Spelling suggestions: "subject:"landfill"" "subject:"landfills""
1 |
Recyklace odpadu v některých městech jižních ČechŠULISTA, Daniel January 2018 (has links)
This master´s thesis discusses waste recycling in selected towns in the South Bohemia region. The first part explains the concepts of waste, landfilling, recycling and waste treatment. In the second part of the thesis selected areas of South Bohemia suitable for elaboration are listed. Data collected for individual commodities (electrical appliances, metals, paper, plastics, glass and textile materials) are listed in the tables and subsequently represented in a graphical way. These charts illustrate how citizens in each area recycle or not recycle their waste. In the conclusion of the thesis is presented the amount of waste per capita for the given area and a comparison with the other areas. Afterwards, measures are proposed to improve waste recycling.
|
2 |
Färdigbehandlade deponier : Ska miljöövervakningen fortlöpa? / Closed landfilling sites : Shall the environmental monitoring be proceeded?Persson, Hilda January 2021 (has links)
Waste management is an important key to protect the environment and human health. Landfilling is the oldest form of disposal of waste and due to that Sweden has about 2000 closed landfilling sites. Closed landfilling sites might have negative impact on the environment and must therefore be monitored to reduce the risk of pollution. A way to monitor a closed landfill site is to analyze the surrounding waters and ground waters to see if the leaches might affect them. This study aims to determinate when a closed landfilling site might be considered safe enough to stop monitoring. The landfilling site at Ersmarksberget has been used as an example. A screening has been performed in the ground water and analyses from 2007-2020 have been used to determinate how or if the landfilling site affects the surrounding waters. Metals, persistent organic pollutants, and nutrients have been analyzed. The result of this study tells us that the landfilling site do not have a great impact on surrounding waters. Some concentrations of metals are higher in waters in the landfilling catchment area compared to a reference sites, but most of the pollutions are not above the environmental quality standards set by Swedish authorities. If the negative effects of a closed landfilling site are a bare minimum it might be time to stop the monitoring. To protect the environment and human health it is better to monitor and to remediate sites that are affecting the environment in a severe way.
|
3 |
Comparison of home-composting and large-scale composting for organic waste management in Québec, Canada.Joly, Elsa January 2011 (has links)
The management of the organic fraction of municipal solid waste has become a major issue lately in the province of Québec, Canada. Most of it is landfilled today, which increases the burden on landfills and is environmentally unsound. In order to comply with new government guidelines, municipalities have to develop solutions to recover and recycle organic waste. In this context, this study examines two solutions for treating organic waste: home-composting and a separate biodegradable waste collection system combined with large-scale composting. The two scenarios are compared in terms of costs and environmental performance to a reference scenario where all waste is landfilled, using as a case study a fictional city of 50 000 inhabitants. Results indicate that a centralized collection system, combined to large-scale composting, has greater environmental benefits than home-composting. It cuts greenhouse gas emissions by 240% compared to the reference scenario, while emissions from home-composting remain at the reference level. However, when compared to the reference scenario, home-composting reduces waste management costs by 15% while they represent an increase of 4% with large-scale composting. The study concludes that separate biodegradable waste collection combined to large-scale composting is the best way for a municipality to achieve high environmental goals, despite a slight increase of municipal costs. The participation rate of citizens is suggested to be a crucial parameter for the success of organic waste management in the two scenarios and it should be enhanced by different means to ensure the successful implementation of the chosen solution.
|
4 |
SOUČASNÁ PRAXE V NAKLÁDÁNÍ S BIOLOGICKY ROZLOŽITELNÝMI ODPADY / CONTEMPORARY PRACTICE IN DISPOSE OF BIODEGRADABLE WASTEŠmejkalová, Zuzana January 2008 (has links)
This diploma paper deals with contemporary practice in dispose of biodegradable waste, especially biodegradable communal waste (biowaste) in the Czech Republic. It explains fundamental terms, points out relevant legal rules and describes methods of biowaste handling. It evaluates collection and utilization systems in two cities in the way of comparison method. It compares them from cost and benefits (economic, environmental) points of view. The main purpose of the diploma paper is general introduction into the issue, pointing out negative effect of biowaste landfilling and presentation of actual systems of utilization. Also the work points out contemporary trend consisting in raising separation and reducing biodegradable communal waste landfilling.
|
5 |
Posuzování životního cyklu komunálního odpadu / Life cycle assessment of municipal wasteVlach, Josef January 2008 (has links)
The aim of this study is to present methodology life cycle (LCA) and Life Cycle Assessment of disposal the municipal solid waste chain. There is described the procedure of generation of the LCA studies according to the standards ČSN EN ISO 14 040 and ČSN EN ISO 14 044 in the first and second part. In the third part of this diploma there are described LCA analyses that have already been created. The software GEMIS (Global Emission Model for Integrated System) is described in the fourth part. The computer model GEMIS has been used as a calculation tool in this study. The fifth part of this study includes waste management and different kinds of disposal municipal solid waste. In this part is describe basic data about landfilling and incieration. There is shown LCA analysis of disposal municipial solid waste in the sixth part. Data processing was carried out by means of the software GEMIS 4.3. The results were interpreted for incineration and landfilling. Finally there is mentioned results for 1 TJ different elektrical energize to.
