| Papers [1-16] of 100 :: [Page 1 of 7] | | Go to page : 1 2 3 4 5 6 7 —> | Search results on "HAZARDOUS WASTE DISPOSAL": |
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Daily Operations in a Hazardous Waste Plant, 2008.
A description of the day-to-day operations of a hazardous waste disposal plant in Miami.
1,759 words (approx. 7.0 pages), 7 sources, APA, AU$ 73.95
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Abstract
This paper describes the daily operation process of the Miami facility of Cliff Berry Inc., hazardous waste disposal firm. The paper describes the facility, its waste disposal processes and also explains the firm's specialization in oil waste treatment and disposal. The paper also describes Cliff Berry's waste water management system and relates the challenges that they face, such as is the development of new technologies, the criticism of the hazardous waste disposal industry, the threat of new competition and regulatory issues on federal, state and county levels.
Outline:
Introduction
The Facility and Its Operations
Customers
Challenges
Major Regulatory Issues
Plans for the Future
References
From the Paper
"The primary sources of waste at the Miami plant of Cliff Berry are the ships that ply the waters around South Florida. The area is home to two major cruise ship hubs at Miami and Fort Lauderdale, as well as two major container ports, the Port of Miami and Port Everglades. Oily bilge water from these ships is processed through this plant. They also service other major area hubs such as Tampa and Cape Canaveral. They work with all the major cruise lines that operate in South Florida."
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Hazardous Waste, 2008.
A discussion on how to treat, handle and dispose of hazardous waste.
1,773 words (approx. 7.1 pages), 5 sources, APA, AU$ 74.95
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Abstract
The research presented in this paper closely examines hazardous waste, its production, transportation and storage, and any issues arising out of those processes or events that will help lend insight and understanding into this very important subject. The paper explains that hazardous waste is any product which necessitates a special process or treatment for disposing of the waste, or, if mishandled, the waste, such as asbestos, poses a threat and health hazard to people who come in contact with it. The paper points out that there were no international rules or laws governing the transfer of hazardous waste from one country to another, and in some instances the transfer was negotiated privately, without making the government of the receiving country aware of the transfer. The paper suggests that it is perhaps more important than ever, and a very good time to look at the issues of hazardous waste when people are concerned about issues such as global warming and preserving the natural environment. The paper concludes that the issue of hazardous waste is one that must be addressed, and addressed in a way that relieves third world countries and future generations of people of the burden of dealing with that problem.
Outline:
What is Hazardous Waste and Who Makes It?
From the Paper
"Third world countries are targeted as dumping grounds for hazardous waste because those countries are badly in need of cash. It becomes very unsettling from a safety and humanitarian perspective when one thinks of the little island of Haiti contracting to receive hazardous waste when that country is already dealing with the squalor of human waste and disease for which there are no adequate infrastructures like sewer systems, water delivery systems, housing, and other infrastructure that would facilitate the adequate and proper handling and treatment of hazardous waste."
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Household Hazardous Waste, 2004.
An analysis of household hazardous wastes and the steps that need to be taken to ensure the correct disposal thereof.
2,147 words (approx. 8.6 pages), 7 sources, MLA, AU$ 87.95
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Abstract
This paper focuses on the epic topic of household hazardous waste. A thorough description of what household hazardous waste is and where it comes from is provided. Following this, a discussion of safe usage, storage, and disposal of these materials is presented. The paper examines what can happen to the environment when these waste products are not disposed of properly. Finally, the paper discusses why household hazardous waste does not receive the same scrutiny by governmental agencies as commercial and industrial hazardous waste.
From the Paper
"As mentioned, household products are considered to be hazardous if they have one or more of the following properties. If they are flammable or combustible, meaning they can be easily set on fire, they are deemed hazardous. If they are explosive or reactive, in such a manner that they can detonate or explode through exposure to heat, sudden shock, pressure, or interaction with incompatible substances, they are deemed hazardous. If the product is found to be corrosive, in that it exhibits a chemical action that can burn and destroy living tissues or other materials if it comes into contact with them, it is deemed hazardous. And, if the product is toxic, where it is capable of causing injury or even death if it is ingested, inhaled or absorbed through the skin, it is deemed hazardous ("Household Hazardous Waste Project")."
