Price Landfill

Last updated

Price Landfill is a 26-acre site located in Pleasantville, Egg Harbor Township, Atlantic County, New Jersey. [1] Price Landfill is also known as Price Sanitary Landfill, Prices Pit, Price Landfill No.1 and Price Chemical Dump. [2] The United States Environmental Protection Agency (USEPA) added Price Landfill to the Superfund National Priorities List on September 20, 1983 because of the hazardous chemicals found on the site and in the groundwater. [3] The site was originally owned by Mr. Charles Price and was used to mine sand and gravel, which was shut down in 1968. The site was then turned into a private landfill in 1969 and then a commercial solid waste landfill in 1971. At this point the landfill was used to dispose of liquid waste by companies, specifically Atlantic City Electric Company. The liquid waste consisted of industrial chemicals, oils and greases/sludges, septic tank and sewer wastes, which were disposed on the site for 8 years, ending altogether in 1976, but in the meantime, having contaminated the groundwater, soil, air, and nearby creeks, specifically Absecon Creek. [4] Chemicals dumped on the site are believed to be 1,2-Dichloroethane, arsenic, benzene, chloroform, lead, and vinyl chloride, all of which contaminated the groundwater, soil, air, and nearby creeks. The USEPA originally got involved in 1982 by beginning to correct the damage. [5] Currently the USEPA states that they are continuing to monitor and treat the groundwater and land, and that hazards to humans are controlled. [1]

Contents

Origins

Price Landfill is located in the city of Pleasantville, New Jersey, on the west side of Mill Road just north of that street's intersection with Leeds Avenue. [6] Pleasantville is a small city in the Township of Egg Harbor that lies along the coast of southern New Jersey, just five miles from Atlantic City, New Jersey. [7] [1] The site of Price Landfill was contaminated with many hazardous chemicals from many companies, specifically Atlantic City Electric Company. [8]

Town history

Price Landfill is a 26-acre site located in the city of Pleasantville, New Jersey. Pleasantville is a small city in Atlantic County, NJ, which according to the United States Census Bureau is 5.69 square miles as of 2010. [9] [1] Pleasantville was originally a borough and was officially announced as a city on April 14, 1914. Dr. David Ingersoll named this city Pleasantville because of its surroundings, as stated in the book, The Origin of New Jersey Place Names. [10] The City of Pleasantville consists of stores, houses, schools, beaches and people, just like most cities around the United States. Pleasantville's mayor is Jesse L. Tweedle, Sr., accompanied by Linda D. Peyton, City Administrator, and the rest of their team. [11] The community consists of 20,249 diverse people who reside within 6,699 homes, as stated in the United States Census of 2010. [9] The town is just 5 miles from downtown Atlantic City, where the famous New Jersey shoreline and casinos are located. [7] Also located nearby are Abescon, Northfield and Ventnor City.

Company history

Atlantic City Electric Company was founded in 1924 and is a part of Exelon Corporation. [12] Atlantic City Electric Company, Inc. was the respondent to the administrative settlement agreement proposed by the USEPA in order to comply with the Comprehensive Environmental Response, Compensation and Liability Act (CERCLA) in 2011. This means that Atlantic City Electric Company, Inc. was the one being held liable for the overall damage to the Price Landfill Site. [8] Although, 36 other companies and people also dumped at this site, the companies were mostly in connection to Atlantic City Electric Company, Inc. Before being used by Atlantic City Electric Company, Price Landfill was used as a sand and gravel excavation site owned by Mr. Charles Price, which was closed in 1968. The site was dug up to within 2 feet of the water table, which is the area of the ground that is above the area of groundwater. The site, which is now considered an inactive landfill, used to accept tons of chemical waste, whether in barrels, some of which have been punctured, or just poured directly onto the site. [13]

Superfund designation

In the early 1980s, residents of the area surrounding Price Landfill became aware of the contaminants in their personal well water, as well as the Atlantic City Well Field. [14] Price Landfill was placed on the National Priorities List on September 20, 1983. [3]

