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FIFRA micocosm testing

FIFRA-test

standardised microcosm test for testing pesticides, according to the US Federal Insecticide, Fungicide and Rodenticide Act of USA.

filling, package

filter dust collector

financial risk assessment in environmnetal risk management

tools to estimate (and where possible control) the financial risks related to the management of land contamination problems (Source: EUGRIS)

fine grained silt

fingerprint analysis based on chromatogram

an analysis in which the detector output - the chromatogram - is compared to chromatograms of reference materials for the identicifation of an unknown mixture or product.

firewall, IT

First World Conference on the Environment

the United Nations Conference on the Human Environment (also known as the Stockholm Conference) was an international conference convened under United Nations auspices held in Stockholm, Sweden from June 5-16, 1972. It was the UN's first major conference on international environmental issues, and marked a turning point in the development of international environmental politics.

The conference was opened and addressed by the Swedish Prime Minister Olof Palme and secretary-general Kurt Waldheim to discuss the state of the global environment. Attended by the representatives of 113 countries, 19 inter-governmental agencies, and more than 400 inter-governmental and non-governmental organizations, it is widely recognized as the beginning of modern political and public awareness of global environmental problems.

The meeting agreed upon a Declaration containing 26 principles concerning the environment and development; an Action Plan with 109 recommendations, and a Resolution.

The Conference paved the way for further understanding of global warming, which has led to such agreements as the Kyoto Protocol
Johannesburg Declaration
Habitat International Coalition, etc.

Source: http://en.wikipedia.org/wiki/United_Nations_Conference_on_the_Human_Environment

flame atom emission photometry

see flame photometry

flame atomic absorption spectrometry

a method for elemental analysis, abbreviated as FAAS. The sample is atomised in the flame, through which radiation of a chosen wavelength (using a hollow cathode lamp) is sent. The amount of absorbed radiation is a quantitative measure for the concentration of the element to be analysed. The gas mixtures used are hydrocarbons, e.g. methane, propane, propane-butane, air/acetylene and nitrous-oxide/acetylene. The latter resulting in higher atomisation efficiencies and thus better detection limits for elements like Si, Al, Sc, Ti, V and Zr. The air/acetylene flame can be used for easy atomisable elements (e.g. As and Se). The temperature of the flame is 2300 ^oC, high enough for atomization of the most frequently measured 30 elements. The liquid samples are introduced by nebulization, most frequently by pneumatic nebulization, PN, for the solid samples laser ablation and electrothermal vaporization. (Source: Posta József: Atomabszorpciós spektrometria. Debreceni Egyetem, 2008, Kempelen Farkas Digitális Tankönyvtár. www.tankonyvtar.hu/kemia/atomabszorpcios-080904-63). The method is useful for elemental analysis of environmental (soil, groundwater, sludge, deposit) and waste samples.

flame fotometry

a branch of atomic spectroscopy. The atoms are excited by flame of gas (acetylene) and the emitted light is analysed. The wavelength is characteristic to the quality, the intensity to the quantity of the alkali and alkaline earth metals (Na, K, Li, Ca, Mg, Ba), Fe, Mn and Cu. The sample solution to be analyzed is aspirated into a hydrogen-oxygen or acetylene-oxygen flame; the line emission spectrum is formed, and the line or band of interest is isolated with a monochromator and its intensity measured photoelectrically. It is a cheap and simple method for trace analysis in soil and water samples. While atomic absorption spectrometry is the most widely applied atomic spectroscopic method nowadays, flame photometry also has its advantages.

flame ionisation detector

abbreviated as FID, a most widely used detector in gas chromatography, which is able to detect the volatile organic compounds by burning them in the hydrogen flame. It measures any organic compounds except formic acid and formaldehyde which can be evaporated. The sensitivity depends on the specific carbon content of the compound.

