The number of states and cities offering rebates to install water-reducing fixtures, such as Waterless urinals, varies year after year.

In most cases, the rebates are designed to expire after two to five years. Sometimes they are renewed; other times, they are not. Further, some states in the country have never had a rebate program for water-reducing fixtures. However, once they experience a drought or a water shortage, they typically begin one.  

The point of this is that these programs are not set in stone. They do come and go.  Also, be aware of the following:

·       In some states, only certain cities or water districts within those states have a water-related rebate program. 

·       The rebate may apply only to residences in some situations or commercial facilities, or both.

·       In some instances, the rebate is in the form of a tax credit; in other situations, it is applied when the fixture is purchased.

·       The credit may be covered by a non-government, private association set up to help reduce water consumption in a specific state.

·       The water rebate may be based on the amount of water saved by purchasing the new fixture.

·       The amounts of the rebate vary.

·       In some cases, the rebate applies to toilets only; in others, it includes urinals and additional fixtures proven to use water more efficiently.

Aware of all this, the following are the states in the U.S. that currently have some sort of rebate program in place as of 2020 for installing water-reducing fixtures.  

Massachusetts 

Dedham Westwood Water district

Virginia

Charlottesville

Purcellville

Virginia Beach 

Brevard county

Georgia

Griffin

Cobb County Government

Metropolitan North Georgia Water Planning District

Florida

Miami Dade

Pasco County

Petersburg

Cocoa

Broward county 

Melbourne

Tamarac

Titusville

Hillsborough County Board of County Commissioners

Manatee Board of County Commissioners

Texas

College station

Garden Ridge

Round Rock

San Marcos

New Mexico

Santa Fe

Colorado

Brighton

Greeley

Northglenn

Thornton Water Resources Division

Woodmoor Water and Sanitation District

Denver

Aurora

Boulder

Arizona

George County

Washington County

California

Desert Water Agency

Santa Clara Valley Water District

Menlo park

Mammoth Community Water District

Soquel Creek Water District

Pleasanton

Marin county

Brentwood

Redwood City

Marina Coast Water District

Windsor

Riverside

Metropolitan Water District of Southern California

Bay Area Water Supply and Conservation Agency

Vandenberg Village Community Services District

Rohnert Park

Monterey Peninsula Water Conservation

California Urban Water Conservation Council

San Benito County

Roseville

Napa Sanitation District

California Water Service Company

Zone 7 Water Agency

Santa Cruz

Sacramento County

Burlingame

Santa Rosa

San Francisco

Daly City

Watsonville

San Juan Water District

Oregon

Portland

Ashland

Washington

Cascade Water Alliance

Kent

Pullman

Saving Water Partnership (applicable to many cities in the state)

Have you ever gone into a public restroom and heard someone in the next stall having what sounds like a conference call with a dozen people? 

Expect those “conference calls” along with 20-minute “beautifying” sessions in public restrooms to be things of the past in the post-COVID-19 era.

“Public restrooms are no longer the place to use your phone, do your hair and makeup, [or] that sort of stuff,” Elizabeth Scott, an associate professor of biology at Simmons University in Boston and founder of the Simmons Center for Hygiene and Health in Home and Community, says in a recent article in New Jersey’s The Daily Journal. “You [will] want to get in and out of there as fast as possible.”

This is just one of several changes we can expect. Along with modifications in the way's restrooms are cleaned and sanitized, we can anticipate major structural redesigns as well.

Some of these shifts are long overdue. For instance, have you ever opened a restroom door to find a line of people inside waiting to use the facility? Consider that another condition of the past. More restrooms will be designed with availability indicators. As one person leaves, a light installed outside the restroom will turn from red to green to indicate the next patron may enter.

Further, restroom users may no longer come in and leave through the same door. Especially in larger restrooms, you can soon expect two automatic doors—one for entry and one for exit. This not only will help regulate occupancy but will also reduce the number of surfaces touched. More restrooms will also have s-shaped doorless entries, such as those in airports and other heavily used facilities.

Protection from the plume

Of interest to cleaning professionals, restroom design will include features to deal with toilet plume—aerosolized droplets of water that spread germs.

Plume, whether from toilets or urinals, is caused when they are flushed. They release germ-infected particulates that invariably land on nearby surfaces, but which can also be inhaled.