State intervention

Many people in the area of Price Landfill own residential wells, which were found to be contaminated with volatile organic compounds, including benzene & chloroform, and arsenic in 1980. In 1980, officials of the state and locals came to the conclusion that the contaminated groundwater from the landfill was present in nearby private wells, as well as the Atlantic City Well Field, which is one mile from the landfill, and that this was a threat to the health of the community. [14]

National intervention

The United States Environmental Protection Agency (EPA) originally became involved in the site in 1982. The EPA placed the Price Landfill on the National Priorities List of Superfund Sites in 1983 in response to the results from the New Jersey Department of Environmental Protection (NJDEP) Remedial Investigation and Feasibility Study to determine the significance of the contamination and how to clean it up. The EPA issued a Record of Decision in 1983, which moved the Atlantic City Well Field to another location, which took 2 years. The EPA also provided people affected by the contamination with public water supplies, such as bottled water. [14] One year after work was complete, in 1986, the EPA issued a second ROD that stated their next moves for Price Landfill, which included:

the installation of a security fence around the landfill site; the installation of groundwater extraction wells adjacent to the landfill to control the contaminant sources; installation of groundwater extraction wells hydraulically downgradient from the landfill to abate the contaminant plume; construction of a groundwater/ leachate pretreatment facility at or near the site; construction of a force main to the ACMUA interceptor system; extraction of contaminated groundwater, followed by pretreatment, and ultimate disposal and treatment at the ACMUA waste water treatment plant; quarterly monitoring of ground water quality for approximately 25 years; construction of a landfill cap at the conclusion of the groundwater extraction process. The estimated capital cost is $9,050,000 with annual O&M for years 1-5 of $1,010,000 and $255,000 for years 6-25. [4]

The EPA plans to build a fence around the site, build a system on the site to pump out the contaminated groundwater, clean and pretreat it, and send it to the Atlantic County Wastewater Treatment Facility to be further cleaned. At the end of the groundwater cleanup, the landfill will be capped, and the EPA will monitor the effects of this process within the next 25 years, which will cost a total of $9,050,000. [4] The EPA later changed this plan because the Wastewater Treatment Facility changed their policies and would no longer accept the water from the landfill. The EPA and the NJDEP decided to build an on-site system which would clean the water of the chemicals, treat it and move it away from the site. [4] The system was completed in 2000 and cleans and treats approximately 100,000 gallons of groundwater daily. This cleaning and treatment system was monitored for the following two years, and in 2002 the NJDEP began designing plans for the landfill cap and a better water cleaning and treating system. Completion of the design was expected in 2004. [14] Construction of the groundwater treatment system was expected to be complete in late 2012, a year after the design for the landfill cap was complete. [1] The final step of the second Record of Decision, the construction of a cap on the landfill, was originally expected to be finished in 2014, though as of December 2017, the cap is not complete. [1] [4]

Health and environmental hazards

The site is suspected to have 9 million gallons of industrial waste, which has caused groundwater to become contaminated with the chemical wastes, causing multiple people who neighbor the site to not be able to use the water. [14] The chemicals dumped are 1,2- Dichloroethane, arsenic, benzene, chloroform, lead, and vinyl chloride. All of which contaminated either the groundwater, soil, air, or nearby creeks. [5]

1,2-Dichloroethane

1,2-Dichloroethane is recognized as a carcinogen, meaning it can cause cancer if one is exposed to it for a long period of time. [15] This chemical is highly flammable and has a strong, harsh scent and no color. [16] There are eight tests that can be conducted to identify this chemical in a lab. It is ranked in the top 10% of the most hazardous compounds to human health and the environment, based on how toxic it is when ingested or inhaled, how it affects human health, cancer and noncancer risk scores through air and water, and how toxic it is to the environment. The overall hazard value of the chemical is 39, which puts it within the 100th percentile of other chemicals, making it in the top 10%. This chemical was found in the groundwater of the Price Landfill. 1,2- Dichloroethane can negatively affect health in these areas: Cardiovascular or Blood Toxicant, Developmental Toxicant, Gastrointestinal or Liver Toxicant, Kidney Toxicant, Neurotoxicant, Reproductive Toxicant, Respiratory Toxicant, and Skin or Sense Organ Toxicant. This means it can: cause blood diseases or abnormal heartbeat; affect the development of an unborn child; liver damage and disease; cause kidney disease which can lead to cancer; affect how the nerves carry information through the bodies peripheral nervous system which weakens the lower half of the body causing a tingling sensation and loss of coordination; affect fertility and may even cause the loss of a fetus during pregnancy; cause respiratory damage which can led to cancer; cause hearing loss or other damage of the 5 senses. [15]