|
6 |
Vyhodnocení cíle politiky v oblasti nakládání s komunálními biologicky rozložitelnými odpady z hlediska efektivity / Evaluation of policy objectives in the management of biodegradable municipal waste in terms of efficiencyMareš, Josef January 2009 (has links)
The work deals with the critical assessment of the requirement of Council Directive 1999/31/EC on the landfill of waste for a gradual reduction in landfilling of biodegradable municipal waste (BMW). The aim of this work was to evaluate this requirement in terms of economic efficiency using the meta-analysis of selected complex studies based on cost-benefit analysis. Studies focused on natural and technical parameters and available specific data for Czech Republic of particular ways of processing BMW were also used for finding of private and social costs and benefits balance. Based on the results of this balance is not possible to decide whether fulfillment of the requirement will increase economic efficiency. Results are calculated from large number of input values, some of which shows significant variability. Oxidation rate of uncaptured CH4 in the process of landfilling BMW is characteristic example. This parameter varies between values 10 % and 90 %. While for value 10 % would separate collection of biowastes and its composting presented option with higher economic efficiency, for value 90 % is the result opposite.
|
7 |
Frakcionace biodegradabilní části komunálního odpadu k výrobě bioplynu a k výrobě pevného biopaliva / Fractionation of biodegradable municipal waste to produce biogas and solid biofuels productionVELEK, Jindřich January 2015 (has links)
The theses deals with the use of biologically degradable waste which needs to be processed and utilized in maximum amount. It is highly desirable to apply new and well-known technologies to treat such waste efficiently and not to dispose it in landfills unreasonably, as is the case at present. The paper describes landfilling, composting, anearobic digestion, mechanical and biological treatment of waste as well as various stages of the lability concerning fractions of organic compounds. The stages of the lability concerning fractions of organic compounds are in particular determining the best utilization of such biologically degradable waste in each technology. It is advisable in this case to apply the STEAM EXPOLOSTION or IFBB technology for treatment of biologically degradable waste. These technologies were used in the proposal for the utility model which specifies how to produce biogas or solid biofuel from waste.
|
8 |
Posouzení životního cyklu (LCA) směsného komunálního odpadu v obci Frýdek-Místek / Life Cycle Assessment (LCA) of Mixed Municipal Waste Collected in Frýdek-MístekHamšíková, Renata January 2009 (has links)
Diploma graduation thesis deals with analytical tool called Life Cycle Assessment (LCA). Paper explains this analytic tool and focuses on its possible application in municipal decision-making process. Thesis carries out specific application of Life Cycle Assessment (LCA) targeted towards disposal of mixed municipal waste collected from Frýdek-Místek city. Municipal waste management issues are mentioned in relation with Frýdek-Místek and year 2007. The aim is to analyze nowadays landfilling of mixed municipal waste done in Frýdek-Místek and to examine the possibility of incineration of mixed municipal waste in order to reach minimal total environmental impacts. The paper offers improvement suggestions based on extensive LCA study.
|
9 |
Návrh spalovny odpadu s parní turbinou / Waste heat recovery vith steam turbineKorytár, Zbyněk January 2012 (has links)
The aim of this thesis is the design of municipal waste incinerator using the generated steam for power generation and distribution of heat. At the beginning is engaged in development of waste issues and the current state of waste management. The next section describes the options of waste treatment and possible solutions to the current state of waste issues. The concept of waste incineration plants: For waste incineration is used line for burning 100,000 tons of municipal waste per year.Combustion takes place in a grate boiler. Its advantage is the versatility and flexibility to waste. Electricity generation is dealt with condensing turbine with controlled consumption. The flue gas cleaning is designed to semi-wet method. The final stage involves the calculation of the balance, the calculation of electric energyand basic economic evaluation.
|
10 |
Právní úprava skládkování odpadů / Landfilling legislationČerný, David January 2016 (has links)
Abstract AJ The goal of this thesis is to thoroughly chart the problem of waste management in Czech Republic and the European Union and to outline legal and economic situation in waste treatment and in its alternatives. This thesis deals with different types of landfills, their technical aspects and methods of depositing waste. The thesis also tries to point out material and energetic use of waste before landfilling. Recycling is considered to be important because it decreases the amount of waste stored in landfills. Composting and anaerobic digestion are the other methods of disposal. The thesis also describes the possibilities of usage of the landfill gasses with the help of cogeneration units. The thesis refers to current level of waste landfilling in the Czech Republic and in other countries of the European Union. Key words: waste management, landfilling, landfills, waste sorting, material recovery from waste, recycling, composting, energy recovery from waste, incineration,
|
Page generated in 0.0662 seconds