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Water Use Efficiency Vital for Commercial, Institutional Facilities

Water Use Efficiency Vital for Commercial, Institutional Facilities

Water Use Efficiency Vital for Commercial, Institutional Facilities
Clark's Remarks
Water Use Efficiency Vital for Commercial, Institutional Facilities
Conserving water resources is key to any overarching sustainability plan and that resonates strongly in South Florida, from where our own Larry Clark sends this dispatch.
Larry Clark
May 03, 2021
This column has often been devoted to technologies related to energy efficiency. Energy reduction is, of course, directly related to carbon reduction, and is a critical climate change mitigation strategy.
Conserving water resources is also key to any overarching sustainability plan and resonates strongly here in South Florida, where we see the effects of sea-level rise every day. Recently I had the opportunity to present at the 2021 Water Conservation Expo, hosted by the South Florida Water Management District . The following is excerpted from that presentation, which addressed water use efficiency in commercial and institutional facilities:
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The question of why water conservation in commercial and institutional buildings is important is fairly obvious. A study released in 2017 by the U.S. Energy Information Administration indicated that 46,000 of the largest – which they defined as more than 200,000 square feet – commercial buildings in the U.S. used 2.3 percent of the country’s total public water supply. Now, 2.3 percent may not sound like a lot, but in 2012, that represented nearly a billion gallons of water per day.
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According to that study, hospitals, correctional facilities, and hotels – in that order – were the largest water consumers and had the highest water intensity in gallons per square foot. Of course, those types of facilities – hospitals, prisons, and hotels – represent a much smaller share of the total building inventory than do commercial office buildings. A typical office building can have a water intensity which is less than a third of that of a hospital, but in the U.S., there are approximately 97 billion square feet of office buildings compared to only 2.3 billion square feet of hospitals. The EPA estimates that together, those hospitals, office buildings, and other commercial and institutional facilities use 17 percent of all publicly-supplied water in the U.S.
EPA
Interestingly, regardless of a building’s end-use, some 30 to 40 percent of the water use in buildings is typically for restrooms. So those are obviously low-hanging fruit when owners are looking for ways to conserve water. A number of state and national programs support water efficient plumbing fixtures and equipment, perhaps most notably the EPA Water Sense program . And the efficiency of these fixtures is constantly improving.
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In 1994, 3 to 5 gallons-per-flush (gpf) toilets started being replaced with 1.6 gpf (which became mandatory for commercial buildings in 1997). By 2014, 1.28 gpf was the new standard in many jurisdictions, 1.1/1.6 gpf dual flush toilets were gaining in popularity, and today 0.5/0.8 gpf dual-flush toilets are sold on the internet. Lavatory faucets and shower heads are also much more efficient than in the past, and even simple, inexpensive faucet aerators provide tangible water savings.
iStock
Clearly, conserving water in any commercial or institutional building should start with the development of a water management plan, and should include an assessment of the building’s water use in order to identify opportunities for reducing water consumption. It should also provide a means for tracking the results of any water conservation measures that are implemented. The old saying that you can’t manage what you can’t measure definitely applies to water conservation.
Of course, many of the water conservation measures in commercial and institutional facilities are just commonsense maintenance practices, like regularly checking for leaks and promptly repairing them. Not as obvious, perhaps, are measures such as retrofitting older, less efficient, water-consuming HVAC systems and equipment.
South Florida – like other vacation destinations – has a plethora of hospitality properties, and all of those visitors want clean sheets and towels. So it’s not surprising that hotels use 16 percent of their total water consumption in their laundry operations. A full-service hotel (one with a restaurant, pool, and banquet facilities) will typically wash 12 to 14 lbs of laundry per room per day. In a resort, with golf and tennis facilities, that can jump to 16 lbs per room per day. Towel and linen reuse programs, that encourage guests to use their towels and linens more than once during their stay can save an average of 17 gallons of water per day per occupied room, while also saving electric energy and reducing detergent use
Finally, for commercial and institutional facilities seeking green building certifications, water conservation is a must. LEED, Green Globes, and others all require buildings to demonstrate significant reductions in water, either through compliance with prescriptive requirements or by demonstrating successful performance outcomes, or both.
For example, the just-released Green Globes for Existing Buildings 2021 allocates 185 out of a possible 1,000 points to water. Of those 185 points, 65 are performance-based and 120 are prescriptive.