Arsenic

Arsenic is described as a metal, or a metal-type, meaning it is not usually found as pure metal. Arsenic can be found in wood preservatives, pesticides or in the manufacturing of some glass. [17] Arsenic was found in groundwater and surface water at the Price Landfill site. Arsenic is recognized as a carcinogen, meaning it can cause cancer if one is exposed to it for a long period of time. It is also ranked in the top 10% of the most hazardous chemicals to human health and the environment, based on how toxic it is when ingested or inhaled, cancer and noncancer risk scores through air and water, and how toxic it is to the environment. The overall hazard value of the chemical is 30, which puts it in the 100th percentile of other chemicals, making it in the top 10% of hazardous compounds. The chemical can negatively affect health in these areas: Developmental Toxicant, Cardiovascular or Blood Toxicant, Endocrine Toxicant, Gastrointestinal or Liver Toxicant, Immunotoxicant, Kidney Toxicant, Neurotoxicant, Reproductive Toxicant, Respiratory Toxicant, Skin or Sense Organ Toxicant. This means it can: affect the development of an unborn child; cause blood diseases or abnormal heartbeat; weaken the endocrine system leading to diabetes, hormone imbalances, reproductive disorders or cancer; cause liver damage and disease; weaken the immune system which can lead to disease or cancer; cause kidney disease which can lead to cancer; affect how the nerves carry information through the bodies peripheral nervous system which weakens the lower half of the body causing a tingling sensation and loss of coordination; affect fertility and may even cause the loss of a fetus during pregnancy; cause respiratory damage which can led to cancer; cause hearing loss or other damage of the 5 senses. [18]

Benzene

Benzene is a clear liquid and can be described as being sweet smelling. It was once one of the top 20 used chemicals in the United States, being found in gasoline, rubber, plastics, oils, and even explosives. [19] Benzene is also a carcinogen, meaning it can cause cancer if one is exposed to it for a long period of time. It is ranked in the top 10% of the most hazardous compounds to human health and the environment, based on how toxic it is when ingested or inhaled, how it affects human health, workers exposure to the chemical, cancer and noncancer risk scores through air and water, and how toxic it is to the environment. The overall hazard value of the chemical is 48, which puts it within the 100th percentile of other chemicals, making it in the top 10% of hazardous compounds. This chemical can cause the following negative health effects: Developmental Toxicant, Reproductive Toxicant, Cardiovascular or Blood Toxicant, Endocrine Toxicant, Gastrointestinal or Liver Toxicant, Immunotoxicant, Neurotoxicant, Respiratory Toxicant, Skin or Sense Organ Toxicant. This means it can: affect the development of an unborn child; affect fertility and may even cause the loss of a fetus during pregnancy; cause blood diseases or abnormal heartbeat; weaken the endocrine system leading to diabetes, hormone imbalances, reproductive disorders or cancer; cause liver damage and disease; weaken the immune system which can lead to disease or cancer; affect how the nerves carry information through the bodies peripheral nervous system which weakens the lower half of the body causing a tingling sensation and loss of coordination; cause respiratory damage which can led to cancer; cause hearing loss or other damage of the 5 senses. [20]