The problem may be worse with urinals as plume can also be released through splatter when the urinal is being used. Cleaning professionals have known about plume for years, but it is of greater concern today because recent studies have reported traces of the novel coronavirus in urine and solid waste.

If these particulates are inhaled or touched when they land on surfaces, cross-contamination can begin, causing the spread of the disease.   To address this situation, more facilities are likely to consider installing no-water urinals. No water means no splatter and no flushing, which means no plume.

As for toilets, we may see the comeback of the toilet lid. These were removed decades ago in commercial facilities because they added to the cost of the toilet and were one more thing to clean. However, lids can play a key role in controlling plume by blocking its release or minimizing the particles that become airborne.

Social distancing

Along with the loss of toilet lids, many restrooms no longer have partitions between urinals. Most likely the reasons for this are similar to why toilet lids disappeared; partitions require the added cost of installation and increase the number of surfaces that must be cleaned.

But in the post COVID-19 restroom, keeping a six-foot distance between restroom patrons is ideal. The simplest way to accomplish this is to put more space between urinals and to install partitions—or  longer partitions—between urinals. We can expect to find these solutions implemented in men’s restrooms moving ahead.

Enhanced ventilation

After the 2002-2003 outbreak of SARS in Hong Kong, studies indicated that poor ventilation played a role in exacerbating the spread of the disease. It is believed the same may be true with COVID-19. Joe Allen, director of Harvard’s Healthy Buildings Program, says in a recent article on nationalgeographic.com, “I always remind people to check the exhaust in the bathroom.” He added that moving “dirty” air out of the restroom is one of the best ways to safeguard against contamination.

Gender-neutral options

Gender-neutral restrooms were the talk of the restroom industry about two decades ago. Several avant-garde hotels and commercial properties wanted to be the first to install them. However, they never really took off.

But COVID-19 may have turned things around. With a gender-neutral restroom, toilets are housed in individual stalls. These stalls often have floor-to-ceiling partitions, eliminating open top and open bottom partitions, making them fully enclosed with walls. Sinks are available in a common area.

A totally enclosed stall offers privacy and safety, as well as social distancing. Steven Soifer, cofounder of the American Restroom Association, is advocating the installation of “single-person, gender-neutral restrooms.”  However, this may be a costly option.

The journey continues

We can expect more changes in the post-COVID restroom. Even when COVID is no longer an issue, it will have caused many restroom manufacturers to reconsider how restrooms are used and how they can be redesigned to further promote health and safety.

There are Pros and Cons to just about every product or service we use. This is also true of no-water urinals. Because our goal with the Waterless Blog is to educate and inform, and in order to provide complete transparency, we thought we would re-publish sections of a study conducted in 2006 by McClure & Associates, a leading engineering and consulting firm located in Tyler, Texas. 

The following are their pro and con conclusions when it comes to no-water urinals.

ADVANTAGES

Water Savings: Newer models of conventional flush-type urinals use about one gallon of water per flush. Older ones can use from three to five gallons of water. Because no-flush urinals use no water, one to five gallons of water is saved with each use.

Low Maintenance: Waterless urinals generally require little maintenance. The absence of a flush valve eliminates valve repairs and reduces opportunities for tampering. Additionally, overflow due to clogged drains and vandalism is not a problem since large amounts of water are not being flushed. Further, according to manufacturers, drain lines on waterless urinals are less susceptible to clogging.

Improved Hygiene. Water used by conventional urinals gives germs in the restroom the moist environment they need to grow. Manufacturers design waterless urinals to dry out between uses. This makes them hostile to bacteria and viruses. Also, since there is no handle, no-water urinals are touch-free, reducing the spread of communicable diseases.

Odor Control.  According to at least one manufacturer, the absence of a water-urine blend in the bowl lessens the prevalence of odors often associated with urinals. The sealant liquid filling the trap is designed to keep odors out of the restroom. However, some owners report that odors might become noticeable if the supply of sealant liquid is allowed to run out.

Environmentally Friendly. Waterless urinals contribute positively to the environment. The absence of flushing reduces the water demand. Also, since no water goes down the drain, additional wastewater requiring treatment is not generated. Further, the special drain cartridges and inserts used in some models are recyclable. Finally, the sealant liquid composed of natural oils is biodegradable.

Green Building Credits. Nowadays, many new construction projects are earning certification as "green buildings" under the LEED program developed by the U.S. Green Building Council. Installation of waterless urinals helps gain water conservation points.

