meter is set to be the guardian of the great outdoors, weather resistance isn't just a plus; it's a must. The sun, rain, and snow should be mere spectators, not disruptors. 

On the industrial front, the story takes another twist. Here, our brave meter might battle not just the elements but also chemicals and other potential foes. So, opting for a meter with a suit of armor (read: robust construction and chemical resistance) becomes crucial.

Research can be your compass. From the materials crafting your meter to user experiences and warranty offerings, gather as many breadcrumbs as you can. These will lead you to a device that doesn't just survive but thrives.

The Role of Advanced Features and Connectivity: Welcome to the Future

The digital age isn't knocking at our doors. It's here, sipping coffee in our living rooms. Today's water flow meters are no longer mere number crunchers. They're smart, intuitive, and sometimes even a tad futuristic. For more details visit us at https://www.nemfg.com/.

For the tech-savvy souls or businesses riding the wave of modernity, meters with a digital edge can be exhilarating. Imagine monitoring water flow from the cozy confines of your couch, thanks to a mobile app. Or, envision a meter that sends real-time alerts, ensuring you're always in the know.

But with great power (and features) comes a greater price tag. It's like being at a buffet: everything looks delectable, but can you (or should you) taste it all? Prioritize. If real-time monitoring dramatically elevates your operations, it might be worth the splurge. But if it's just a shiny toy you'll admire for a few days, maybe it's wise to steer clear.

Conclusion

Navigating the vast sea of water flow meters can initially seem overwhelming. But by understanding your needs, researching the different types, and considering factors like installation, accuracy, durability, and advanced features, you can find the perfect fit for you. Remember, it's not about finding the most advanced or expensive option but rather the one that aligns seamlessly with your requirements.

Read More:

Water Flow Meters

hey if youre on turtle island or still tuesday and feel like trying a quick silly browser game you should check out tradle. (i think it updates at midnight based on time zones?) todays is real fun i prommy.

you get five guesses to figure out a country from its export data, and after each guess they tell you how far away you are and what direction the county youre looking for is. i know it sounds like a ridiculous challenge but this one has a bunch of easy hints and giveaways that are accessible to your average westerner

if its wednesday by now or you want to see the data presented differently check out this silly economy under the cut (bolded 'spoilers' ig)

total export value: 371b (usd)

gold: 86.7b (23%}

packaged meds: 48.5b (13%)

vaccines, blood, cultures, etc: 40.3b (11%)

base metal watches: 15.2b (4%)

nitrogen heterocyclic compounds: 14.2b (4%)

jewlery: 9.35b (2.5%)

precious metal watches: 8.97b (2.5%)

orthopedic appliances: 7.02b (2%)

