Although fracking is only attaining popularity today, it is a technology that has been around for about two centuries. Other names used to refer to this process include hydraulic fracturing, faccing, hydrofracking, and hydrofracturing. According to history, this technology has been around since the 1800s. During that time, gas and oil shale formations underground were reached using explosives instead of water. Facts regarding clean fracking technology.
Later in the 1930s, companies decided to start using non-explosives. To determine how effective non-explosives can be, experiments were carried out in the course of the next decade. By 1949, the hydrofrac technology was invented. The adoption of the new technology gained a lot of popularity by 1950s. At the time, the adoption was happening at the rate of 3000 wells per month.
Around 750 gallons of fluid was needed in the early models of this technology. Gelled kerosene, gelled crude oil, 400 pounds of sand, and water were the ingredients of the fluid. That quantity and fluid composition would be used for a very long period. There are some changes that have occurred today. The changes allow some 75000 to 320000 pounds of sand and 8 million gallons of clean or wastewater to be consumed
Technological advancements have enabled the use of various fluid forms. A number of the fluids in use are foams, gels and slickwater. Present-day fracking fluid comprises elements like biocines, guan gum, diesel fuels, friction reducers, benzene and hydrochloric acid. Many of the listed ingredients are hazardous to the environment. This is why that there are demands all over that hydrofracking be made harmless to the environment.
Since there is a large amount of water used in this process, the water must be disposed carefully to avoid bad effects. Before 1985, all the wastewater ended in state waterways like rivers, lakes, and oceans. However, today, that has changed as wastewater is disposed of in deep injection wells. These wells are also referred to using the term brine disposal wells.
Besides disposing wastewater in deep wells, some private treatment facilities acquire it for processing into useful water. Even though the water can be processed and refined, not all of it can be processed successfully. Wastewater that cannot be processed usually contain hydrofracturing fluid and must be disposed in landfills or pumped into deep wells. Disposal into landfills and deep wells was once deemed error proof but that has changed now as some problems are associated with the process.
One of the main adverse effects associated with disposal of wastewater is contaminated drinking water. Somehow, the wastewater finds its way back into the water system and causes pollution. Also, water depletion has come up as a major effects associated with the use of such large amounts of water on oil extraction. Lastly, the environment is also affected negatively by both the process of hydrofracking and water disposal methods.
To minimize the adverse effects of fraccing as a whole, there are suggestions to find ways of reusing wastewater. To this effect, some techniques have been invented that make reuse of wastewater possible. Other ways of minimizing pollution include eliminating methane escape, reducing amounts of fresh water used for the process, and using alternative energy sources other than diesel.
Later in the 1930s, companies decided to start using non-explosives. To determine how effective non-explosives can be, experiments were carried out in the course of the next decade. By 1949, the hydrofrac technology was invented. The adoption of the new technology gained a lot of popularity by 1950s. At the time, the adoption was happening at the rate of 3000 wells per month.
Around 750 gallons of fluid was needed in the early models of this technology. Gelled kerosene, gelled crude oil, 400 pounds of sand, and water were the ingredients of the fluid. That quantity and fluid composition would be used for a very long period. There are some changes that have occurred today. The changes allow some 75000 to 320000 pounds of sand and 8 million gallons of clean or wastewater to be consumed
Technological advancements have enabled the use of various fluid forms. A number of the fluids in use are foams, gels and slickwater. Present-day fracking fluid comprises elements like biocines, guan gum, diesel fuels, friction reducers, benzene and hydrochloric acid. Many of the listed ingredients are hazardous to the environment. This is why that there are demands all over that hydrofracking be made harmless to the environment.
Since there is a large amount of water used in this process, the water must be disposed carefully to avoid bad effects. Before 1985, all the wastewater ended in state waterways like rivers, lakes, and oceans. However, today, that has changed as wastewater is disposed of in deep injection wells. These wells are also referred to using the term brine disposal wells.
Besides disposing wastewater in deep wells, some private treatment facilities acquire it for processing into useful water. Even though the water can be processed and refined, not all of it can be processed successfully. Wastewater that cannot be processed usually contain hydrofracturing fluid and must be disposed in landfills or pumped into deep wells. Disposal into landfills and deep wells was once deemed error proof but that has changed now as some problems are associated with the process.
One of the main adverse effects associated with disposal of wastewater is contaminated drinking water. Somehow, the wastewater finds its way back into the water system and causes pollution. Also, water depletion has come up as a major effects associated with the use of such large amounts of water on oil extraction. Lastly, the environment is also affected negatively by both the process of hydrofracking and water disposal methods.
To minimize the adverse effects of fraccing as a whole, there are suggestions to find ways of reusing wastewater. To this effect, some techniques have been invented that make reuse of wastewater possible. Other ways of minimizing pollution include eliminating methane escape, reducing amounts of fresh water used for the process, and using alternative energy sources other than diesel.
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