Costs: Costs for waterless urinal fixtures range from about the same to somewhat more than their conventional counterparts, depending on the model chosen. However, installation costs can be lower if no water supply plumbing is installed. Therefore, initial costs for waterless urinals are generally less than for flush type urinals in new construction.

DISADVANTAGES

User acceptance. Some owners report reluctance on the part of users to accept the waterless urinals at first. Two universities reported that signs posted near the urinals explaining how they work and why they were installed seemed to increase favorable responses in these cases. (NOTE: This is less of an issue today than when this study was conducted).

Retrofits.  When replacing conventional urinals, removal of flush valves and capping of water supply lines will be necessary. Some remodeling may be required to lower the drain lines to bring the new waterless urinals to the proper mounting height.

Local Approval. Acceptance of no-flush urinals varies from city to city. Some municipalities allow them and offer incentives for installation, but others reject them. (NOTE: This is no longer an issue. Waterless urinals can now be installed in every city in the United States. It was, however, an issue when this study was undertaken.)

Cleaning. While cleaning no-water and flush urinals are very similar, no-water urinals do require periodically attending to the cartridges placed at the urinal base. Liquid sealant does need to be applied to these cartridges. Further, they need to be replaced every two to six months, depending on usage.

SUMMARY

Waterless urinals can offer a viable alternative to the conventional flush-type. Potential advantages include odor control and improved restroom cleanliness, water savings, reduced maintenance, and environmental friendliness.

Before installing waterless urinals, a pilot program for evaluation is recommended. This allows owners to become familiar with and gain confidence in the product and properly train [custodial crew] to maintain them. There can be a learning curve for custodial staffs to understand the proper care of the fixtures. 

Also, a life cycle cost analysis should be performed to determine actual cost savings. 

"Waterless Urinals: Features, Benefits, and Applications," by Gary Bristow, P.E., C.E.M., James D McClure, P.E.; and David Fisher, P.E.; Journal of Green Building. Winter 2006

We are all accustomed to reading FAQ's, the frequently asked questions, about this or that. But sometimes, there are LFAQs – less frequently asked questions – that can prove just as important and insightful.

Realizing this, we have put together the following LFAQs that apply to waterless urinals.

Many facilities are now re-imagining and renovating their restrooms because of COVID.

If yours is one of them, you just might want to print this out.

LET US BEGIN:

There is a trap or cylinder at the base of the no-water urinal. Does this need to be cleaned?

So, we are all on the same page, the EcoTrap ® is the cylinder installed at the base of a Waterless urinal. While the trap's top surface should be wiped clean when the urinal's interior is being cleaned, there is no reason to remove the trap for cleaning, nor does it require any special cleaning.

Does the waste-line or plumbing connection from the no-water urinal to the sewer below need to be cleaned?

Nope. There should be no reason for this to be performed, unless as with flush urinals, there is an obstruction in the pipe.

But doesn't urine crystallize, and won't this crystalized sediment build-up in the pipes below?

The hard urine crystallization one knows from flushed urinals no longer happen as no-water urinals are used. What remains in a waterless urinal drain line is a soft sediment, which should not harm the pipes below.

How long does it take to install a waterless urinal?

Interestingly, this question usually does not come up until the day the plumber arrives to install the urinals. In most cases, to remove an old, flush urinal, and install a new waterless urinal takes about an hour. This can vary if the "footprints" of the two urinals are not similar or if there are unexpected issues that arise during installation. But expect the removal and installation time to be about one hour.

How many waterless urinals are installed around the world?

This is a tough one to answer because there are many different types of no-water urinals worldwide. Some are not even what we would classify today as a no-water urinal.

However, it is believed that waterless urinals number about three percent of all the urinals installed in buildings and residences around the globe today. This means there is plenty more to go!

How many companies manufacture no-water urinals?

Another tough one because some manufacturers have entered the marketplace and then quietly disappeared. There are several manufacturers in North America, but just two key manufacturers of no-water urinals and Waterless is one of them.  In Europe, Asia, and India, there are a few more.

Should I shop around before selecting a waterless urinal?

Absolutely and once again, few people ask this question. It's probably because most people believe no water urinals are all the same.  Let us put that belief to rest: no, all waterless urinals are not the same.  There can be many differences in design, the ways the system work, and a key difference, is the cost of ownership. Some popular waterfree urinals cost far more to own after installing than other types of no-water urinals.

