🚾What is a Water Closet?

The water closet, often abbreviated as WC, is a historical marvel that dates to the 16th century. It marks a significant milestone in the evolution of bathroom sanitation, guiding us from the days of outdoor outhouses to the comfort of indoor plumbing systems that we enjoy today.

Initially, only the rich or royalty had them, and they were often very ornate. The first known water closet in the U.S. was in Annapolis, Maryland, installed in a home called Whitehall, built for the colonial governor of Maryland around 1765.

In 1804, Thomas Jefferson installed two water closets flushed by water-fed cisterns in the White House. By the way, this was thirty years before water for drinking and bathing was installed in the White House.

Today, things are a lot different. Many of us have water closets in our homes, usually a separate room off the bathroom, even though we may not call them water closets.

🏭Why Do Plumbing Systems Have Air Vents on the Roof?

That air vent on the roof, better known as a vent stack, is a vertical pipe to which all drains in a facility are connected. The top portion extends about two feet above the roof to have access to air.

Vent stacks are connected to sewer pipes and are designed to release gases that accumulate inside the entire plumbing system. They also allow fresh air into the system, which helps water flow easily through the drainpipes.

Vent stacks, however, can malfunction over time. Typically, this happens when debris collects in the vent. You'll know there is a problem when foul odors develop in the home or facility, and you can't find the source.

Another sign of a problem is when it takes a long time for water to drain. Our first thought is usually that the pipes below the drain are clogged. However, the clog is not in the pipe but in the vent stack. Clean the vent stack, and the slow-draining problem is solved.

♨Why do J-Traps Dry Out?

J-traps, also known as P-traps, are essential components in plumbing systems. They are designed to trap a small amount of water in the pipe – known as a water seal - to prevent sewer gases from entering the home or facility.

They are typically dependable but can dry out under certain conditions, such as infrequent use or arid environments. When this happens, they release unpleasant and potentially health-risking fumes and odors. These fumes can include methane and hydrogen sulfide, which can be harmful to people and pets if inhaled in large quantities.

Regular use of sinks and drains usually maintains the necessary water seal, but less frequent use may require additional measures.

Pouring water down the drain is a temporary fix, as evaporation, over time, will evaporate the water seal. Decades ago, a myth developed that pouring bleach down the drain would fix the problem. Now, we know this is very dangerous due to bleach's chemical properties and its potential to create hazardous fumes when mixed with sewer gases.

Fortunately, products like Everprime offer a safe and convenient solution. Everprime is a biodegradable liquid that maintains the water seal for extended periods, even in extreme climate conditions and when drains are used infrequently. Three ounces of Everprime poured down all drains provides a sense of security, ensuring the functionality of J-traps, and helping to maintain a pleasant, healthy, and odor-free indoor environment.

#Waterless Co., Inc is a #pioneer in #waterefficiency. We are the go-to company when it comes to reducing #waterconsumption, understanding the many benefits of waterless urinals, and #waterefficiently. For more information, contact a Waterless Co Specialist. 

Artificial intelligence is becoming an increasingly integral part of our daily lives. However, its growth comes at a significant cost: water.

As AI systems consume more and more water, it's essential to consider their impact on our planet's precious resources.

Here’s an example of what I’m talking about:

If sixteen million people in the United States were to send just one 100-word email per week using ChatGPT, a widely popular AI platform, it would require approximately one hundred fifteen million gallons of water annually.

That’s nearly equivalent to the total water consumption of Rhode Island in two days.

Researchers have also found that a single 100-word AI-generated email uses slightly more water than a standard 16.9-ounce bottle of soda. These seemingly small amounts can quickly add up, highlighting the need for mindful water consumption and water efficiency in the age of AI.

So, where is all this water going?

Most of this water is going for cooling AI servers. They need a lot more cooling – meaning a lot more water – than traditional servers.

This water consumption is further exacerbated by the substantial electricity demands of generative AI in regions like California, where a sizable portion of electricity is generated using water-intensive methods.

Google's data centers offer a stark example of AI's water footprint.