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Hazardous Waste, 2005.
A discussion on hazardous waste and its management.
1,125 words (approx. 4.5 pages), 3 sources, AU$ 57.95
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Abstract
The paper examines how hazardous waste is an acute problem throughout the world. The writer proposes that there is no single solution to this problem and that it is unlikely that our modern, industrialized society will become waste-free. This paper defines waste and hazardous waste. It looks at how hazardous waste is produced and how it can impact the environment as well as human health. The paper includes strategies for minimizing both the volume and impact of waste. The paper concludes that an approach that combines source reduction, reuse, recycling and burying in sanitary landfills is needed in order to properly manage both hazardous and non-hazardous waste.
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Solid Waste Disposal & Contamination, 2002.
An analysis of the environmental crisis of fecal contamination due to inadequate solid waste disposal.
1,662 words (approx. 6.6 pages), 6 sources, MLA, AU$ 70.95
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Abstract
This paper discusses the hazardous effects of inadequate methods of solid waste disposal on the environment. The paper emphasizes the urgency of the need to deal with this issue, and describes fecal contamination as the major culprit. The writer illustrates how the lack of modern sanitation facilities and adequate health care in certain areas, are the main cause of fecal contamination.
From the Paper
"Fecal waste may contain an undetermined number of bacteria, viruses, and parasites capable of causing disease in humans and animals. Studies have focused on numbers of indicator bacteria (total coliforms, fecal coliforms, and fecal streptococci) or enteroviruses in feces and leachates, but have not estimated the total pathogen load or identified the major sources of these pathogens. This may be due to lack of detection methods for many of the pathogens in solid waste or leachate as well as potentially low numbers of viable but non-culturable organisms. Fecal waste is a breeding ground for diseases and even the smallest of contaminations can cause a great deal of problems."
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Waste Disposal in the GTA, 2002.
Examines the problem of waste disposal in the Greater Toronto Area (GTA).
3,150 words (approx. 12.6 pages), 15 sources, AU$ 150.95
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Abstract
This paperfocuses on the Greater Toronto Area's curren, and historic reliance on land filling. It identifies the problems with landfilling and other aspects of the GTA's waste disposal plans and proposes alternatives.
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Waste Disposal, 2007.
This paper explores the three methods of waste disposal: landfill, incineration and the 3Rs (reduce, reuse and recycle).
1,416 words (approx. 5.7 pages), 6 sources, MLA, AU$ 61.95
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Abstract
This paper discusses how the accumulation of waste is an inevitable problem of highly industrialized, consumerist and rich nations, whose economies thrive on producing and creating demand for more products. The paper discusses three methods that are used to deal with waste: landfill, incineration and the 3Rs: reduce, reuse, recycle. The paper explains how all three methods are associated with various environmental and economic costs. The paper points out, however, that the 3Rs method of waste management has the greatest potential for growth and improvement.
From the Paper
"Waste is a non-avoidable result of high-technology industrialized economies. We live in a consumerist society that encourages us to shop and acquire more things. Hence more things are produced and more waste is generated. In 2000, Canadians generated 1021 kg of non-hazardous waste per capita (Statistics Canada, 2002). 747kg of this waste were disposed of per capita (Statistics Canada, 2002), while the rest was recycled. "Current waste management practices in Canada emphasize techniques and approaches that avoid or minimize the need for waste disposal" (MacLaren, 371). There are three methods used to deal with waste: landfill, incineration and the 3Rs: reduce, reuse, recycle."
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Nuclear Waste Disposal, 2005.
This paper discusses why the disposal of nuclear waste is a contentious issue that is often the subject of heated debate.
3,421 words (approx. 13.7 pages), 15 sources, MLA, AU$ 125.95
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Abstract
This paper examines the problem of nuclear wastes and how it presents a particular dilemma on various fronts including health and security issues. Nuclear energy and technology has become an endemic part of modern society. The paper points out that concomitant with the significant advances in the production of nuclear energy as well as its application to the areas of medicine and defense has been the escalation of the problems of nuclear waste disposal.
