Injection wells are used for many purposes.
Waste disposal Treated wastewater can be injected into the ground between impermeable layers of rocks to avoid polluting surface waters. Injection wells are usually constructed of solid walled pipe to a deep elevation in order to prevent injectate from mixing with the surrounding environment. Most produced water generated by oil and gas extraction wells in the US is also disposed in deep injection wells. Critics of wastewater injection wells cite concerns about potential groundwater contamination. It is argued that the impacts of some injected wastes in groundwater is not fully understood, and that the science and regulatory agencies have not kept up with the rapid expansion of disposal practices in US, where there are over 680,000 wells as of 2012. Alternatives to injection wells include direct discharge of treated wastewater to receiving waters, conditioning of oil drilling and fracking
produced water for reuse, utilization of treated water for irrigation or livestock watering, or processing of water at
industrial wastewater treatment plants. Direct discharge does not disperse the water over a wide area; the environmental impact is focused on a particular segment of a river and its downstream reaches or on a coastal water body. Extensive irrigation is not typical in areas where the produced water tends to be salty, Since the early 1990s,
Maui County, Hawaii has been engaged in a struggle over the 3 to 5 million gallons per day of wastewater that it injects below the
Lahaina Wastewater Reclamation Facility, over the claim that the water was emerging in seeps that were causing
algae blooms and other environmental damage. After some twenty years, it was sued by environmental groups after multiple studies showed that more than half the injectate was appearing in nearby coastal waters. The judge in the suit rejected the County's arguments, potentially subjecting it to millions of dollars in federal fines. A 2001 consent decree required the county to obtain a water quality certification from the
Hawaii Department of Health, which it failed to do until 2010, after the suit was filed. The case proceeded through the
United States Court of Appeals for the Ninth Circuit and subsequently to the
Supreme Court of the United States. In 2020 the Court ruled in
County of Maui v. Hawaii Wildlife Fund that injection wells may be the "functional equivalent of a direct discharge" under the Clean Water Act, and instructed the EPA to work with the courts to establish regulations when these types of wells should require permits.
Oil and gas production Another use of injection wells is in
natural gas and
petroleum production. Steam,
carbon dioxide, water, and other substances can be
injected into an oil-producing unit in order to maintain
reservoir pressure, heat the oil or lower its viscosity, allowing it to flow to a producing well nearby.
Waste site remediation Yet another use for injection wells is in
environmental remediation, for cleanup of either
soil or
groundwater contamination. Injection wells can insert clean water into an
aquifer, thereby changing the direction and speed of groundwater flow, perhaps towards
extraction wells downgradient, which could then more speedily and efficiently remove the contaminated groundwater. Injection wells can also be used in cleanup of soil contamination, for example by use of an ozonation system. Complex
hydrocarbons and other contaminants trapped in soil and otherwise inaccessible can be broken down by
ozone, a highly reactive gas, often with greater cost-effectiveness than could be had by digging out the affected area. Such systems are particularly useful in built-up urban environments where digging may be impractical due to overlying buildings.
Aquifer recharge Recently the option of
refilling natural aquifers with injection or percolation has become more important, particularly in the driest region of the world, the
MENA region (Middle East and North Africa).
Surface runoff can also be recharged into
dry wells, or simply barren wells that have been modified to functions as cisterns. These hybrid
stormwater management systems, called
recharge wells, have the advantage of aquifer recharge and instantaneous supply of potable water at the same time. They can utilize existing infrastructure and require very little effort for the modification and operation. The activation can be as simple as inserting a polymer cover (foil) into the well shaft. Vertical pipes for conduction of the overflow to the bottom can enhance performance. The area around the well acts as funnel. If this area is maintained well the water will require little purification before it enters the cistern.
Geothermal energy Injection wells are used to tap
geothermal energy in hot, porous rock formations below the surface by injecting fluids into the ground, which is heated in the ground, then extracted from adjacent wells as fluid, steam, or a combination of both. The heated steam and fluid can then be utilized
to generate electricity or directly for
geothermal heating. ==Regulatory requirements==