Chloroform

Chloroform is a colorless liquid that is non-flammable. This chemical can be found in floor polishing substances and pesticides. [21] Chloroform is recognized carcinogen, meaning it can cause cancer if one is exposed to it for a long period of time. It is ranked in the top 10% of the most hazardous compounds to human health and the environment, based on how toxic it is when ingested or inhaled, how it affects human health, cancer and noncancer risk scores through air and water, and how toxic it is to the environment. The overall hazard value of the chemical is 36, which puts it within the 100th percentile of other chemicals, making it in the top 10% of hazardous compounds. It can have the following negative health effects: Cardiovascular or Blood Toxicant, Developmental Toxicant, Endocrine Toxicant, Gastrointestinal or Liver Toxicant, Kidney Toxicant, Neurotoxicant, Reproductive Toxicant, Respiratory Toxicant. This means it can: cause blood diseases or abnormal heartbeat; affect the development of an unborn child; weaken the endocrine system leading to diabetes, hormone imbalances, reproductive disorders or cancer; liver damage and disease; cause kidney disease which can lead to cancer; affect how the nerves carry information through the bodies peripheral nervous system which weakens the lower half of the body causing a tingling sensation and loss of coordination; affect fertility and may even cause the loss of a fetus during pregnancy; cause respiratory damage which can lead to cancer. [22]

Lead

Lead is found in substances such as rocks, coal, oil and gasoline. It is used in many everyday items such as batteries or medical devices. [23] Lead is recognized as a carcinogen, meaning it can cause cancer if one is exposed to it for a long period of time. It is ranked in the top 10% of the most hazardous compounds to human health and the environment, based on how toxic it is when ingested or inhaled, how it affects human health, workers exposure to the chemical, cancer and noncancer risk scores through air and water, and how toxic it is to the environment. The overall hazard value of the chemical is 33, which puts it within the 100th percentile of other chemicals, making it in the top 10% of hazardous compounds. It can have the following negative health effects: Developmental Toxicant, Reproductive Toxicant, Cardiovascular or Blood Toxicant, Endocrine Toxicant, Gastrointestinal or Liver Toxicant, Immunotoxicant, Kidney Toxicant, Neurotoxicant, Respiratory Toxicant, Skin or Sense Organ Toxicant. This means it can affect the development of an unborn child; affect fertility and may even cause the loss of a fetus during pregnancy; cause blood diseases or abnormal heartbeat; weaken the endocrine system leading to diabetes, hormone imbalances, reproductive disorders or cancer; cause liver damage and disease; weaken the immune system which can lead to disease or cancer; cause kidney disease which can lead to cancer; affect how the nerves carry information through the bodies peripheral nervous system which weakens the lower half of the body causing a tingling sensation and loss of coordination; cause respiratory damage which can led to cancer; cause hearing loss or other damage of the 5 senses. [24]

Vinyl chloride

Vinyl chloride is also recognized as a carcinogen, meaning it can cause cancer if one is exposed to it for a long period of time. It is ranked in the top 10% of the most hazardous compounds to human health and the environment, based on how toxic it is when ingested or inhaled, how it affects human health, workers exposure to the chemical, cancer and noncancer risk scores through air and water, and how toxic it is to the environment. The overall hazard value of the chemical is 49, which puts it within the 100th percentile of other chemicals, making it in the top 10% of hazardous compounds. It is suspected to cause the following health hazards: Cardiovascular or Blood Toxicant, Developmental Toxicant, Gastrointestinal or Liver Toxicant, Neurotoxicant, Reproductive Toxicant, Respiratory Toxicant, Skin or Sense Organ Toxicant. This means it can: cause blood diseases or abnormal heartbeat; affect the development of an unborn child; liver damage and disease; affect how the nerves carry information through the bodies peripheral nervous system which weakens the lower half of the body causing a tingling sensation and loss of coordination; affect fertility and may even cause the loss of a fetus during pregnancy; cause respiratory damage which can led to cancer; cause hearing loss or other damage of the 5 senses [25]

Cleanup

Price Landfill is currently in the process of being monitored by the USEPA, while the groundwater is still being treated, in hopes to eventually cap the landfill and to bring back wildlife. It has been in this process since the 1980s, when the USEPA first got involved in 1982. Originally the USEPA ran tests with the NJDEP and began to take steps in order to make it safe for people and stop the spread of the contamination as well as begin to rehabilitate the site. [14] [1]

Initial cleanup

After two years of the people around Price Landfill having found that their water was contaminated, the USEPA got involved. The agency provided a water alternative, such as bottled water, to around 37 of the affected neighbors of the Price Landfill site. The USEPA and the NJDEP conducted studies and collected samples of the soil and other substances at the site in order to find out how contaminated the area really was. To guarantee that the contamination didn't spread to the Atlantic City (ACMUA) public water supply well field, the USEPA and the State of New Jersey began construction to connect to the New Jersey Water Company (NJWC) system, updated three wells of the ACMUA, set up filter systems and began to conserve water through a program. [14] [1]