We are an all-boy high school, with over 700 boys enrolled.  Is there a "boy limit" when it comes to selecting waterless urinals?  Some of our staff thinks we have too many boys to install no-water urinals.

No, there is no such thing as a “boy limit”. Like flushed urinals, no-water urinals are designed for all high and low traffic facilities, including high schools and educational facilities.

Water stagnation occurs when water is not drawn through the plumbing system of a building for extended periods. A school is a perfect example. Many schools closed at the end of May and do not reopen until September or October. During that time, water stagnation can occur.

This problem is intensified right now because so many schools have been closed for months due to the pandemic. Further, some that have opened may close again as the pandemic spreads.

When water stagnation occurs, it can result in the following:

· Water stored in the "P-traps," located directly under floor drains and other drains may dry up. This causes sewer odors to be released into the facility. But even worse, these fumes may contain pathogens that can cause disease. This was demonstrated during the SARS epidemic in Hong Kong. It was found that many of the P-traps had evaporated in a large apartment complex. The pathogens that caused SARS were in the sewer waters below the building.  When this happened, these pathogens were released through drains, spreading the disease. Scientists believe the same could happen with the pathogens that cause COVID.

· Harmful microorganisms, including Legionella, can build up in the water. Once again, this can include microorganisms that can cause COVID. If this contaminated water is consumed or inhaled, it can prove extremely dangerous, especially for children and older adults.

To address these issues, building owners and managers are advised to do the following:

·       The CDC and other organizations recommend pouring water into drains.  However, this is only effective if performed on a set schedule, as often as once per week.  A more dependable option to keep the P-pipes from drying out, is to pour a small amount of Everprime directly into drains on top of the water in the P-trap.  This helps prevent the traps from drying out for months at a time.

·       The microorganism issue is a bit more complicated because unforeseen problems can present themselves. Therefore, it is recommended that if a building has not been used for an extended period, building engineers should be called on to run sinks, showers, and flush toilets and urinals (if flush urinals are installed) throughout the facility before it opens for public use.

In most cases, this will help remove any contaminated water from the pipes. However, to be sure, and especially if this is an older building, tests should be conducted to ensure the water is safe to drink and use. In some cases, the building's water system may need disinfection treatment.

Stagnant water should not be an issue if waterless urinals have been installed. However, if the facility has been closed for several months, check that the Blueseal is adequately filled in each trap cylinder located at the urinal base.

While Blueseal does not evaporate and will likely not be impacted by lack of use or building closures, it still should be checked.

Finally, check your hot water system. Hot water heaters should be set at 120 degrees (F). When flushing hot water taps, run the water until it reaches its highest temperature. This will help move the stagnant water in hot water taps and ensure that the hot water heaters are working correctly.

One of the most promising developments in reducing water consumption, is the development of "dual flush toilets." They are being installed in both commercial and residential settings.

Their promise is this:

By releasing a smaller amount of water for liquid waste and a larger amount for solid waste, overall, the toilet will use about 1.28 gallons of water per flush instead of 1.6, the current standard, and required minimum.

However, just published tests by water-saving organizations in the U.K. are painting a different picture. They say that between five percent and eight percent of these toilets are leaking water. This is the result of the dual flush mechanism installed in these toilets. 

In the U.K., it is estimated that nearly 90 million gallons of water
are lost each day due to this failure.  

In many ways, we could say this is a "drop in the bucket," since millions of gallons of water are wasted in most water systems worldwide. 

However, this number mounts up. According to the BBC, it is enough water to supply nearly three million people annually.

But there is something more to consider as well. In most cases, people have selected these toilets because they want to save water. That really is the only reason to select them. Imagine their surprise when they realize their facility (or homes) water consumption has gone up since installing these toilets.

And one more thing: how many of us check our water bills that carefully? Many people never even realize they are wasting water, and if they do, it could be years after these toilets have been installed.

As we mentioned, this information has been uncovered recently, in mid-2020. Now, water companies are asking bathroom manufacturers to "design this problem out of existence," reports the BBC. "Individual companies have gone into looking at the issue… but haven't cracked what the underlying issue is. [However,] there is a commercial and moral imperative [for them] to ensure their products reduce leakage wherever possible."