hormones: 3.38b

coffee: 3.36b

electricity: 3.19b

medical instruments: 3.09b

machinery w indv functions: 3.04b

platinum: 2.54b

chemical analysis instruments: 2.27b

nucleic acids: 2.17b

valves: 2.17b

silver: 2.01b

electric motors: 1.78b

scented mixtures: 1.72b

sulfonamides: 1.71b

diamonds: 1.64b

planes, helicopters, and spacecraft: 1.63b

beauty products: 1.58b

other heating machinery: 1.43b

flavored water: 1.43b

gas turbines: 1.38b

low voltage protection eq: 1.34b

gas and liquid flow measuring inst: 1.3b

carboxyamide compounds: 1.26b

other measuring instruments: 1.24b

air pumps: 1.16b

motor vehicles, parts, and acc: 1.14b

petroleum gas: 1.12b

electrical transformers: 1.11b

aluminum plating: 1.07b

other plastic products: 1.01b

metal working machine parts: 988m

vitamins: 965m

polyamides: 963m

washing and bottling machines: 925m

chocolate: 887m

oxygen amino compounds: 885m

integrated circuits: 884m

iron fasteners: 881m

paintings: 873m

transmissions: 855m

special pharmaceuticals: 837m

insulated wire: 828m

electrical power accessories: 826m

plastic lids: 818m

cheese: 800m

antibiotics: 797m

liquid pumps: 797m

cars: 789m

ink: 752m

non mechanical removal machinery: 737m

trunks and cases: 734m

centrifuges: 730m

interchangeable tool parts: 728m

high voltage protection eq: 705m

hand saws: 693m

other edible preparations: 680m

electric heaters: 679m

electrical control boards: 672m

polyacetals: 664m

plastic pipes: 636m

electric soldering equipment: 616m

precious metal compounds: 608m

industrial fatty acids, oils, and alcohols: 608m

hot rolled iron bars: 590m

self propelled rail transport: 582m

refined petroleum: 577m

hydrazine or hydroxylamine derivatives: 565m

precious stones: 563m

rubber working machinery: 561m

unpackaged meds: 557m

other iron products: 553m

precious metal scraps 550m

computers: 545m

surveying equipment: 523m

other plastic sheetings: 519m

metal finishing machines: 516m

scrap copper: 514m

semiconductor devices: 511m

raw plastic sheeting: 494m

documents or title and stamps: 490m

rolled tobacco: 487m

malt extract: 469m

other electrical machinery: 467m

other paper machinery: 450m

oxygen heterocyclic compounds: 441m

non knit mens suits: 441m

synthetic coloring matter: 436m

locomotive parts: 432m

non knit womens suits: 428m

iron structures: 424m

leather footwear: 421m

industrial printers: 415m

lifting machinery: 415m

scrap iron: 412m

therapeutic appliances: 410m

office machine parts: 410m

other clocks and watches: 405m

metal molds: 403m

other furniture: 403m

glaziers putty: 377m

liquid dispersing machines: 376m

knitting machine accessories: 370m

other small iron pipes: 369m

broadcasting equipment: 367m

aircraft parts: 363m

industrial food prep machinery: 362m

glues: 357m

pesticides: 349m

oscilloscopes: 344m

raw aluminum: 344m

knit sweaters: 339m

optical fibers and bundles: 334m

excavation machinery: 332m

non iron/steel slag ash and residue: 319m

carboxylic acids: 315m

xray equipment: 315m

electric motor parts: 315m

watch straps: 313m

tanks and armoured vehicles: 310m

forging machines: 309m

cleaning products: 306m

metalworking transfer machines: 298m

animal food: 294m

combustion engines: 282m

engine parts: 271m

electric generating sets: 254m

scrap aluminum: 249m

laboratory reagents: 249m

perfumes: 244m

other rubber products: 241m

photo lab equipment: 240m

wheat: 236m

lubricating products: 234m

printed circuit boards: 233m

aluminum bars: 230m

explosive ammunition: 230m

brooms: 224m

lcds: 223m

refrigerators: 223m

motorcycles and cycles: 221m

large construction vehicles: 221m

coal briquettes: 221m

corn: 220m

aluminum cans: 219m

textile footwear: 217m

thermostats: 207m

coffee and tea extracts: 206m

other aluminum products: 204m

ball bearings: 203m

knives: 199m

machines for additive mnf: 195m

raw iron bars: 187m

delivery trucks: 185m

milling stones: 176m

aluminum foil: 170m

collectors items: 169m

soybean oil: 169m

wood fiberboard: 166m

other stainless steel bars: 164m

sculptures: 160m

cutting blades: 159m

baked goods: 150m

navigation equipment: 146m

hydrometers: 137m

watch cases and parts: 134m

laboratory ceramic wear: 134m

wood carpentry: 124m

mirrors and lenses: 117m

Reading The Dark Prophecy: Chapter 22 (SPOILERS)

"how you collapsed that brick wall. You should do that more often." I struggle to think of many situations that would be improved by a collapsing brick wall, but hey, if Leo thinks it'll help.

"Leo and Calypso's Garage: Auto Repair and Mechanical Monsters." . . . "It didn't sound like a very funny joke." You had to be there.

"A demigod child of the sewer goddess Cloacina would have been welcome" Holy cannoli, she's real. Wikipedia says, "Cloacina was a goddess who presided over the Cloaca Maxima ('Greatest Drain'), the main interceptor discharge outfall of the system of sewers in Rome.

"trying to avoid flashbacks of my long-ago, unintended trip through a sewage-treatment facility in Biloxi, Mississippi." No, no, I want to see it.

"This runs on a clepsydra lock" CLEPSYDRA (n.): an ancient time-measuring device worked by a flow of water

"videos of Commodus looped over and over on the giant television screens." Ngl that sounds like heaven.

"If you have ever tried to walk while immersed in a swift stream, you know how difficult it is. Also, if you have tried it, then may I ask why?" It's called a water park.

"My least favorite Cornhusker" The Cornhusker thing is funny now that I know he used to challenge people to harvesting contests in his past life.

"blemmyae bulldozers." Are those supposed to be worse than regular bulldozers? Whatever the case, Brieanna was right. They shouldn't remain at the Waystation.

