On any given day in the United States there can be as many as five hundred thousand shipments of hazardous materials transported all over the country. There are close to Five billion tons of regulated hazardous waste that move between states annually either by truck, rail, air, or water carriers. Truck transport is the most common way of transporting hazardous materials in terms of both tonnage and vehicles. This poses a major risk to the public because these truck are driving down streets, roads, highways and interstate routes that lead into highly populated communities such as towns and cities. The large number of trucks that are traveling on these road are subject to all kinds of risk factors that could cause an accident. This puts the environment …show more content…
One of the big issues right now here in North America is Fracking. Fracking or Hydraulic Fracturing is the process of drilling down into the earth with a high-pressure water mixture that is directed at the rock to release the gas or gases inside. The left over water that was used to drill the hole is what is left behind after the gases and oil is extracted. This water in comprised of many different chemical that can potentially be harmful to our environment in the short and long terms. Author Mark Niquette describes the large amount of waste water as an “Underground Ocean of Industrial Waste”. Mr. Niqutte goes further in discussing the fracking problem in Ohio is his article “An Underground Ocean of Industrial Waste”. “The nationwide boom in hydraulic fracturing-aka fracking-means energy-extraction companies in the United States can produce thousands of barrels of oil and millions of cubic feet of natural gas from once-inaccessible places. They're also producing something else: oceans of brine from drilling as well as fracking fluid, the chemical laced water used to blast open cracks in buried rock where fossil fuel lurks. That wastewater has to go someplace.”( Niqutte). Mr. Niqutte also stated “The preferred way to dispose of the brine and fracking fluid-typically a stew of water and a long list of chemical additives, including rust inhibitors and antibacterial agents-is to pump it out of sight, out of mind into deep, cavernous wells built for the purpose. Ohio's geological underbelly, composed of permeable rock formations, is ideally suited for sub bolding tanks.” and “All that underground space has made Ohio a leading importer of wastewater from other states. Last year, oil and gas companies injected 511 million gallons into Ohio's wells, the most on record, according to the state's Department of Natural Resources. More than half came from elsewhere.”
For the past twenty to thirty years, hydraulic fracturing, more commonly known as fracking, has been the number one source of natural gas, oil, and energy in the United States. The process of fracking is that a well is built above the ground and then a drill digs several thousand feet deep into the ground to extract the oil and natural gas that is trapped inside of rock formations. Fracking is very controversial because of the cost of the process and the environmental “threats” that it poses. From methane emissions to earthquakes, fracking has been accused to be linked with several environmental issues. To prevent any environmental dangers, states place regulations and boundaries that energy companies have to follow in order to build a well and keep it up and running. The EPA (Environmental Protection Agency) also works with states to help regulate these wells. More importantly, fracking in the United States is very important and acts as a bridge to the future. While it may be argued that hydraulic fracturing is not beneficial to the economy and harmful to the environment, fracking in the United States should not be banned because fracking is not only imperative to the growth of jobs and the economy, but it also does not put the surrounding environment in danger.
Hydraulic fracking is not only harmful to people but also toxic for the environment around the site. Extracting gasses deep in the earth's crust is not natural, neither is sucking 5-8 million gallons of water out of lakes. Eight million gallons might not seem like a lot because of how much the earth’s surface is covered in water, but there are over a million wells being fracked around the United States. Even if the fracking site is located in water deficient regions the companies will still pump out a large quantity of water from the local sources. For now, we have enough water for drinking and domestic use, but if the process doesn't stop or slow down we will affect the ecosystem. The composition of some fracking chemicals remains protected and disclosure through various "trade secret" exemptions under state or federal law, scientists analyzing fracked fluid have identified dangerous compounds to humans and the environment. For each frack, 70-300 tons of chemicals may be used, selected from a menu of up to 500 different chemicals. When the workers are down with the fracking mixture it is then stored on site in tanks and get reused until the fluid is be disposed of. When disposing of the flowback fluids, it's injected back into the ground deeper than the wellbore and left. In a recent report, USGS science for a changing world made stated “Wastewater disposal wells typically
Fracking, or hydraulic fracturing, is the process of extracting natural gas from shale rock layers deep within the earth.The dangers of fracking are the chemicals that go into fracking and how much water is used and contamination of city water. Some dangers of fracking are water usage. They use 2 to 5 million gallons of water. Not all of the chemicals are recovered from the ground. We only know of 8 out of 600 chemicals. To many chemicals are used and some a harmful. Fracking water usage is too high for instance one well can use 144,000,000million gallons of water. 50%-70% of the fracking fluid is left in the ground and isn’t biodegradable. The waste fluid that is outside in the sunlight evaporates and releases volatile organic compounds(Volatile organic compounds (VOCs) are organic chemicals that have a high vapor pressure at ordinary room temperature. Their high vapor pressure results from a low boiling point, which causes large numbers of molecules to evaporate or sublimate from the liquid or solid form of the compound and enter the surrounding air.) Due to the VOCs acid rain, ground level ozone and contaminated air. Ground level ozone is bad, but ozone up high in the atmosphere protects the earth from the Sun’s harmful rays.