While the story focused on the U.K, what is happening there is likely happening with dual flush toilets in our country and around the world. So, what can building owners, managers, and homeowners do to see if their toilets and other fixtures are leaking water and make sure their water-saving fixtures are really saving water?  

Among them are the following:

The food color test. Lift the tank lid and pour a small amount of food coloring in the tank. If the coloring appears in the bowl – before flushing - it means there is a leak.

The shutoff test.  With the water turned off to the toilet, flush the toilet. The water should now be at the bottom of the tank. Mark the water level. Wait a few hours. If the water has dropped further, this typically indicates a leak.

The drop level test.  First, get a calculator. Second, have a "drink" handy. It might make this test a bit easier.

Then do this:

1. Turn off the water to the tank. 

2. Measure the length and the width of the tank in inches. 

3. Measure how much water is in the tank, starting from the tank's bottom to the top water level (this is depth 1).

4. Flush the toilet and measure the drop from the bottom of the thank to the current water level (this is depth 2).

5. Subtract depth 2 from depth 1. This provides the "drop measurement."

6. Multiply the length of the tank times the width of the tank times the "drop measurement." This gives you the volume of cubic inches of water used per flush.

7. Next to the final step. Divide the volume by 231. This will reveal the total number of gallons per flush.

8. Grab the drink, celebrate, or if you made a mistake, start over.

Example:

Step 2 – Length: 17.5

Step 3 – Width: 7

Step 4 – Full level: 6

Step 5 – Low level: 3.5

Step 6 – 6 minus 3.5 = 2.5

Step 7 – 17.5 x 7 x 2.5 = 306.25

Step 8 – 306.25 divided by 231 = 1.32

Something that is all too often overlooked in new construction and building renovation is floor drains. They perform an incredibly important job. They help remove surface water away from the surrounding area. Doing so helps prevent flooding, damage to surrounding walls, furniture, and equipment, and promote safety.

However, not all storm drains are alike, starting with their covers.  They are technically called "drain covers," but for our purposes here, we will call them drain covers. We have all seen them. Now we are going to learn more about the things most of us have always wondered about.

For instance, the grate's purpose is to prevent debris from making its way down the drainpipe, potentially causing a clog. If the drain is, for example, installed in a public restroom floor or in the laundry room in a house, the openings in the grate may be wider. The assumption is that there will be limited amounts of debris entering the grate, and the wider the gaps, the faster water will be removed from the area.  

On the other hand, the drain covers installed over drains outside of a building may have smaller openings, even if the grate's size is larger. 

This way, water can flow down the drains, while at the same time, leaves, paper, and other debris that might be found outdoors are blocked from going down the drain.

I bet you did not know this, but these grate openings even have a name. They are called "free areas." They must be open wide enough – free – to allow proper drainage while not creating a safety problem by being too large or allowing too much debris to go down the drain.

So now that you know some basics about drain covers, here are more things you probably have wondered about:

Are there designer drain covers?

Yes, in indeedy there are. Manufacturers make basic looking drain covers as well as more stylish drain covers for different settings, such as in a home or a fancy restaurant. A wider assortment of drain covers are now available because manufacturers want them to add to a décor and not detract from it. Plus, they can be custom made.

Are there regulations about drain covers?

Yup. Floor drains and drain covers need to comply with local plumbing codes where applicable. The ASME, American Society of Mechanical Engineers, has also established guidelines and regulations regarding floor drains and coverings. For the most part, these guidelines are written into plumbing codes around the country.

How do we know what size grate to install?

The grate and floor drain size must meet the anticipated volume of water that will flow through the drain covers and down the drain without causing any backup of water on the floor. The ASME guidelines mentioned earlier can also serve as a guide as to what size grate/floor drain is needed in different settings and situations.

Because we walk on them, how do we know the grate is safe enough to walk on?

Good question. There are light, medium, heavy, and even extra heavy drain covers. A light-duty grate can withstand about 2,000 pounds on it. An extra heavy grate, 10,000 pounds.

Do drain covers need to be cleaned?

Typically, with regular floor cleaning, the top of the grate – the part we see – can be kept clean. However, scum and debris, including germs and bacteria, can build up on the underside of the grate. This has the potential of attracting insects, so every so often, drain covers should be removed, and the underside cleaned.

What if odors are coming from the drain cover?