According to recent research by the University of California, these data centers withdrew nearly 6.5 billion gallons of water and consumed 5.3 billion gallons for cooling in 2022 alone, a 21% increase from the previous year. These are the latest stats available.

Microsoft's water consumption for AI purposes rose by an even more alarming 34% during the same period.

Today, some AI companies are drawn to Arizona because of the abundant sunshine for solar power generation. However, the need for water for cooling remains is a pressing concern. With Arizona already facing water scarcity due to climate change and population growth, the additional demand from AI technology could further strain its fragile water resources.

In response to these concerns, a ChatGPT spokesperson emphasized the company's ongoing efforts to improve efficiency. These initiatives include developing more water-efficient cooling systems, optimizing AI algorithms, and increasingly turning to renewable energy sources.

While these solutions hold promise, it's imperative to address the growing water challenges associated with AI's unchecked expansion. The potential threat to global water scarcity cannot be ignored. Responsible and efficient water management is essential to ensure that AI's benefits are realized without compromising the worlds growing needs for clean, healthy, potable water.

Klaus Reichardt is CEO and founder of Waterless Co, Inc., a pioneer in advancing water efficiency. Reichardt is a frequent author and presenter who discusses water conservation issues. He can be reached at klaus@waterless.com

🙌The Baja Waterless Urinal from Waterless Co. Inc. has just been named one of the best in 2024.

This recognition from Thehomebit.com highlights its unmatched quality and performance.

Here’s what makes the Baja a game changer:

→ The EcoTrap trap/cylinder blocks odors for a fresh, clean experience.

→ Compact design: 14” x 14.5” x 21.5”.

→ Lightweight at just 26.4 pounds.

→ Made from durable ceramic for long-lasting use.

→ No need for flush water supply lines.

→ Easy installation with no handles or flush sensors.

🔧Upgrade your restroom with the Baja Waterless Urinal.

Find it on Amazon: https://lnkd.in/gYGsz8q7. 🛒

Artificial intelligence (AI) models have witnessed remarkable breakthroughs and success in numerous areas. While still controversial, the potential of AI to positively impact our country and countries worldwide is undeniable.

While it has made significant strides in various fields, AI's environmental impact often goes unnoticed. While the carbon footprint of AI models has received some attention, its water footprint has largely been overlooked.

AI models are typically housed in energy-intensive data centers, which require vast amounts of water for cooling and electricity generation.

This water consumption can strain already limited freshwater resources, especially in regions of the world facing water scarcity - including right here in the U.S.

As the world's population grows and climate change intensifies, freshwater availability is becoming increasingly scarce. This pressing issue demands immediate attention.

That's why it is crucial to recognize AI's hidden water costs and explore strategies to reduce the water consumption associated with these data centers.

By doing so, we can pave the way for a future where AI contributes positively to our society without compromising our planet's precious water resources.

Fortunately, there is hope for a more sustainable future and it's called water-efficiency. At Waterless Co., Inc., we define water efficiency as:

"The responsible use of water resources through water-saving and water-eliminating technologies. It involves reducing our water footprint in business, industry, and home consumption. Focusing on water efficiency ensures we make the most of every drop, minimize waste, and protect this vital resource."

We can do this. We can, and we are finding ways to be more efficient with water. Let's stay committed to this cause and inspire others to join us in this crucial mission.

www.waterless.com

We've recently shared several articles about our product, EverPrime, on LinkedIn and our website. EverPrime is a biodegradable liquid that keeps the P-trap (also known as the U-trap or J-trap) under drains filled, preventing potentially toxic sewer odors from being released into restrooms and other facility areas.

Since then, we've received many questions about P-traps, plumbing maintenance, and EverPrime. Below, we share some of those questions and their answers with you. 

What happens when drains dry up?

A P-trap is a very practical device installed under almost all drains. As water goes down the drain, a small amount collects in the P-trap, helping prevent sewer gasses from being released into the room or area. However, P-traps can dry up when facilities such as schools or office buildings are closed for long periods or when restrooms or faucets get little or no use.  That’s when sewer odors are released.