flammability

a flammable gas is a gas having a flammable range with air at 20° C and 101.3 kPa, a flammable liquid is one with a flash point below the upper limit set in the C&L criteria, a flammable solid is a readily combustible solid (powdered, granular or pasty substance). It can be easily ignited by brief contact with an ignition source (such as a burning match) and the flame spreads rapidly. (http://www.prc.cnrs-gif.fr/reach/en/physicochemical_data.html)

flammability on contact with water

substances which, in contact with water, are liable to become spontaneously flammable or emit flammable gases in dangerous quantities. (http://www.prc.cnrs-gif.fr/reach/en/physicochemical_data.html)

flammable properties

according to REACH they include pyrophoricity, flammability and flammability on contact with water. The flammable properties tests are designed to allocate a substance into the appropriate hazard class. (http://www.prc.cnrs-gif.fr/reach/en/physicochemical_data.html)

flash point

the lowest temperature at which a volatile liquid can vaporize to form an ignitable mixture in air. Measuring a liquid"s flashpoint requires an ignition source. This is not to be confused with the autoigmition temperature, which requires no ignition source. The flash point is often used as one descriptive characteristic of liquid fuel, but it is also used to describe liquids that are not used intentionally as fuels. Flash point refers to both flammable liquids as well as combustible liquids. There are various international standards for defining each, but most agree that liquids with a flash point less than 60°C are flammable, and those above this temperature are combustible. A physico-chemical parameter required by REACH. (http://www.prc.cnrs-gif.fr/reach/en/physicochemical_data.html) A few examples for the flash point and autoignition temperature: gasoline -40 ^oC/246 ^oC, diesel oil 62^oC/210 ^oC, kerosene 38-72^oC/220 ^oC. (wikipedia) The study does not need to be conducted if: the substance is inorganic; or the substance only contains volatile organic components with flash-points above 100°C, for aqueous solutions; or if the estimated flash-point is above 200°C; or the flash-point can be accurately predicted by interpolation from existing characterised materials.

flavonoids

see bioflavonoids

flood

a flood is an overflow of an expanse of water that submerges land.The EU Floods directive defines a flood as a temporary covering by water of land not normally covered by water. In the sense of "flowing water", the word may also be applied to the inflow of the tide. Flooding may result from the volume of water within a body of water, such as a river or lake, which overflows or breaks levees, with the result that some of the water escapes its usual boundaries.

While the size of a lake or other body of water will vary with seasonal changes in precipitation and snow melt, it is not a significant flood unless such escapes of water endanger land areas used by man like a village, city or other inhabited area.

Floods can also occur in rivers, when flow exceeds the capacity of the river channel, particularly at bends or meanders. Floods often cause damage to homes and businesses if they are placed in natural flood plains of rivers. While flood damage can be virtually eliminated by moving away from rivers and other bodies of water, since time out of mind, people have lived and worked by the water to seek sustenance and capitalize on the gains of cheap and easy travel and commerce by being near water. That humans continue to inhabit areas threatened by flood damage is evidence that the perceived value of living near the water exceeds the cost of repeated periodic flooding.

Forrás: http://en.wikipedia.org/wiki/Floods

flood catchment

flood control reservoir

flood free bank

flood reservoir

flood risk

flood risk comes from the probabaility of flood and the extent of the damage in environmental, cultural, economical, ecological and and health areas.

EU Directive 2007/60/EC on the assessment and management of flood risks entered into force on 26 November 2007. This Directive now requires Member States to assess if all water courses and coast lines are at risk from flooding, to map the flood extent and assets and humans at risk in these areas and to take adequate and coordinated measures to reduce this flood risk. With this Directive also reinforces the rights of the public to access this information and to have a say in the planning process.

flood-risk work

floodplain

floodwall

floodwall is a construction for flood risk management to prevent cities, or other properties.