The mismanagement of the practice has the potential to create environmental damage such as water contamination, radioactive spills, and increased seismic activity that could cost thousands in dollars in damage. Furthermore, the unintended consequences of fracking can have detrimental effects on the environmental. The potential for water contamination can pose both an immediate and long term risk to environmental stability, including landscape distortion, inhabitability and ecological displacement. This contamination of drinking water can also be detrimental to the human environment, limiting the amount of safe water available for both the residential and commercial human environment. With the increase of fracking, the level of disapproval for the practice has only mounted. Concerns including overconsumption of
The actual technique involves “pumping a slurry of water, sand and chemicals underground to fracture shale formations and release hydrocarbons” ("Fracking", 2013, p. 276). Modern procedures use a high degree of manipulation in order to extract the natural gas. The natural gas from fracking is dispersed in rock, and can only be retrieved by using specialized removal techniques (Palliser, 2012). These specialized techniques have many unintended consequences. For instance, the current method of fracking may cause the issue of flowback. Flowback occurs when the internal pressure of the rock formation causes the injected watery, chemical mixture to return to the surface with other naturally occurring substances (Palliser, 2012). This flowback is often injected back underground or can be processed by wastewater treatment plants, where it is later discharged as surface water (Palliser, 2012). Indisputably, the disposal and generation of flowback is one of the main concerns regarding hydraulic fracking. The wastewater developed from fracking procedures is often inappropriately handled and is sometimes sprayed onto rural roads and forests (Finkel & Hays, 2013). As a result, the surface water may come in contact with living organisms and can cause a plethora of issues. For fracking opponents, their driving force is the ill effects of fracking on the environment and overall health. Similarly, the possibility of drinking or coming in contact with chemically laden byproducts
One of the major drawbacks with fracking is due to the cause of widespread hazardous pollution within waterways surrounding the sites. The steel casings cannot guarantee prevention of chemical leakage dispersing into the adjacent soil holding tons of ground water. This is the same water that makes its way into our wells, and finally into our mouths. Furthermore, more than half of the wastewater used in the fracking process is flowed directly into a ready-made reservoir pits that sit in wait for evaporation. This wastewater gradually sinks into the ground, for the evaporation takes quite some time. The health risks posed by this dangerously hazardous output of pollution into our drinking water and nearby waterways is widely felt. Water quickly turns to metallic mush, goes black, and even becomes flammable in other cases. Fracking is upsetting the way of life for so many out there and yet they still refuse to answer for these wrongdoings. Mike Markham is forced to venture into town to buy his water supply due to his well water being deemed unfit for consumption (“GasLand”). Jeff and Wranda Locker’s washer was flooded with black water not soon after a fracking site began drilling. They placed faith in the energy company when they supplied them with a reverse osmosis water treatment system that was supposed to filter out the chemicals. However, later they found out that the system didn’t remove glycol ethers which damages brain cells and may well be the cause of Wranda’s fading
The issue of whether we should continue fracking without research has been widely debated around the world. The issue is important because it has fundamental environmental concerns and economic questions about the process of hydraulic fracturing. “Fracking” is the process of penetrating down into the earth before a high-pressure water mixture is absorbed at the rock to release the gas inside. Water, sand, and chemicals are then inserted into the rock with compression which allows the gas to flow out to the head of the well. Fracking fluid, which can be polluted with heavy metals like arsenic, known human carcinogens, has seeped into local waterways and polluted groundwater. People who live near fracking wells have a heightened danger of developing cancer, asthma, and other serious ailments associated with inhaling or ingesting the toxic chemicals involved in the fracking process. Countries approach fracking and researching much differently from each other. The injection of fluid into shale beds at high pressure to extract petroleum resources has been happening across the United States of America at rapid pace. By 2003, a gigantic public relations campaign was launched to lobby Congress to pass what is
The greatest common concern on the subject today is water contamination. Individuals grew worried that the chemicals used to gather these natural resources will seep into the water and contaminate the United States. The water necessary to frack is gathered from rivers, lakes, ponds, and even aquifers. This is then combined with chemicals and pumped into the ground. Fracking was exempted from the Federal Safe Drinking Water Act and the chemicals used to frack are not tested frequently in our water (Lampe 34). Bordering on 20 to 40 percent of the water used to frack rises back up to the surface and is stored on site (Lampe 34). An
Few issues have recently gotten as much attention as the energy extraction activities involving a controversial procedure called "fracking." As reports of drinking water becoming tainted with fracking fluid flood the news, both oil and gas companies as well as environmental groups are presenting competing "facts" about the effects of drilling on ground water.