What creates the sewer gas?

Sewer gas is formed from decomposing human and animal waste. It contains ammonia, methane, and hydrogen sulfide, all of which can be toxic if inhaled in high concentrations. Many people suffer eye irritation, nausea, or difficulty breathing if they inhale these gasses, and people have died as a result of sewer gas being released into an enclosed area.

Can you just pour some water down the drain if you smell the sewer odors?

Yes, you can, but here's the problem. By the time you smell it, it may be too late. When it comes to sewer odors, it is best to take proactive steps, preventing them from happening in the first place, instead of reactive measures, which deal with the problem after it presents itself.

Who is at risk?

We all are at risk if the situation is dangerous enough. And children may be at even higher risk because they breathe faster than adults.

Are there "levels" of sewer gas concentration?

Excellent question, and yes, there are. Here is what we know.

·       Concentrations of 0.0005 parts per million (ppm) can be detected and smells like burning chemicals or rotten eggs

·       At 0.01, it can cause nausea and eye discomfort.

·       From 0.02 ppm to as high as 20 ppm, can produce headaches, increase heart rates, impact cognitive abilities, and cause muscle coordination.

What steps can we take to prevent this from happening?

Adding water to the drain every day will help. If in a room that is mopped daily that should allow enough water to run down the drain to keep the P-trap from drying up. However, when no water goes down the pipes for days, weeks, or longer, that’s when the sewer odor problems surface. In such cases, a very inexpensive but effective product that can keep the P-trap filled for months is called EverPrime®.  

EverPrime is biodegradable and as we said, very cost-effective.  Only about three ounces of the product need be poured into each drain. Further, EverPrime is not impacted by climate conditions and it lasts for months.

Stay informed and keep your facility smelling fresh with EverPrime!

Winter's cold and dry air can dry out U-traps, allowing potentially harmful sewer gasses to escape into a facility.

👎The old solution: In the past, custodians would pour water or bleach down drains to prevent this, but this is a temporary solution. Bleach also harms the environment.

👍There's a better way! EverPrime from Waterless Co. is a professional, effective, and affordable solution.

What makes EverPrime different? 🤔

🎯It's biodegradable and eco-friendly: Safe for the environment.

🎯It's temperature resistant: Works in extreme heat or cold, unlike water.

🎯It doesn't evaporate: Provides long-lasting protection against sewer gas.

🎯And it's easy to use: Just mix three ounces of EverPrime with a gallon of water and pour it down the drain.

Want to learn more⁉️

Visit www.waterless.com or call toll-free: 800-244-6364 and keep your facility smelling fresh all winter long!

Iconic Video Required Thousands of Gallons of Water to Make

Released in 1985, Madonna's "Material Girl" is often hailed as one of the most iconic music videos ever created.

The four-minute video, made in just two days, presents Madonna as a spoiled heiress surrounded by nineteen tuxedoed suitors, all offering her extravagant gifts.

It's viewed as a glamorous reimagining of an earlier dance number made by Marilyn Monroe.

However, little is known about the video's environmental impact – such as how much water was used to make all the clothing worn in the video.

This includes all the clothing and tuxedos worn by the male dancers along with her own fashions, which included several pairs of gloves and numerous outfit changes over the two-day filming period.

It is because of this that Klaus Reichardt, CEO and founder of Waterless Co., Inc., a company known for its innovative no-water urinals, conducted a survey on LinkedIn, asking his followers and connections the following question:

How Much Water Do You Believe Was Used to Make the Fashions in the Madonna Video Material Girl?

The responses were as follows:

• 10,000 gallons: 13%

• 50,000 gallons: 33%

• 650,000 gallons: 33%

• Over 700,000 gallons: 21%

"The majority (over 50%) believed the water usage was a staggering 650,000 gallons or more," says Reichardt.