Current status

Currently, the USEPA is monitoring the site 4 times a year and states that the migration of the groundwater and the exposure to nearby people is under control. The USEPA split their plan into 3 steps, as stated on their website: immediate actions, long-term actions (fixated on wells, and controlling the spreading of the contamination), and the general cleanup of the whole site. [1]

Related Research Articles

<span class="mw-page-title-main">Toxicity</span> Degree of harmfulness of substances

Toxicity is the degree to which a chemical substance or a particular mixture of substances can damage an organism. Toxicity can refer to the effect on a whole organism, such as an animal, bacterium, or plant, as well as the effect on a substructure of the organism, such as a cell (cytotoxicity) or an organ such as the liver (hepatotoxicity). By extension, the word may be metaphorically used to describe toxic effects on larger and more complex groups, such as the family unit or society at large. Sometimes the word is more or less synonymous with poisoning in everyday usage.

<span class="mw-page-title-main">Toxic waste</span> Any unwanted material which can cause harm

Toxic waste is any unwanted material in all forms that can cause harm. Mostly generated by industry, consumer products like televisions, computers and phones contain toxic chemicals that can pollute the air and contaminate soil and water. Disposing of such waste is a major public health issue.

<span class="mw-page-title-main">Munisport</span>

Munisport Landfill is a closed landfill located in North Miami, Florida adjacent to a low-income community, a regional campus of Florida International University, Oleta River State Park, and estuarine Biscayne Bay.

<span class="mw-page-title-main">Soil contamination</span> Pollution of land by human-made chemicals or other alteration

Soil contamination, soil pollution, or land pollution as a part of land degradation is caused by the presence of xenobiotic (human-made) chemicals or other alteration in the natural soil environment. It is typically caused by industrial activity, agricultural chemicals or improper disposal of waste. The most common chemicals involved are petroleum hydrocarbons, polynuclear aromatic hydrocarbons, solvents, pesticides, lead, and other heavy metals. Contamination is correlated with the degree of industrialization and intensity of chemical substance. The concern over soil contamination stems primarily from health risks, from direct contact with the contaminated soil, vapour from the contaminants, or from secondary contamination of water supplies within and underlying the soil. Mapping of contaminated soil sites and the resulting cleanups are time-consuming and expensive tasks, and require expertise in geology, hydrology, chemistry, computer modeling, and GIS in Environmental Contamination, as well as an appreciation of the history of industrial chemistry.

<span class="mw-page-title-main">Environmental toxicology</span>

Environmental toxicology is a multidisciplinary field of science concerned with the study of the harmful effects of various chemical, biological and physical agents on living organisms. Ecotoxicology is a subdiscipline of environmental toxicology concerned with studying the harmful effects of toxicants at the population and ecosystem levels.

The Omega Chemical Corporation was a refrigerant and solvent recycling company that operated from 1976 to 1991 in Whittier, California. Due to improper waste handling and removal, the soil and groundwater beneath the property became contaminated and the area is now referred to as the Omega Chemical Superfund Site. Cleanup of the site began in 1995 with the removal of hazardous waste receptacles and a multimillion-dollar soil vaporization detoxifying system.

The former Operating Industries Inc. Landfill is a Superfund site located in Monterey Park, California at 900 N Potrero Grande Drive. From 1948 to 1984, the landfill accepted 30 million tons of solid municipal waste and 300 million US gallons (1,100,000 m3) of liquid chemicals. Accumulating over time, the chemical waste polluted the air, leached into groundwater, and posed a fire hazard, spurring severely critical public health complaints. Recognizing OII Landfill's heavy pollution, EPA placed the financial responsibility of the dump's clean-up on the main waste-contributing companies, winning hundreds of millions of dollars in settlements for the protection of human health and the environment.