"I had failed once again. I had unwittingly betrayed the location of our safe haven." I wouldn't say that. They wanted the griffins back and they got them. It's not like there was time to check for tracking devices at the zoo. Apollo got got, that's all.

"When can you have the Waystation destroyed?" Lol like it's just another regular chore. Put it down for noon on Wednesday. "Two days?" "TWO DAYS?" Two days is pretty quick. They don't even know what kind of magic is guarding it.

"Incursion at the front gates!" Who tf?

"Perhaps we could take him--three on two?" The two in question are one almost-godly man and one fully suited and armed soldier. Y'all've got squat for armor and hypothermia for a weapon. "Except that we were all about to pass out . . . I decided to stay put." It's for the best.

"Alaric." Was he one of the Germani from The Hidden Oracle? I swear I've heard his name before. "How long has Lityerses had this job?" Oh, the beheader's about to be beheaded.

"try on our racing outfits" What are they racing? The ostriches?

"Meg considered this, then seemed to realize she was thinking" Whoops, can't be caught considering the consequences of your actions in the middle of a life-or-death predicament!

I think this is a 'digitally enhanced' version of the photograph I posted a few posts back.

She is ready for the jib to swing her gently out from the quay and then be lowered slowly into the deep water of the river, such that she is fully immersed for a period of five seconds only, to avoid any unexpected respiratory distress.

By specific arrangement, she shall then be lifted from the water to be re-immersed eleven more times at nominally five minute intervals, each immersion to last for fifteen seconds.

She's been looking forward to this experience for so long and has prepared so carefully!

The 'Ducking Stool' is an innovative device that was developed in medieval times to facilitate the public punishment - and humiliation - of errant women, such as prostitutes or women considered to be 'shrews' - a term used to describe women who were considered to be 'difficult' or 'contrary' - or proven (or thought to be) dishonest.

A man who had found his wife unfaithful might also sponsor such a punishment ... a reckoning!

In modern times, such punishment is not thought to be appropriate - or at least, only rarely. Of course, there are 're-enactments' here and there and the practice still has a 'specialist' following of those, especially women who enjoy its (quite obvious) sexual connotations.

The lady pictured has become an early - indeed pioneering - recreational follower of 'the stool' and we see her here on holiday in this remote and secret place. We can share her evident enjoyment of the situation she has painstakingly engineered for herself.

She knows she is completely safe 'in the hands' of the lesbian couple who own this mill. The equipment is fully serviced and she has been shown all the documentary certification of that. She is of course aware that equipment failure such as crane pulleys jamming or ropes breaking has had tragic consequences for some ladies in the past through death by drowning as it became impossible for them to be lifted quickly from the water. She has no wish for such a thing to happen to her and she feels every possible measure has been taken to minimise risk and assure her safety.

If we 'download' the photograph and 'expand' (enlarge) it to its maximum extent, we can observe the care she has taken in the preparation of her dress.

She wears a cotton 'seersucker' dress which is sufficiently 'sheer' (sufficiently translucent) for us to observe the lace trimmed petticoat she wears beneath, which is of course sufficiently long to fold down - so perfectly - well below her knees.

She considers herself to be properly petticoated.

The manner of her dress is - of course - most conservative - and she also chooses to wear a matching bonnet in 'a nod' to former times.

We can clearly see her smile ... as she reflects so contentedly ... and happily ... in her situation (some might say her 'feminine predicament') ... and looks forward in eager anticipation to the hour or so ahead! She sits back into the chair, so comfortably, her arms tied to the arms of the chair for her comfort and safety.

The woman taking this photograph, one of the couple owning and operating this facility returns across the low bridge (out of camera) and takes the controls of this - even then - electrically operated ... well, ... crane.

The lady pictured is then swung slowly away from 'quayside' to a position high over the water of this deep, slow flowing river.

She is free to remain there for at least a few minutes before she signals she is ready to be lowered by raising her left arm.

She finds it a wonderful thing, to sit so comfortably above the deep water into which she has chosen to shortly be completely immersed.

She feels the warm sunshine and moments of cool shade as the occasional breeze eases white clouds gently across the sky ... as gently as her dress rests over her petticoat, she reflects.

The chair ... the Ducking Stool ... sways slightly in this gentle, but fickle breeze ... she feels perfectly happy ... contented ... and so peaceful.

Everything is so quiet.

The time has come!

She raises her left arm.