Includes several graphs and tables and diagrams.
1. Introduction
2. Classification of Types of Nuclear Waste
3. Sources of Nuclear Waste
3.2. Storage of Low Level Waste
3.3 Long-Term Storage of High Level Waste
3.4. The Storage of Plutonium
3.5. Transmutation
4. Conclusion
From the Paper
"This debate emphasizes the dilemma and the importance of finding a permanent and less environmentally hazardous solution to the problems of nuclear waster. All of the methods discussed above provide some solutions to the problems - but they do not as yet present a permanent and fully acceptable means of waste disposal and many of the methods have significant drawbacks and are often manpower intensive and open to the vicissitudes of human error. The answer to what to do with nuclear waste has not yet been adequately answered."
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Waste Disposal in the U.S., 1993.
Examines public policy, laws, recycling, municipal solid waste, hazardous materials, landfills, waste-to-energy plans, industrial pollution, radioactive waste and sewage treatment.
4,500 words (approx. 18.0 pages), 18 sources, AU$ 175.95
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From the Paper
"The more developed a country is, the more waste it produces. Waste, therefore, is an excellent standard-of-living indicator. The abundance of waste, however, is also a significant source of pollution, and this has become a major concern of governments all over the world.
The Organization for Economic Co-operation and Development (OECD) drew up the following categories for waste classification: municipal (mainly household) waste; industrial waste; residue from the production of energy; hospital and agricultural waste, mining spoil and demolition debris; dredge spoil, and sewage sludge--nuclear wastes were regarded separately (3:28). In the industrialized member countries of OECD, where 90 to 100 percent of garbage collection is carried out by municipal authority, people do not seem to worry about what happens to their household ..."
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A Call for Safer Methods of Nuclear Waste Disposal, 2001.
A call to action for safer methods of disposal of nuclear waste and other radioactive material.
665 words (approx. 2.7 pages), 4 sources, MLA, AU$ 30.95
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Abstract
An argumentative paper, exploring the chemical make up of uranium, showing that it is extremely difficult to dispose of this material in a complete way. It looks at current disposal practices in the world and analyzes their pros and cons.
From the Paper
"Radioactive material is defined as having atoms with extremely excited outer electron shells. This makes them unstable, excitable and an efficient means of providing energy to a population that can afford a nuclear power plant. The main source of this energy is Uranium. This is a naturally occurring element found in rocks and seawater. It is the most heavy element in the periodic table, having 146 neutrons and 92 protons in its stable form. The instable form has 143 neutrons and this is the kind that is used in cores to create energy (UIC website)."
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Hazardous Waste, 2009.
This paper discusses the causes and impacts of solid waste, as well as a solution to this problem.
1,434 words (approx. 5.7 pages), 6 sources, APA, AU$ 61.95
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Abstract
The paper lists the environmental impacts of solid waste from domestic and commercial activities of humans. The paper discusses peoples' failure to adapt to environmental limitations and therefore suggests that a changed environment approach should start with the education of the population. The paper further proposes that the actions of environment protection be legally enforced and made compulsory while also appealing to the social duty of each and every one of us.
Outline:
The Problem
Factors
Humans' Implications
The Current Solution
The Proposed Solution
The Required Support
From the Paper
"At a global level, one out of five people do not have access to fresh water; the numbers are expected to increase. Out of the entire resources of fresh water, 40 percent are no longer drinkable. The United States only has 4 percent of their initial forests. The United States consumes 30 percent of the global resources allocated per year; at this rate, we would need five planets just to get by (Leonard, 2008). However, we only have one planet, but since we are simply trashing it, we need to come up with a better plan to preserve the environment."
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Recycling and Waste Disposal, 1992.
A look at types of garbage, disposal and recycling and educational strategies for children on recycling.
2,475 words (approx. 9.9 pages), 11 sources, AU$ 113.95
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From the Paper
I -Waste Disposal and Recycling
1. History
"'What has four wheels and flies?' A garbage truck of course" (Melosi xiii).