<span class="mw-page-title-main">Koppers Co., Inc. (KCI) Superfund Site</span>

The Koppers Co., Inc. (KCI) Superfund Site is one of three Superfund sites in Oroville, California, along with Louisiana Pacific Sawmill and Western Pacific Railyard. The KCI Superfund Site is a 200-acre site which served as a wood treatment plant for 50 years. Wood was treated with many chemicals to prevent wood deterioration. The accumulation of these chemicals from spills, fires, and uses has caused this site to be contaminated with the hazardous waste material. Due to soil and groundwater contamination, the site was placed on the National Priorities List in 1984 for remedial action plans to clean up the site to protect surrounding residential areas concerning environmental and human health risks.

<span class="mw-page-title-main">Groundwater pollution</span> Pollution that occurs when pollutants are released to the ground and seep down into groundwater

Groundwater pollution occurs when pollutants are released to the ground and make their way into groundwater. This type of water pollution can also occur naturally due to the presence of a minor and unwanted constituent, contaminant, or impurity in the groundwater, in which case it is more likely referred to as contamination rather than pollution. Groundwater pollution can occur from on-site sanitation systems, landfill leachate, effluent from wastewater treatment plants, leaking sewers, petrol filling stations, hydraulic fracturing (fracking) or from over application of fertilizers in agriculture. Pollution can also occur from naturally occurring contaminants, such as arsenic or fluoride. Using polluted groundwater causes hazards to public health through poisoning or the spread of disease.

<span class="mw-page-title-main">Health effects of coal ash</span>

Coal ash, also known as coal combustion residuals (CCRs), is the mineral residue that remains from burning coal. Exposure to coal ash and to the toxic substances it contains may pose a health risk to workers in coal-fired power plants and residents living near coal ash disposal sites.

Kauffman & Minteer Inc. (K&M) was an industrial transportation company that operated from 1960 to 1981 in Burlington County, New Jersey. After cleaning their trucks, they dumped the waste water into a nearby lagoon that was not properly lined. The lagoon flooded and the waste water containing chemicals, migrated over to wetlands, causing damage to vegetation and seeping into underground drinking water. The Environmental Protection Agency (EPA) got involved in 1989 and conducted a few remediation attempts but the extent of the damage is hard to determine as the different underground pathways of water are unpredictable. The site is currently an active superfund site that is closely monitored by the EPA.

Emmell's Septic Landfill (ESL) is located at 128 Zurich Ave, Galloway Township, New Jersey and takes up about 38 acres of space. The landfill was in operation from 1967 until 1979. ESL disposed of liquid and solid waste including many chemicals such as volatile organic compounds (VOCs), Polychlorinated Biphenyls (PCBs), Trichloroethene and Vinyl chloride which all had their own effect on the environment and community. These chemicals affected the groundwater required millions of dollars to reconstruct the groundwater pathways and provide clean water to residents. The landfill holds a Hazardous Ranking Score of a 50/100, qualifying for the Superfund National Priority List. In August 1999, the state acknowledged the site's contamination and held town meetings and provided research upon the site such as groundwater samples. In July 1997, a sitewide investigation was called upon by the United States Environmental Protection Agency. In total the clean up was estimated to cost $5 million to fund this superfund site, and a grant of $3.9 million was given by the Federal Government under the Recovery Act Funding (Previti). Today, the project is still ongoing however, greatly improved since the landfill was discovered.

The Diamond Head Oil Refinery is a former oil reprocessing facility located in Kearny, New Jersey, United States, that was designated as a Superfund site by the Environmental Protection Agency (EPA). It opened up in 1946, but then stopped production in 1979 and has been inactive since then. The refinery was shut down in 1980 and the EPA designated it as a Superfund site in 1991 due to the discovery of toxic chemicals in the soil and the surface water. This created a dangerous work environment for the workers at the facility. The EPA proposed a clean up plan for the site, but it has yet to take effect. So far, the Diamond Head site is still in the process of being cleaned up. Although cleanup plans were discussed and finalized, the future of the Diamond Head Oil Refinery and its cleanup state is unknown.