Her smooth descent into the deep river water below commences.

She sighs with pleasure.

She watches her shoes near the surface.

Then ... so soon! ... she feels them fill with water!

Down she goes ... the water to her ankles now!

Then ... the hem of her dress ... then her pretty lace trimmed petticoat.

She feels how her dress starts to float so sensuously over her petticoat ... and as the water rises over her knees, she feels it flood her knickers ... she gasps with pleasure ... a pleasure which she recognises contains sexual elements!

Likewise, her brassiere - nestling so secretly beneath her petticoat - is likewise filled ... the gently rising water to her shoulders now ... she knows the water level is up to her neck and rising to her chin ... time to take a deep breath ... and close her eyes!

The river water invades her hair and bonnet with equal efficiency ... remorselessness - and as it does ... she disappears from view to take her first ducking.

After five seconds of pleasure and admittedly some disorientation she is lifted from the river. Water pours from her clothing and person and she loves how she can hear it splashing back in to river!

She's lifted back to the height from which she was first lowered in, some six feet above the water. She'll be lowered back in nominally five minutes, the lesbian couple keeping a strict eye on the time.

As she sits there, soaking wet, feeling the warm sunshine, her clothing feeling heavy and so turgid, her shoes still full of river water, her water laden bonnet feeling so deliciously cloying over her head ... the lady knows she really has experienced something quite wonderful: a complete ducking! In her clothes.

So soon ... her second - of twelve complete immersions - commences. Her shoes 'topped up' ... her knickers and bra refilled ... her bonnet too ... and - just as she had hoped - how perfectly sensuously her dress floated over her pretty petticoat.

Longer now, to enjoy her soaking. Long enough to feel the almost imperceptible current of the river ... flowing ... moving ... at wiil, it seemed ... through her clothes.

And then ... snoothly raised from the water.

Then, five minutes or so later ... her third ducking

For some reason ... or reasons ... she didn't fully understand ... she was quite astonished to realise that she was becoming sexually excited.

She just 'went with it' ... and experienced a stunning 'touchless' vaginal orgasm ... privately ... deep beneath the surface of the river.

/This draft is nearly finished / Will be soon! ... X

Preventing Water Damage: Tips for Homeowners

Water damage can be a major problem for homeowners, causing everything from mildew and mold to serious structural damage. Preventing water damage is crucial for maintaining the integrity of your home and protecting your family's health. Here are some tips for preventing water damage in your home:

Check for leaks regularly. One of the most common causes of water damage is leaks from plumbing fixtures and appliances. Check all of your faucets, toilets, and appliances for leaks on a regular basis. If you find a leak, have it repaired as soon as possible.

Inspect your roof and gutters. Roof and gutter leaks are another common cause of water damage. Check your roof for missing or damaged shingles, and make sure your gutters are clear of debris. This will help ensure that water flows away from your home and doesn't pool around the foundation.

Keep an eye on the weather. Heavy rain and snow can cause water damage if your home is not properly prepared. Make sure your home is properly insulated and sealed to prevent water from seeping in.

Use a sump pump. A sump pump is a device that pumps water out of your basement or crawl space. Installing a sump pump can help prevent water damage in areas of your home that are prone to flooding.

Keep your appliances in good working condition. Regularly maintaining your appliances can help prevent water damage. Make sure your water heater, washing machine, and dishwasher are in good working condition and have them serviced if necessary.

Invest in a water alarm. A water alarm is a device that sounds an alarm when water is detected. These devices can be placed in areas of your home that are prone to water damage, such as the basement or laundry room.

Have a plan in case of an emergency. Even with all the preventative measures in place, water damage can still occur. Be sure to have a plan in place for what to do in case of a water emergency, such as turning off the water supply to your home and contacting a professional for help.

By following these tips, you can help prevent water damage in your home. Remember to check for leaks regularly, inspect your roof and gutters, keep an eye on the weather, use a sump pump, maintain your appliances, invest in a water alarm, and have a plan in case of an emergency. By taking these steps, you can protect your home and your family from the costly and destructive effects of water damage.

The Essential Guide to Pipeline Monitoring: Everything You Need to Know

Pipeline monitoring is a critical process in industries like oil, gas, water distribution, and chemical transportation. It ensures safety, operational efficiency, and environmental compliance. This blog post delves into the essentials of pipeline monitoring, including common topics, challenges, a step-by-step guide, a case study, and a conclusion. By the end, you'll have a comprehensive understanding of this crucial practice.