Centuries ago, long before anyone even thought of trucking garbage far away from homes and businesses, people used to throw their refuse out the windows into the streets ... hopefully when no one was walking by. Trash thus accumulated till it would reach the top of the upper windows and, soon enough, till it would bury the houses. Archaeologists have cleared thick layers of decomposed and intact garbage and sand to discover entire cities and civilizations heretofore lost under their own garbage. As the field researchers dug and dug deeper, they unearthed six or seven cities, each interred in its own refuse, one city on top..."
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Nuclear Waste Disposal, 1997.
Provides background of the problem and discusses issues such as spent fuel rods & liquid waste, storage containers, laws, health & environmental threats, site selection, transportation, costs and public views.
3,150 words (approx. 12.6 pages), 15 sources, AU$ 144.95
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From the Paper
"NUCLEAR WASTE DISPOSAL
Introduction
This research considers the issue of nuclear waste disposal in the United States. The nuclear waste present in the United States is a combination of spent fuel rods from commercial nuclear power generators, high-level liquid radioactive waste from government-owned nuclear reactors uses in the production of nuclear weapons, and miscellaneous low-level nuclear wastes.
While the way in which nuclear waste should be disposed is a volatile issue, one issue that has not been adequately considered is the separation of the spent fuel rods from the commercial reactors from the high-level weapons production-related nuclear waste with respect to disposal of the materials. Currently, policy calls for all nuclear waste to be placed in long-term storage at..."
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Oil as a Hazardous Waste, 1994.
A discussion of the types of pollution (oil spills, industry, dumping), the effects on oceans and land, legislation, chemical composition, management and clean-up, health effects, bioremediation and recycling.
4,500 words (approx. 18.0 pages), 21 sources, AU$ 175.95
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From the Paper
"Oil: A Hazardous Waste
In recent years, oil pollution has received widespread attention. The problem of environmental hydrocarbon contamination was probably most clearly defined in March, 1989, when the oil tanker, Exxon Valdez, ran aground in Prince William Sound. Since then, there have been numerous other spills, both on land and at sea. In an effort to quell the destruction, government has enacted several statutes designed to hold polluters accountable. These laws broadly affect various aspects of oil pollution: they regulate everything from supertankers to the disposal of used motor oil. Moreover, in areas already contaminated, the measures may call for remedial action. An array of remediation techniques exists which can be employed to rid a site of hydrocarbon pollution. In general, a process of..."
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Phytoremediation Technology For Hazardous Waste Management, 1999.
Defines and explains the process of using plants to decontaminate polluted sites.
1,575 words (approx. 6.3 pages), 13 sources, AU$ 72.95
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From the Paper
"EVALUATION OF PHYTOREMEDIATION TECHNOLOGY FOR
HAZARDOUS WASTE MANAGEMENT
Introduction. Phytoremediation is "the use of plants to remove, contain or render harmless environmental contaminants in water, soil and sediments" (BIOMINET, 1998a, p. 2). It is fairly new as an attempt to treat hazardous waste sites, although it has been used for decades for wastewater polishing or the straining of pollutants from urban runoff through grass buffer areas.
Inorganic Contaminants Removed. Kuwabara et al. (1990) studied the uptake of arsenic from mine tailings by algae and attached aquatic plants ("submerged macrophytes") in a 57-km stretch of a South Dakota stream (Kuwabara et al., 1990, p. 395). The uptake of arsenic was affected by an apparent preferential uptake of phosphorus, if present in the water, principally in the ..."
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The EPA and Waste Management, 2002.
Examines the involvement of the Environmental Protection Agency in hazardous waste cleanup.
900 words (approx. 3.6 pages), 5 sources, AU$ 45.95
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Abstract
Hazardous waste management is one of the most problematic issues that the Environmental Protection Agency (EPA) is asked to face: Hazardous waste is challenging to clean and dispose of and there tend to be complications resulting from the disposal of waste in the response from the public sector in terms of opposing localized disposal plans. The EPA is also challenged in terms of funding, for the cleanup and disposal of hazardous wastes is a costly process. This paper investigates how the EPA manages the funding and cleanup of hazardous wastes despite these challenges.
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