Bog Creek Farm, located in Howell Township, New Jersey, is a designated Environmental Protection Agency (EPA) Superfund site. Laying on 12 acres of land, Bog Creek Farm is home to several hazardous and life-threatening contamination beginning in 1973 and continuing for a year. Over a decade later, actions began to take place to clean and restore the contaminated soil and water. Bog Creek Farm is situated near several other farms that house horses, growing crops and flowers, and livestock. Less than a mile down the road lies Allaire State Park, a park used by golfers, hunters, and fisherman.

Brook Industrial Park (BIP) is an industrial area occupying 4.5 acres of the Borough of Bound Brook, New Jersey, in the United States of America. It is located on the northern bank of the Raritan River. Industrial, chemical and pesticide operations began in 1971 and eventually lead to the contamination of groundwater and exposure of workers to harmful dioxins. Throughout 1980 to 1988 the United States Environmental Protection Agency (EPA) and the New Jersey Department of Environmental Protection (NJDEP) conducted studies to determine if there were any threats being posed on the workers, community or environment by the BIP companies in their disposal of processed and stored chemicals.

The Chemical Control Corporation superfund site is located at 22 South Front St. Elizabeth, New Jersey. Once a marsh, the 2-acre (0.81 ha) area next to the Elizabeth River is primarily flat land that is slightly above sea-level. The company, known as the Chemical Control Corporation, worked as a hazardous waste disposal plant from 1972 until its condemnation in 1979. Before the April 21, 1980 fire, it was reported that over 50,000 drums of chemicals, ranging from dioxin, benzene, cyanide, toluene, ethylene dichloride and more, were present on the site. State intervention was taken prior to the fire, but it became a matter of national intervention following the fire due to the level of contamination that impacted the environment and community. Cleanup operations have been underway since the early 1980s. The Environmental Protection Agency is considering removing the site from the National Priorities List because of the extensive cleanup that has been done.

Sharkey Landfill is a 90-acre property located in New Jersey along the Rockaway and Whippany rivers in Parsippany, New Jersey. Landfill operations began in 1945, and continued until September 1972, when large amounts of toluene, benzene, chloroform, dichloroethylene, and methylene chloride were found, all of which have are a hazard to human health causing cancer and organ failure. Sharkey Landfill was put on the National Priority List in 1983, and clean up operations ran until the site was deemed as not a threat in 2004.

The Zschiegner Refining Company (ZRC) was located in Howell, New Jersey, and operated as a metal refining facility. Some of their operations included stripping the chemicals off of precious metals from watch bands, photographic film, and electrical components. In 1992, the United States Environmental Protection Agency (EPA) discovered that 3,000 chemicals had contaminated the soil, surface water, and groundwater. These areas were contaminated due to discharge of waste to the ground surface, the movement of waste and contamination downhill from the site building, along with surface water runoff. When the EPA investigated the site and found the chemicals in the groundwater and soil, they shut down the company that same year in 1992. In that area, the environment and people were affected, especially the workers in the facility. After a Hazard Ranking System report was conducted by the EPA, the site was placed on the National Priorities List in March 1998. In 2008, the cleanup was completed, but groundwater and wetland is still being monitored.

The Orange Valley Regional Groundwater Superfund site is a group of wells in Orange and West Orange, two municipalities in Essex County, New Jersey, United States. The groundwater in the public wells are contaminated with the hazardous chemicals of Trichloroethylene (TCE), Dichloroethene (DCE), Tetrachloroethylene (Perchloroethene), 1,1-Dichloroethene (1,1-DCE), and 1,2-Dichloroethene (1,2-DCE). These chemicals pose a huge risk to the towns nearby population, as the wells are a source of public drinking water. In March 2012, the site was added to the National Priorities List (NPL) of the United States Environmental Protection Agency (EPA) Superfund site list.

The Burnt Fly Bog Superfund Site is located in Marlboro Township in Monmouth County, New Jersey. Contamination began in the 1950s and 1960s. It was used as a dumping ground for hazardous chemicals and oils. This site was used to reprocess or recycle oil, and it was also used as a landfill during the 1950s. The contamination affected the surface water and soil. The EPA got involved in the 1980s and addressed the situation. Human health concerns were a main part of the EPA getting involved because residents lived only about 1,000 to 2,000 feet around the site. Major components of the remedy included excavation and off-site disposal of contaminated soil from Northerly Wetlands, Tar Patch Area. The back filling of the areas addressed, monitoring of the surface water and sediments, and biological sampling in the Westerly Wetlands. The current status of the site is complete. The remedial stages were completed in the late 1990s and a five-year monitoring of the surface water was completed around 2004.