Unless the underside is heavily coated with scum, odors do not come from the grate, but the drainpipe below. Invariably, this means the P-trap has gone dry. The water in the P-trap that blocks odors has evaporated, creating a direct line to the sewer. Pour a little water and a few ounces of EverPrime into the P-trap. That will eliminate the odor problem for months.

If you’re comfortable about traveling in the fall of 2020, now might be a good time to visit Washington, DC. Currently on view at the National Gallery of Art in Washington, are a collection of 19th century photos taken of Paris, as it evolves from a medieval city to become, what Napoleon III was after, the most modern city in the world.

The images were taken by a man who had already made his mark as one of the most famous photographers in the world, Charles Marville.

Only 5 feet 2 inches tall and holding a large-format 8-inch by 10-inch camera, he took pictures of Paris districts moments before they disappeared. He knew where entire neighborhoods were about to be torn down, so he took pictures of them as they currently looked, as they were being torn down, and then again, when all that was left was rubble.

He also captured pictures of something that was quite common in Paris and most European – and possibly American – cities in the 19th century: tossing bathroom waste into the streets. 

Paris at that time was, as someone delicately put it, "a giant hole of putrefaction."  There was no sewer system so the only way to remove bathroom waste, along with dish water and just about any other form of liquid waste, was to toss it out the window.

While this is not part of the showing at the National Gallery of Art, it might be worth noting that it is because of all this waste tossed into the streets that high heels were invented.  In those days, women’s dresses tended to touch the floor.  High heels helped women stand a few inches taller.  This way, their dresses did not quite touch the street. And just in case, by wearing high heels, it also made it a bit easier to lift the long dresses up.

But getting back to our story.  One of the other things that captivated photographer Marville, were the new pissoirs being installed all over Paris.  This was quite an invention and something Parisians soon became enormously proud of.

All the pissoirs had a fence around them, supported by poles.  There was no roof and there was one opening, on one side, to enter and exit.  The fence provided privacy, covering the user from the shoulder down to the knee.

Urine traveled down to the newly built sewer below.  Some used water to help flush down the urine, but most were waterless.  By the 1930s, there were about 1,200 pissoirs around Paris and during the war, they took on a new role.

Unbelievably, the French Resistance found them to be one of the best meeting spots in the city and a good place to pass on messages.  There was even a game invented called The Saboteur.  Set in Paris during World War II, pissoirs were used as hiding places.

Sadly, the pissoirs were removed in the 1960s. They had done their job for decades, but the decision was made that they had to go.  However, forms of pissoirs, but a bit more discrete, are still found in the city and even in the U.S.

Should you visit the National Gallery of Art, you will see not only the old Paris being torn down and the new Paris being built, but all the things that has made Paris one of the most beautiful cities in the world, including the charming old pissoirs.

Bet you know a lot about water conservation?  After all, if you’re reading our blog, then water-conservation and using water more efficiently is important to you.

But how about if we take a little test to see how swift you really are, when it comes to water.

Don’t worry.  This is an easy test, and I’m sure you will pass with flying colors (chuckle, chuckle).

So, let’s begin. 

The answers are below (no cheating).

1) We know that more than 70 percent of the earth’s surface is covered with water. But how much of that water is available for everyday use for people around the globe?

·        1 percent

·        10 percent

·        20 percent

·        25 percent

2) You’re trying to reduce water consumption but can’t decide whether to take a five-minute shower or a five-minute bath.  Which do you think uses less water?

·        The five-minute shower

·        The five-minute bath.

3) You’ve just finished dinner and are wondering, which uses more water

·        Washing the dinner dishes

·        Brushing your teeth

·        Fixing that leaky toilet in the guest bedroom

·        Taking a long shower.

4) Your spouse wants you to go around the house and fix all the household water leaks.  She says we can save money and water. But you think she is just trying to get you and the guys away from the game on TV this Sunday.  But then you ask yourself, how much money could we save if I fixed all the water leaks?

·        Eight percent off the monthly water bill

·        Ten percent

·        18 percent

·        Just one percent.

5) You are the manager of a large office building and recently had all the old toilets removed. Instead of installing new toilets with automatic sensors, you decide to install dual-flush toilets.  Dual-flush toilets cost less because there is no sensor and reportedly use about 20 percent less water.  A few months later, you are anxious to see how much water you are saving.  Here is what you find:

·        The dual-flush toilets have reduced water consumption by 20 percent.

·        There has only been a five percent reduction in water consumption.