Food wall (or floodwall) is a primarily vertical artificial barrier designed to temporarily contain the waters of a river or other waterway which may rise to unusual levels during seasonal or extreme weather events. Flood walls are mainly used on locations where space is scarce, such as cities or where building levees or dikes would interfere with other interests, such as existing buildings, historical architecture or commercial exploitation of embankments.

Flood walls are nowadays mainly constructed from pre-fabricated concrete elements. Flood walls often have "flood gates" which are large openings to provide passage except during periods of flooding, when they are closed. As flood walls mostly consist of relatively short elements compared to dikes, the connections between the elements are critical to the failure of flood walls.

The substantial costs of flood walls can be justified by the value of commercial property thus protected from damage caused by flooding. Flood walls are almost solely used in cities, such as Cologne, Germany, Nijmegen, Deventer and Kampen, the Netherlands and in many cities of the US.

Source: http://en.wikipedia.org/wiki/Flood_wall

flow time

flue

fluoranthene

fluorene

fluorine

fokozottan veszélyes tevékenységért való felelősség (Ptk. 345.-346.§)

Folsomia candida

food chain

food toxicology

food toxicology aims safe and edible supply of food to the consumers. Measures the toxic effect of row material, products, food additives and residual substances in food, such plant protection products or food processing additives.

fracture zones and hot spots

fracture zones and hot spots can be found in the litosphere, the rigid outer layer of Earth, beneath of oceans and continents.

Ain the Earth, the lithosphere includes the crust and the uppermost mantle, which constitute the hard and rigid outer layer of the Earth. The lithosphere is underlain by the asthenosphere, the weaker, hotter, and deeper part of the upper mantle. The boundary between the lithosphere and the underlying asthenosphere is defined by a difference in response to stress: the lithosphere remains rigid for very long periods of geologic time in which it deforms elastically and through brittle failure, while the asthenosphere deforms viscously and accommodates strain through plastic deformation. There are two types of lithosphere: 1) oceanic lithosphere, which is associated with oceanic crust and exists in the ocean basins, 2) continental lithosphere, which is associated with continental crust. The composition of the two types of crust differs markedly, with basaltic rocks ("mafic") dominating oceanic crust, while continental crust consists principally of lower density granitic rocks ("felsic"). The lithosphere is broken into tectonic plates. The following tectonic plates currently exist on the earth's surface with roughly definable boundaries. There are seven primary plates (African Plate, Antarctic Plate, Eurasian Plate, Indo-Australian Plate, North American Plate, Pacific Plate, South American Plate) and some secondary smaller plates (Arabian-, Caribbean-, Cocos-, Scotia-, Adria-, Aegean-, Arab-, Iranian-, Nazca-, Philippine Sea -plates).These plates are rigid segments that move in relation to one another at one of three types of plate boundaries: 1) convergent boundaries, at which two plates come together, (an example of such a boundary is the San Andreas fault in California) 2) divergent boundaries, at which two plates are pulled apart (the Atlantic Ocean was created by this process, the mid-Atlantic Ridge is an area where new sea floor is being created), and 3) transform boundaries, in which two plates slide past one another laterally. Earthquakes, volcanic activity, mountain-building, and oceanic trench formation can occur along these plate boundaries. The tectonic plates ride on top of the asthenosphere, the solid but less-viscous part of the upper mantle that can flow and move along with the plates, and their motion is strongly coupled with patterns convection inside the Earth's mantle. An example of this is the Nazca plate being subducted under the South American plate to form the Andes Mountain Chain.

fracturing rocky soil before treatment

fracturing is a way to crack rock or very dense soil, like clay, below ground. It is not necessarily a cleanup method in itself. Rather, fracturing is used to break up the ground to help other cleanup methods work better. The cracks, which are called fractures, create paths through which harmful chemicals can be removed or destroyed.

Hydraulic fracturing uses a liquid?usually water. The water is pumped under pressure into holes drilled in the ground. The force of the water causes the soil (or sometimes rock) to crack. It also causes existing fractures to grow larger. To fracture soil at greater depths, sand is pumped underground with the water. The sand helps prop the fractures open and keep them from closing under the weight of the soil.