Hydraulic fracking in the United States is a current environmental hazard that has to be addressed by the American people and by the federal government. Fracking in America has opened up millions of acres of lands that were once not economically viable to produce oil and gas. While the Bureau of land Management has paved the way for hydraulic fracturing on public lands, there is a need for retaliation. Fracking is a dirty method of extracting gases and oils at the price of numerous environmental, safety, and health hazards. The environment is not a means of income when rather it is the capital for future generations.
Hydraulic Fracturing (fracking) is the process of drilling into the ground and pumping sand, water, and fracking fluid at high pressures in order to extract natural shale gas that was previously unattainable. This process comes with environmental issues: the chemicals from the fracking fluid can contaminate nearby drinking water wells and harm the citizens of that area. Despite the fact that there have been several contaminated drinking water cases reported, there is little being done about this matter. This paper analyzes the available research that asserts why fracking is a dangerous process that should be banned immediately. The intended audience is my peers and instructor, as well as anyone interested in the debacle of fracking-caused water contamination that may come across this piece. As you are reading, I ask that you keep in mind that this is a very perplexing issue that has not been given much of an opportunity for true research and investigation. Therefore, the data discussed has not been officially proven or disproven to be directly related in every way to local fracking. However, the research gathered on the proposed danger of the Hydraulic Fracturing process is solely based on science that has already been proven as well as documented illnesses and symptoms from residents and contractors around or near fracking operation sites.
It’s been over 65 years since fracking first began as a method of extraction by oil and gas companies, but the government has done little to regulate the catastrophic practice. How anyone could consider injecting tens of thousands of gallons of water and chemicals deep into the ground being a good idea is beyond me. Those chemicals include chlorine, acetone, benzene, formaldehyde, ammonia, and almost 600 other chemicals that fracking operations won’t even reveal to the public. These chemicals, despite denial by all major natural gas and oil companies that practice fracking, almost always end up in groundwater supplies. I’m sure you’ve seen at least one video online of someone who lives near a fracking site lighting the water coming out of their faucet on fire. Thanks to a ruling in 2005 under the Bush administration, fracking operations are exempt from the Environmental Protection Agency’s Clean
Last year alone, oil and gas companies put hundreds of millions of gallons of hydraulic fracturing fluids into the earth. Many of these fluids were found to contain harmful chemicals such as carcinogens- substances that directly cause cancer. This is why hydraulic fracking has been the topic of heated debate over the past few years. This process of drilling for natural gas has become increasingly popular over the past decade, and has in turn produced many questions about the safety of its wells and the chemicals that are used in drilling. Under current regulations, hydraulic fracking is permitted to be conducted at drilling sites that are located very close to residential areas. The chemicals used in the drilling process have been leaking out of wells, and have contaminated drinking water for some communities. In addition, it pollutes the air by putting methane, a potent greenhouse gas, into the atmosphere. Concerned about the safety of fracking, cities such as Longmont have shown great opposition to the Colorado Oil and Gas Association (COGA)’s regulations. In fact, Longmont citizens voted to put a ban on fracking within city limits in 2012. This ban has been met with retaliation from COGA, who sued the city because of the ban. If fracking isn’t allowed to be banned by cities that don’t want it, then the regulations need to change in order to make the practice both prosperous and safe for the community.
Another problem that we know exists with hydraulic fracturing is the contamination of the water, the ground, and the air around the sites (Goldman pg. 2). It has been shown that “…residents living near the hydraulic fracturing sites are increasingly worried that the drilling process might be contaminating their well water, polluting streams, and releasing toxic gases into the air (Hobson).” Water sources, as well as the soil, are often polluted from flowback fluid and from production brine (Hydro-Fracking pg.4). Flowback fluid is “the contaminated fluid that returns to the surface during the drilling process, and is estimated to be between 9% - 35% of the fluids injected during
Hazardous waste and its proper disposal have become a major sociological problem today due to its capability of contaminating the area in which we live and its potential to be lethal to all living things. In order for the United States and the rest of the world to save itself from a potentially life threatening problem they must fix the causes which lead to the improper disposal of hazardous wastes and like materials. Some reasons that hazardous waste has become a problem in the United States today is due to the breakdown in enforcing laws for the proper disposal of such wastes, a lack of initiative on big companies behalf to spend money on proper disposal, and the ease of disposing of such wastes illegally.