"And they’re probably right. Just a single t-shirt worn by one of the [male] dancers required a shocking seven hundred gallons of water to produce … so you can see how it took hundreds of thousands of gallons of water to make that video." (See Sidebar Below: How Much Water is in Your Closet)

Reichardt emphasizes that he is not singling out the fashion industry or any other industry for using huge volumes of water.

"Instead, when it comes to water, my goal is to empower all industries and all consumers to take responsibility for their water use. Our mantra should be reduce waste, use less, and always use water more efficiently."

Sidebar: How Much Water is in Your Closet

The amount of water it takes to produce the different types of clothing in your closet can vary significantly, but together, the amount can be staggering, especially for those items made of cotton. In general, it takes:

• Ninety-nine gallons of water to make a pair of socks.

• Seven hundred gallons to make one cotton t-shirt.

• Eight hundred ninety gallons to make one sweatshirt or hoodie.

• One thousand nine hundred gallons to make your favorite pair of jeans.

Sources: Florida State University; Sustainabilitymag.com

Note: Water efficiency refers to the intelligent and responsible use of water resources. The goals are to minimize waste and maximize the beneficial use of water. It involves using less or no water to accomplish the same task or produce the same result.

###

About Waterless

Waterless Co., Inc., Introduced waterless urinals to North America in 1991. Based in Vista, Ca, the company has become a leader in water efficiency. The company offers a full line of Waterless No-Flush urinals, cleaning solutions, and other cost-saving accessories. Visit: www.waterless.com

Waterless Co. Inc.

1050 Joshua Way

Vista, CA 92081 USA

800.244.6364

sales@waterless.com

Media Contact: Robert Kravitz

Phone: 312-880-8176

E-Mail: robert@alturasolutions.com

Madonna's 1984 hit, "Material Girl," catapulted her to stardom. The iconic music video, filled with opulent fashion, is a testament to her glamorous image.

However, not discussed is how much water was used to make this video.

What do you think?

Here’s a link to our survey on LinkedIn: https://tinyurl.com/33686am8

In the past few years, there has been a notable change in how we discuss water conditions in the U.S. and other parts of the world. Instead of discussing precipitation and rainfall, we’re going underground. It’s all about aquifers now.

⏳Since the beginning of time, vast volumes of water have been stored underground – just waiting to be tapped. But now we’re going too far. At least in the U.S., we are depleting ground water faster than ever before. And these aquifers are not being refilled – at least fast enough to compensate for how much is being pumped out.

This is because we are all becoming more dependent on ground water, more than ever before. Using it has become essential to everyday American life, for farming, cooling massive data storage centers, and mining, drilling, and other forms of industry.

🧑‍🏫Given the widespread and increasing reliance on ground water, what are the potential long-term consequences of this over-pumping? The implications could be significant and far-reaching.

Here are some takeaways you should be aware of:

📣The danger is worse than most of us realize.

According to a New York Times study, 45 percent of the aquifers in the country “showed a statistically significant decline in water levels since 1980. Four in ten sites reached record-low water levels during the past decade, and last year (referring to 2022) was the worst yet.”

This trend threatens entire communities and is happening now in places like Iowa, which is very dependent on groundwater for farming and industry.

🍲Reduced ground water supplies threaten our status as a food superpower.

Since World War II, America has been viewed as more than a military superpower. It’s also been viewed as a food superpower. It has always been one of the world’s largest exporters of corn, soybeans, some fruits and vegetables, and cotton. Groundwater depletion is threatening to bring that dominance to an end.

Just look at what’s happening to Kansas. Three million acres of land no longer have enough ground water to support large-scale agriculture. And forget traditional precipitation. As of June 2024:

·       Twenty percent of Kansas is in severe drought.

·       Twenty-four percent in moderate drought

·       The rest of the state is in abnormally dry conditions.

🌊The challenge has moved east.

Many of us believe the west is most impacted by the aquifer problem. Think again. In the Maryland suburbs, 75 percent of the aquifers currently monitored have seen water levels drop since 1980, some by more than one hundred feet. It’s expected that ground water in these suburbs near Washington, DC, will run out of water in about a decade.