Pneumatic fracturing uses air, to fracture soil. It also can help remove chemicals that evaporate or change to gases quickly when exposed to air. When air is forced into the soil, the chemicals evaporate and the gases are captured and treated above ground.

Air can be forced into the ground at different depths within a hole. When air is forced near the ground surface, the surface around the holes may rise as much as an inch, but will settle back close to its original level. In both pneumatic and hydraulic fracturing, equipment placed underground directs the pressure to the particular zone of soil that needs to be fractured.

Blast-enhanced fracturing uses explosives, such as dynamite, to fracture rock. The explosives are placed in holes and detonated. The main purpose is to create more pathways for polluted groundwater to reach wells drilled for pump and treat cleanup.

Source: US-EPA, Clu-In: http://www.clu-in.org/techfocus/default.focus/sec/Fracturing/cat/Overview/

freezing point

see: melting point

freons

fully halogenated hydrocarbons, their production and use are restricted because of ozone depleting effect. For the definition see CFC’s

fresh-water limit

fresh-water limit means the place in the watercourse where, at low tide and in a period of low fresh-water flow, there is an appreciable increase in salinity due to the presence of sea-water.

frog embrio in teratogeneity testing

fuel oil

a general term applied to oil used for the production of power or heat. In a more restricted sense, it is applied to any petroleum product that is used as boiler fuel or in industrial furnaces. These oils are normally residues, but blends of distillates and residues are also used as fuel oil. Nowadays their use is restricted partly because of their high sulfur content partly because of the more economic natural gas. They are transformed into engine fuel or other products by hydrocracking, coking, etc.

fuel substance

fugacity model

functional unit

fungi

fungi are members of a large group of eukaryotic organisms that includes microorganisms such as yeasts and molds, as well as the more familiar mushrooms. Fungi are classified as a kingdom that is separate from plants, animals and bacteria. One major difference is that fungal cells have cell walls that contain chitin, unlike the cell walls of plants, which contain cellulose. Mycology is the science for studying fungi. We know more than 100 000 fungal species, but the estimated number of unknown fungi is 3-400 000.

Many of the fungal strains are pathogenic, causing plant, animal and human diseases, called mycoses. Some of them produce toxic, mutagenic, carcinogenic or hallucinogenic toxins, which may cause harm on humans.

We utilise microfungi in food industry, in the production of drogs and fine chemicals. Baker's yeast Saccharomyces cerevisiae, a single-celled fungus, is used to make bread and other wheat-based products. Yeast species of the genus Saccharomyces are also used to produce alcoholic beverages through fermentation. Shoyu koji mold (Aspergillus oryzae) is an essential ingredient in brewing soy sauce and sake, and the preparation of miso, while Rhizopus species are used for making tempeh. Several of these fungi are domesticated species that were bred or selected according to their capacity to ferment food without producing harmful mycotoxins.

Certain mushrooms enjoy usage as therapeutics in folk medicines, such as traditional Chinese medicine. Notable medicinal mushrooms with a well-documented history of use include Agaricus blazei, Ganoderma lucidum and Cordyceps sinensis. Research has identified compounds produced by these and other fungi that have inhibitory biological effects against viruses and cancer cells. Specific metabolites, such as polysaccharide-K, ergotamine, and β-lactam antibiotics, are routinely used in clinical medicine. The shiitake mushroom is a source of lentinan, a clinical drug approved for use in cancer treatments in several countries, including Japan. In Europe and Japan, polysaccharide-K (brand name Krestin), a chemical derived from Trametes versicolor, is an approved adjuvant for cancer therapy.

Antibiotics in the pharmaceutical industries are produced by Penicillium, Cephalosporium, Acremonium species.

Source: http://en.wikipedia.org/wiki/Fungus

furnace

future land use