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There are two important terms used to describe that recycled water is an integral part of the water cycle.

  • Recycled Water generally refers to treated domestic wastewater that is used more than once before it passes back into the water cycle. The terms “reused” and “recycled” are often used interchangeably depending on where you are geographically. Reclaimed water is not reused or recycled until it is put to some purpose. It can be reclaimed and be usable for a purpose, but not recycled until somebody uses it.
  • Water Cycle describes how water moves on the Earth. Water evaporates from water bodies (such as oceans, lakes, and rivers), forms clouds, and returns to earth as precipitation (rain or snow). The amount of water that evaporates each year and the amount that falls back to the ground are virtually constant, meaning that the amount of water on Earth does not change. So if a drought occurs in a specific region, it is not because the world’s rainfall for the year is less, but because the water is falling somewhere else on Earth. Water reuse solutions help to increase the water supplies available to a community by using technology to create clean water that would be otherwise unavailable. Water reuse processes serve to replicate the cleaning process of the water cycle faster than Mother Nature.

Uses and Delivery Methods

These are several technical words used to explain the different uses and delivery methods of reclaimed water:

  • Augmentation is the process of adding reclaimed water into an existing raw water supply (such as a reservoir, lake, river, wetland, and/or groundwater basin).
  • Beneficial Reuse is the use of reclaimed water for purposes that contribute to the water needs of the economy and/or environment of a community.
  • Groundwater Recharge occurs naturally as part of the water cycle and/or is enhanced by using constructed facilities to add water into a groundwater basin.
  • Irrigation is the physical application of water to land to assist in the production of crops or landscape.
  • Potable Water is drinking water that meets or exceeds state and federal drinking water standards.
  • Retrofit is the process of constructing and separating potable and recycled water pipelines that allows reclaimed water to be used for nondrinking purposes. This also includes the process of preparing customer use sites for recycled water use.

Water Reuse Options

These are the many technical words, often interchangeably used, to explain the different options for water reuse that a community could choose from:

  • Potable Reuse refers to recycled water you can drink. The reclaimed water is purified sufficiently to meet or exceed federal and state drinking water standards and is safe for human consumption.
  • Nonpotable Reuse refers to reclaimed water that is not used for drinking, but is safe to use for irrigation, industrial uses, or other non-drinking water purposes.
  • De-facto, Unacknowledged or Unplanned Potable Reuse occurs when water intakes draw raw water supplies downstream from discharges of clean water from wastewater treatment plants, water reclamation facilities, or resource recovery facilities. For example, if you are downstream of a community, that community’s used water gets put back into a river or stream and is delivered downstream to your community and after further treatment becomes part of your drinking water supply.
  • Planned Potable Reuse is publicly acknowledged as an intentional project to reclaim water for drinking water. It is sometimes further defined as either direct or indirect potable reuse. It commonly involves a more formal public process and public consultation program than is observed with de-facto or unacknowledged reuse.
  • Indirect Potable Reuse (IPR) water is blended with other environmental systems such as a river, reservoir, or groundwater basin, before the water is reused.
  • Direct Potable Reuse (DPR) water is distributed directly into a potable water supply distribution system downstream of a water treatment plant or into the source water supply immediately upstream of the water treatment plant.

Water Types and Quality

These are the words often used to define the types of water or different qualities of water:

  • Advanced Purified Water or Purified Water has passed through proven treatment processes and has been verified through monitoring to be safe for augmenting drinking water supplies. The source water for advanced treatment is often clean water from a wastewater treatment or resource recovery plant. Purification processes can involve a multistage process such as microfiltration, reverse osmosis and advanced oxidation, as well as Soil Aquifer Treatment. Any of these options are capable of producing water quality that has been verified through monitoring to be safe for augmenting drinking water supplies.
  • Greywater is the term used to describe water segregated from a domestic wastewater collection system and reused on site. This water can come from a variety of sources such as showers, bathtubs, washing machines, and bathroom sinks. It contains some soap and detergent, but is clean enough for nonpotable uses. Water from toilets or wash water from diapers is not considered to be greywater. Kitchen sink water is not considered greywater in many states. Many buildings or individual dwellings have systems that capture, treat and distribute greywater for irrigation or other nonpotable uses.
  • Raw Water is surface or groundwater that has not gone through an approved water treatment process.
  • Reclaimed Water is used water that has been treated to be fit-for-purpose for reusing or recycling.
  • Reused Water is water used more than once and has been treated to a level that allows for its reuse for a beneficial purpose.
  • Sewage is the used water of household and commercial businesses that contains human waste. Distinguished from industrial wastewater. Sewage can be used interchangeably with wastewater.
  • Wastewater is the used water of a community or industry that contains dissolved and suspended matter. There are different types of wastewater: domestic, commercial, and industrial.
  • Domestic Wastewater/Sewage is used water from washing our food, dishes, clothes and bodies, and for toilet flushing. The used water that goes down the drain or is flushed down the toilet is called sewage. Because a considerable amount of water is used to carry away only a quite small quantity of waste, domestic sewage is mostly water. It is referred to as “wastewater” in most places.
  • Industrial Wastewater and Commercial Wastewater/Sewage is the liquid waste generated by industries, small businesses and commercial enterprises and can be discharged to a sewer upon approval of a regulating authority. Some industrial wastewater may require pretreatment before it can be discharged into the sewer system, while other industrial and commercial wastewaters are explicitly excluded. Controlling the release of harmful chemicals into the wastewater collection system is known as Source Control.