So, even if a building isn’t seeking certification, saving water makes good sense for the planet... and good ‘cents’ for owners, too.
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A regular contributor to HPAC Engineering and a member of its editorial advisory board since 2012, Clark, LEED AP, O+M, is a principal at Sustainable Performance Solutions LLC, a south Florida-based engineering firm focusing on energy and sustainability. Email him at larry@sustainflorida.com.   
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Clark's Remarks
Is the Rainforest Now Contributing to Global Warming?
The crisis in the Amazon rainforest is not just about carbon alone. And much of the damaging activities can still be controlled, if governments can summon the political will to do so.
Larry Clark
Mar 19, 2021
For those of you who were not in my eighth grade science class, here’s how I explain photosynthesis:
In other words, green leaves absorb CO2 and convert it to O2. 
Of course, it’s really not that simple. Plant cells contain small organelles (subcellular structures with specific functions within the cell) called chloroplasts, which store the energy from sunlight. The actual light-absorbing substance within the chloroplast is a pigment, chlorophyll, which gives leaves their green color. During photosynthesis, the plants take in both CO2 and water from the environment, where the CO2 is converted to glucose, which is stored in the plant for its energy, and the water is converted to O2 and released back into the environment.
Most of our planet’s O2 comes from photosynthesis, and, according to NOAA, at least half – and perhaps as much as 80% – comes from oceanic plankton, i.e. drifting plants, algae, and some bacteria that can photosynthesize. That’s a higher percentage than all of the tropical rainforests on land combined. Unfortunately, most of that is consumed by marine life and by decaying marine plants and animals. So the portion of O2 not produced by phytoplankton photosynthesis is produced by photosynthesis by trees, shrubs, grasses, and other plants on land, which is why the tropical rainforests have for many years been considered critical to the planet’s survival.
Social and economic drivers of land use in the Amazon: (A) forest loss 2001–2019 (Hansen et al., 2013) (red shading), (B) fires 2001–2019 (RAISG, 2020) (pink), (C) agricultural and cattle areas (MAPBIOMAS Version 2.0, 2020) (yellow), (D) hydropower and reservoirs (RAISG, 2020) (blue), (E) oil extraction and mining areas (RAISG, 2020) (yellow shading and points), and (F) fishing and hunting areas (RAISG, 2020) (aqua).FrontiersIn.org
But a recent study entitled Carbon and Beyond: The Biogeochemistry of Climate in a Rapidly Changing Amazon concludes that the Amazon rainforest, the world’s largest tropical rainforest, is likely to now be a net contributor to global warming and is a failing ecosystem.
In a groundbreaking study, 30 researchers from all over the world went beyond the usual research for the Amazon Basin, which typically concentrated on the carbon cycle and its impact on climate change, and instead focused on providing a “state-of-the-science synthesis of the inter-related climate effects of natural and anthropogenic change agents in the Amazon Basin and their persistent uncertainties with particular consideration given where the pattern and scale of the effect are large but not regularly considered alongside CO2”.
The study found that human impacts – ecological, political, socioeconomic, and cultural – are as diverse as the rainforest itself. These impacts, or drivers, include forest loss due to agricultural conversion and cattle ranching; illegal logging; construction of reservoirs and hydroelectric plants; and mining and oil wells.
Fires, both natural in origin and intentionally set, have also contributed to forest loss. In addition to the anthropogenic impacts, natural events – more severe rainfall and drought events – have also adversely affected the rainforest.
Clearly, the crisis in the Amazon rainforest is not just about carbon alone. And much of the damaging activities can be controlled, if government has the political will to make it happen.
Recently, former Sen. John Kerry, the newly appointed U.S. Special Climate Envoy, met with Brazil’s Foreign Minister and Environment Minister to discuss deforestation in the Amazon Basin. Although the region includes territory belonging to nine nations, approximately 60 percent of the rainforest is located in Brazil.
Brazil and the U.S. have had a formal trade agreement since 2011, and in 2019, Brazil was the U.S.’s 14th largest trading partner, with more than $100 billion in bilateral goods and services.
Memo to Washington: We have some leverage now. It’s time to step up and use it!
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A regular contributor to HPAC Engineering and a member of its editorial advisory board since 2012, Clark, LEED AP, O+M, is a principal at Sustainable Performance Solutions LLC, a south Florida-based engineering firm focusing on energy and sustainability. Email him at larry@sustainflorida.com. 
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