·        Water consumption has gone up.

·        There has been no change.

6) The building manager we just mentioned has decided to remove all the old, flush urinals and install waterless urinals. She has narrowed her choice to three leading manufacturers.  The urinals look about the same and cost about the same, making her decision difficult. To help her make up her mind, you suggest one of the following:

·        Select the model that costs the least amount of money to install.

·        Select the newest brand. You tell her “new” often means “improved.”

·        Select the brand that costs the least to own.

·        Select the brand offering the best warranty.

Answers:

1.   Less than one percent

2.   A five-minute shower uses 10 to 25 gallons of water.  A bath, whether five minutes of 50 minutes, uses about 70 gallons of water.

3.   Leaky toilet. It is estimated that a leaking toilet can waste as much as 200 gallons of water every day.

4.   When all water leaks are eliminated in a home, it can reduce the monthly water bill by about eight percent.

5.   Recent studies indicate that dual-flush toilets waste large amounts of water due to how the dual-flush mechanism is designed.  Because of this, water consumption often goes up.

6.   While there are price ranges, no-water urinals can cost about the same and have about the same warranty.  However, only the Waterless brand is the least expensive to own. This is because its EcoTrap cylinder lasts longer than other brands and is also less costly.

Unbelievably, with so many people that have been in the hospital, many hospitals in the country are just scraping by.

And even though health care costs have been going up and up, so have hospital operating expenses. And COVID has made things worse.  Hospitals make the bulk of their money on different surgical procedures.  All but the most serious have been put on hold due to the virus.

So, this means hospitals must cut costs to stay solvent, especially now.

Here are some surprising ways they can make this happen:

Forget overnight shipping. Some vendors automatically ship supplies to hospitals overnight.  However, unlike retailers that serve consumers, the costs to overnight hospital supplies are often added to the shipping costs.  Order supplies well in advance of running low.  Standard shipping, which may be free and take a few days, should suffice.

Buy when they cry. Again, related to supplies, too many hospital purchasing departments put ordering on automatic pilot: the hospital's computers automatically order supplies when they need to be replenished.  A much better option is to have the computer signal purchasers that it might be time to start shopping – and compare prices - for individual items. Take advantage of distributor or manufacturer discounts.  According to one hospital administrator, “we buy when they cry” – meaning when the vendor is hungry to make a sale.

Start a wellness program. Health insurance to cover hospital employees is going up just like everyone else's.  A hospital in Ashville, North Carolina, started a wellness program, coaching its staff on watching their weight, preventing diabetes and asthma, and ways to lift and carry to protect their back and ligaments.  The result: their health insurance costs went down 15 percent in a year. Why? "Our employees were better able to take care of themselves and their health,” said a spokesperson with the hospital.

Create a Kaizen team. A hospital in Royal Oak, Mich., started a "Kaizen" team.  Kaizen, in Japanese, means “continuous improvement.” Their job was to walk the entire hospital campus once per month, looking for plants and vegetation that could be swapped out for native plants that use less water. Doing so helped them "turn off the sprinklers¸ and that saved [us] 500,000 gallons of water every year, along with the costs of that water,” said Kay Winokur with the Kaizen team at the hospital. "Unless you go out and walk, you won't notice these things,"

Go waterless.  While there are no "averages," let's say a hospital has three men's rooms per floor, each with three urinals. The hospital is ten stories high.  That means there are 90 urinals in this hospital.  If each of those urinals is replaced with a waterless urinal, the hospital will save more than three million gallons of water annually - a massive water saving - which quickly translates into dollars-and-cents savings. The Michigan hospital mentioned earlier, replaced all inefficient urinals, sinks, and toilets.  The cost savings: $257,000 annually.

Turn off the coffee pots. While looking for water savings, the Kaizen team found that the hospital had 110 commercial-sized coffee pots, all with heated water and all running 24 hours per day.  That might have been helpful during the day, but by evening and over the weekend, half the hospital staff had gone home. "The Kaizen team suggested using timers on all coffee pots," said Winokur. "Now, coffeepots are shut down when employees leave for the day, and they restart an hour before employees arrive in the morning. This saved us $34,000 a year."

Winokur also advises hospital administrators to look around, looking for savings. "We wouldn't have gotten [these savings] if we didn't go and observe. Look at everything that is plugged in, draws energy, or uses water. There are always ways to save."