References

  1. 1 2 3 4 5 6 7 8 9 "Superfund Site: Price Landfill, Pleasantville, NJ". The United States Environmental Protection Agency. Retrieved 29 September 2017.
  2. "City: Pleasantville, NJ Price Landfill" (PDF). IndianaLibrary: 1,2. Retrieved 28 September 2017.
  3. 1 2 "NPL Site Narrative for Price Landfill" (PDF). National Priorities List. Retrieved 20 September 2017.
  4. 1 2 3 4 5 "Superfund Record of Decision: Price Landfill, NJ". National Service Center for Environmental Publications (NSCEP) on The United States Environmental Protection Agency. USEPA. Retrieved 28 September 2017.
  5. 1 2 "Superfund Site Report Price Landfill". GoodGuide. Retrieved 25 September 2017.
  6. "Record of Decision: Price Landfill" (PDF). EPA. p. 25.
  7. 1 2 "Google Maps". Google Maps. Google. Retrieved 4 October 2017.
  8. 1 2 "Proposed Administrative Settlement Agreement under Section 122(h) of the Comprehensive Environmental Response, Compensation, and Liability Act for the Price Landfill Superfund Site, City of Pleasantville and Egg Harbor Township, Atlantic County, NJ - ACTION: Notice of Proposed Administrative Settlement and Opportunity for Public Comment". July 6, 2011. Retrieved 28 September 2017.
  9. 1 2 "QuickFacts: Pleasantville City, New Jersey". United States Census Bureau. U.S. Census Bureau. Retrieved 28 September 2017.
  10. Hutchinson, Viola, L. (May 1945). The Origins of New Jersey Place Names (PDF). New Jersey Public Library Commission. p. 26. Retrieved 28 September 2017.
  11. "Pleasantville, NJ". Pleasantville, New Jersey. City of Pleasantville, NJ. Retrieved 28 September 2017.
  12. "About us". Atlantic City Electric Company. Exelon Corporation. Retrieved 24 September 2017.
  13. "Prices Landfill 1". New Jersey Department of Environmental Protection Site Remediation Program. New Jersey Department of Environmental Protection. Retrieved 29 September 2017.
  14. 1 2 3 4 5 6 7 "Prices Landfill 1". New Jersey Department of Environmental Protection Site Remediation Program. New Jersey Department of Environmental Protection. Retrieved 28 September 2017.
  15. 1 2 "Chemical Profiles: 1,2-Dichlorothane". Scorecard. goodguide. Retrieved 28 September 2017.
  16. "Trans-1,2- Dichloroethylene". Pub-Chem. U.S. National Library of Moment. Retrieved 28 September 2017.
  17. "Arsenic(Tox Town)". Tox Town. U.S. National Library of Medicine. Retrieved 28 September 2017.
  18. "Chemical Profile: Arsenic". Scorecard. GoodGuide. Retrieved 28 September 2017.
  19. "Benzene". ToxTown. U.S. National Library of Medicine. Retrieved 28 September 2017.
  20. "Chemical Profile: Benzene". Scorecard. GoodGuide. Retrieved 28 September 2017.
  21. "Frequently Asked Questions: Chloroform" (PDF). Delaware Health and Social Services: Division of Public Health: 1. September 2013. Retrieved 28 September 2017.
  22. "Chemical Profile: Chloroform". Scorecard. GoodGuide. Retrieved 28 September 2017.
  23. "Lead". Tox Town. U.S. National Library of Medicine. Retrieved 28 September 2017.
  24. "Chemical Profile: Lead". Scorecard. GoodGuide. Retrieved 28 September 2017.
  25. "Chemical Profile: Vinyl Chloride". Scorecard. GoodGuide. Retrieved 28 September 2017.

Coordinates: 39°24′55″N74°31′35″W / 39.4153°N 74.5265°W / 39.4153; -74.5265

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.