Treatment Technology

There are words used to describe the different types of Water Purification Treatment Technology that can be used to create reclaimed water:

  • Advanced Oxidation is one of the processes that can be used as a safety barrier in the water purification process. Hydrogen peroxide, ultraviolet (UV) light and other processes are used in combination to form a powerful oxidant that provides further disinfection of the water and breaks down the remaining chemicals and microorganisms and provides further disinfection of the water.
  • Dual Media Filtration is a filtration method that uses two different types of filter media, usually sand and finely granulated anthracite.
  • Granular Activated Carbon is used to remove chemicals that are dissolved in the used water.
  • Multi-barrier Processes are purification processes that consist of several barriers to ensure sufficient reduction and/or elimination of the various substances that need to be controlled. As in all processes, monitoring is important in order to check that the processes are working properly and efficiently. Membrane filtration, reverse osmosis, advanced oxidation, riverbank filtration, Soil Aquifer Treatment, and constructed wetlands all may be parts of a multi-barrier purification process. Not all of these processes are needed in all situations.
  • Ozonation:  The process of applying ozone (03) for the disinfection of water. Ozone (O3) is a strong oxidant.
  • Reverse Osmosis is a method of removing dissolved salts and other constituents from water. Pressure is used to force the water through a semi-permeable membrane that transmits the water but stops most dissolved materials from passing through the membrane. This treatment method is commonly used in desalination, a process that takes salt out of seawater.
  • Soil Aquifer Treatment occurs when water, including recycled water, soaks into the ground and is purified by the physical, chemical, and biological processes; that naturally occur in soil.

Treatment Processes and Products

There are words used to describe the wastewater treatment processes and the products created as part of wastewater treatment. Often the facilities are referred to as Wastewater Treatment Plants, Water Reclamation Facilities, or Resource Recovery Facilities usually depending on the types of treatment technology used at the facility.

  • Biosolids is the nutrient-rich organic material (by-product) made from the stabilized sewage sludge of a wastewater treatment or resource recovery facility. Biosolids can be recycled as a soil amendment for crops, and may also be used as final or alternative daily cover at landfills. Increasingly, Biosolids may also be used as an alternative energy source. Biosolids are generally used in one of four forms: as a nutrient-rich, liquid, moist solid, dried pellet, or compost.
  • Discharge is the release of effluent, which meets regulatory standards, and designated by a regulatory permit to be safely discharged into the environment without causing harm.
  • Effluent is the liquid that flows out of something, particularly from a wastewater treatment plant. Depending on the amount of treatment it has had, its quality can vary and can even meet or exceed drinking water standards.
  • MGD is the abbreviation for million gallons per day. This term is often used to describe the volumes of water treated and discharged from a treatment plant.
  • Primary Treatment is a process where solid matter is removed. The remaining liquid may be discharged or subjected to further treatment.
  • Secondary Treatment is a process where dissolved and suspended biological matter is removed to a nonpotable level so that the water may be disinfected and discharged into a stream or river, or used for irrigation at controlled locations.
  • Sewage Sludge refers to the residual, semi-solid material that is produced as part of primary and secondary treatment. Sewage sludge is further treated by aerobic or anaerobic digestion and dewatered at a wastewater treatment plant or resource recovery facility to produce Biosolids and other byproducts such as methane gas and struvite recovery.
  • Tertiary Treatment or Advanced Water Treatment refers to processes that purify water for uses such as irrigation or for water blended with other environmental systems such as a river, reservoir, or groundwater basin prior to reuse. It can also include treatment processes to remove nitrogen and phosphorus in order to allow discharge into a highly sensitive or fragile ecosystem (estuaries, low-flow rivers, coral reefs, etc.)

State Regulations

There are words that reference state-specific regulations. Below are a few examples:

  • Title 22 Standards are the requirements established by the State Water Resources Control Board Division of Drinking Water (formerly the California Department of Public Health) for the production and use of recycled water. Title 22, Chapter 3, Division 4 of the California Code of Regulations, outlines the level of treatment required for allowable uses for recycled water. The most typical uses include irrigation, firefighting, residential landscape watering, industrial uses, food crop production, construction activities, commercial laundries, toilet flushing, road cleaning, recreational purposes, lakes, ponds and decorative fountains. Section 13550 of the California Water Code is a declaration by the State Legislature that the use of potable water is a waste if recycled water is available.
  • Type I and II reclaimed water are terms the Texas Administrative Code (30 TAC Chapter 210.32) uses to identify two types of reclaimed water uses. Type I reclaimed water is defined as use of reclaimed water where contact between humans and the reclaimed water is likely. Type II reclaimed water is defined as reclaimed water where contact between humans and the water is unlikely. The Texas Administrative Code Chapter 210, administered by Texas Commission on Environmental Quality (TCEQ), provides guidelines for the quality, design, and operational requirements for the beneficial use of reclaimed water.
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