What Is Pipeline Monitoring and Why Is It Important?

Pipeline monitoring refers to the systematic process of tracking the flow, pressure, and integrity of pipelines using advanced technologies. This process helps detect issues such as leaks, corrosion, or blockages early, ensuring seamless operations and preventing costly damages.

Key Benefits of Pipeline Monitoring

Safety Assurance: Prevent accidents caused by leaks or bursts.

Environmental Protection: Avoid spills that could harm ecosystems.

Operational Efficiency: Maintain consistent flow and pressure.

Cost Savings: Reduce repair and cleanup costs through early detection.

Common Topics Related to Pipeline Monitoring

1. Types of Pipeline Monitoring Systems

Pipeline monitoring systems come in various forms, each tailored to specific industry needs:

Supervisory Control and Data Acquisition (SCADA): A central system that monitors real-time data.

Acoustic Monitoring: Detects changes in sound patterns to identify leaks.

Fiber Optic Monitoring: Uses light waves to detect pressure changes and vibrations.

Ultrasonic Testing: Evaluates pipeline integrity using sound waves.

2. Role of IoT in Modern Pipeline Monitoring

The Internet of Things (IoT) has revolutionized pipeline monitoring by enabling real-time data collection and analysis. Sensors installed along the pipeline communicate with central systems, providing instant updates on performance metrics.

3. Regulations and Standards in Pipeline Monitoring

Industries must adhere to strict regulations, such as:

API Standards: Developed by the American Petroleum Institute.

ISO 13623: Guidelines for managing pipeline integrity.

Environmental Protection Regulations: Address potential spills and emissions.

Challenges in Pipeline Monitoring

While pipeline monitoring is essential, it is not without its challenges:

1. Aging Infrastructure

Many pipelines are decades old, making them prone to corrosion and failure. Upgrading and monitoring these systems can be costly and time-consuming.

2. Harsh Environmental Conditions

Pipelines often operate in remote or harsh environments, such as deep-sea locations or deserts. Monitoring systems must withstand extreme conditions.

3. Data Overload

Modern monitoring systems generate massive amounts of data. Processing and analyzing this information in real-time can be overwhelming without advanced analytics tools.

4. Cybersecurity Threats

As monitoring systems become more digital, they become vulnerable to cyberattacks. Protecting these systems requires robust cybersecurity measures.

Step-by-Step Guide to Implementing Pipeline Monitoring

Step 1: Assess Your Needs

Identify the specific requirements of your pipeline, such as the type of material transported, environmental conditions, and budget constraints.

Step 2: Choose the Right Monitoring Technology

Select a system that aligns with your needs. For example:

For leak detection: Acoustic or fiber optic monitoring.

For overall system performance: SCADA or IoT-based systems.

Step 3: Install Monitoring Equipment

Position sensors and devices strategically along the pipeline. Ensure proper calibration for accurate readings.

Step 4: Integrate with Centralized Systems

Link monitoring equipment to a central hub, such as a SCADA system, for real-time data collection and analysis.

Step 5: Train Your Team

Ensure that operators and technicians understand how to use the monitoring systems effectively.

Step 6: Conduct Regular Maintenance

Schedule routine inspections and calibration to keep the system functioning optimally.

Step 7: Analyze and Act on Data

Use analytics tools to identify patterns and potential issues. Address these proactively to prevent disruptions.

Case Study: How Pipeline Monitoring Saved a Major Oil Company Millions

The Problem

An oil company operating a vast pipeline network noticed inconsistencies in flow rates. Without proper monitoring, these issues escalated, resulting in a significant oil spill and millions of dollars in cleanup costs.

The Solution

The company implemented a comprehensive pipeline monitoring system using fiber optic sensors and IoT integration.

Results

Leak detection improved by 90%.

Response time reduced from 48 hours to 2 hours.

The company saved $10 million annually in repair and spill cleanup costs.

This case demonstrates the transformative impact of advanced pipeline monitoring systems.

Conclusion

Pipeline monitoring is a cornerstone of operational efficiency and safety in industries that rely on pipeline networks. By understanding the available technologies, addressing challenges, and following a systematic implementation process, companies can reap the benefits of a well-monitored system.

Embracing pipeline monitoring not only saves costs but also ensures compliance with environmental standards and enhances safety. As the industry evolves, adopting innovative solutions will remain key to staying ahead.

Invest in pipeline monitoring today to safeguard your operations and the environment.