To survive, what these suburbs will do is draw water from aquifers in other states, depleting their water resources in the process.

😞Nature hates a vacuum.

Let’s assume a huge groundwater source in Utah has been totally pumped out. Now there is empty space where the water was once stored. Expect the surface to collapse in these areas. This is already happening in parts of Utah and other western states. This means homes, industry, and entire communities sitting atop these former aquifers are likely to collapse as well, as if an earthquake hit the area.

🏛️Dealing with the challenge.

Like it or not, more regulations of groundwater are urgently needed. There are regulations in most states about the use of groundwater, but they are not always enforced or have not kept up with the many changing demands on this water.

This will need to change.

🏛️But in the interim - and for the long-term - water efficiency is the only answer. For instance, using water only when and where needed is the most efficient way to consume water. We are already seeing this happening in commercial restrooms, which use staggering amounts of water. More efficient toilets, faucets, showers, and urinals are being installed.

As to urinals, what is increasingly happening is the installation of no water urinals. Most areas of the country and the world have come to realize water is simply not necessary for urinals.

 -Klaus

-Klaus Reichardt is CEO and founder of Waterless Co, Inc., a pioneer in advancing water efficiency. Reichardt is a frequent author and presenter who discusses water conservation issues. He can be reached at klaus@waterless.com

In the past, commercial restrooms changed very little, installing the same water-guzzling fixtures used for decades. Toilets were notorious for using 2 to 5 gallons per flush, and urinals were not much better. However, the landscape has changed, and we're now witnessing a promising shift in restroom technology.

It all started in 1992 when Federal regulations limited the amount of water used by restroom fixtures like toilets and urinals, significantly reducing those sky-high water volumes.

👨‍🎤But, as the song goes, You Ain't Seen Nothing Yet, * the future of commercial restrooms is now brimming with exciting new water-saving opportunities.

Let's embark on a journey together to explore what's on the horizon. I hope you are like me, filled with hope and anticipation for what's to come! 🚞

Smarter fixtures. Expect smart fixtures to get even smarter. The sensors on these systems have improved significantly over the years so that water stops seconds after a user pulls away from the fixture. But now, smart fixtures attached to sinks can anticipate when you are about finished using the sink. When this is detected, the sensors start reducing the amount of water flowing from the faucet, reducing water consumption and minimizing water waste.

Waste detection. Today's toilets use about a 1.5 gallons of water per flush or less, saving billions of gallons of water. But engineers want to reduce that even further. What is now being evaluated are toilets that can sense the amount of waste deposited in the toilet and determine how much water is needed to flush it away. This innovative technology holds the potential to significantly reduce the amount of water used to flush toilets. It’s a perfect example of using water more efficiently.

Greywater makes its mark. While it has been discussed for years, using greywater to flush toilets and urinals will soon become a reality in more restrooms. Greywater is water that comes from showers, sinks, and washing machines. It will be treated by mini-retreatment plants built into commercial facilities, saving thousands of gallons of water per facility every year.

Waterless urinals: These are now recognized as the big game-changer in sustainable building design, offering significant environmental and economic benefits. By eliminating the need for a water supply line, they not only conserve an impressive amount of water but also reduce the complexity and cost of urinal installation. Their increasing adoption in future commercial restrooms is a testament to the inspiring impact of these urinals.

Messaging. Effective messaging strategies can further reduce water consumption significantly. When a user uses too much water at a sink, for instance, a message will start blinking, urging the user to stop. Such messaging is expected to help us all use less water no matter how or where it is used.

By combining all these approaches, commercial restrooms have the potential to reduce their water footprint dramatically in the coming years. But this is more than about saving water; it's about making a significant environmental impact.

🎇In time, you'll see what I mean when I say: "you ain't seen nothing yet." Change is coming fast, helping us reduce water consumption and preserve our planet's most precious resource.

-Klaus

*The song, You Ain't Seen Nothing Yet, was written by Randy Bachman in 1974 for the Canadian rock band Backman-Turner Overdrive.