На основании Вашего запроса эти примеры могут содержать грубую лексику.
На основании Вашего запроса эти примеры могут содержать разговорную лексику.
невозобновляемый
не возобновляемых
невозобновляемой
не возобновляемые
невозобновимые
невозобновимых
невозобновляемое
невозобновляемая
не возобновляемыми
без права продления
невосполнимых
Предложения
For paragraph 10, a non-renewable nine-year term seemed the most reasonable.
Что касается пункта 10, то наиболее разумным представляется невозобновляемый девятилетний срок пребывания в должности.
Healthy soil is a precious non-renewable resource threatened by increasingly destructive human behavior.
«Здоровая почва — это драгоценный невозобновляемый ресурс, но ей угрожает все более разрушительное поведение человека.
Strategic use of non-renewable generation will enable profitability that enables this resilience.
Стратегическое использование невозобновляемой генерации обеспечит рентабельность, которая обеспечивает эту устойчивость.
It is a renewable source of energy unlike non-renewable sources such as fossil fuels.
Солнечная энергия — это возобновляемый источник энергии, в отличие от невозобновляемых источников, таких как ископаемое топливо.
Bioplastic is a polymer with similar characteristics and properties to plastics made from non-renewable fossil fuels.
Биопластик представляет собой полимер, обладающий характеристиками и свойствами, сходными с обычным пластиком, выполненным из невозобновляемых ископаемых видов топлива.
Also considered non-renewable are resources that are consumed much faster than nature…
Также рассмотренный невозобновляемым ресурсы, которые потребляются намного быстрее, чем природа может создать их.
Most of the energy sources are non-renewable.
There are several countries which have identified their own over-reliance on non-renewable natural resource and have begun to diversify their economies through new technological developments.
Есть несколько стран, которые распознали свою собственную чрезмерную зависимость от невозобновляемых природных ресурсов и начали диверсифицировать свою экономику с помощью новых технологических разработок.
This increases the «carbon footprint» of electric vehicles — in fact they consume electricity from conventional stations on non-renewable sources.
Это увеличивает «углеродный след» от электромобилей — фактически они потребляют электричество от обычных станций на невозобновляемых источниках.
Secondly, everyone knows that there is a very fast depletion of non-renewable sources such as petroleum nowadays.
Во-вторых, всем известно, что в настоящее время происходит очень быстрое истощение невозобновляемых источников, таких как нефть.
Some countries use non-renewable sources of water, so the question of finding additional sources every year becomes more relevant.
Некоторые страны используют невозобновляемые источники воды, поэтому вопрос поиска дополнительных источников с каждым годом становится все более актуальным.
Another example of a non-renewable resource is our lifetime.
The model revealed that renewable energy sources speed up economic growth while non-renewable ones have virtually no effect on it.
Моделирование показало, что возобновляемые источники энергии ускоряют экономический рост, в то время как невозобновляемые почти не влияют на него.
Soil, a non-renewable resource, is essential for plant life and 95 percent of the global food supply.
Почва — невозобновляемый ресурс, имеет важное значение для жизни растений и 95% глобального производства продовольствия.
Each innovation secures both our renewable and non-renewable natural resources for the future.
Каждое нововведение обеспечивает как наши возобновляемые, так и невозобновляемые природные ресурсы на будущее.
Petroleum products are diminishing and getting more expensive by the day, since we have used this non-renewable resource increasingly.
Нефтяные продукты уменьшаются и становятся все более дорогие с каждым днем, поскольку мы все чаще используем этот невозобновляемый ресурс.
We want to create maximum comfort for the client and save his most important non-renewable resource — time.
Мы хотим создать максимум удобств для клиента и сэкономить его самый важный невозобновляемый ресурс — время.
They would serve for a non-renewable six-year term.
In general, therefore, substitution involves replacing one non-renewable resource by another.
Поэтому, как правило, использование заменителей связано с заменой одного невозобновляемого ресурса другим.
However, terrestrial deposits of the kinds and grades currently being mined are essentially non-renewable.
Вместе с тем земные месторождения тех видов и пород, которые добываются в настоящее время, являются, по существу, невозобновляемыми.
Предложения, которые содержат non-renewable
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non-renewable
Универсальный англо-русский словарь > non-renewable
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2
non-renewable
Англо-русский экономический словарь > non-renewable
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3
non-renewable
Англо-русский универсальный дополнительный практический переводческий словарь И. Мостицкого > non-renewable
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non-renewable
English-Russian military dictionary > non-renewable
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5
non-renewable
English-Russian dictionary of terms that are used in computer games > non-renewable
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non-renewable energy resource
- невозобновляемый источник энергии
Англо-русский словарь нормативно-технической терминологии > non-renewable energy resource
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7
non-renewable resource
- невозобновляемый ресурс
Англо-русский словарь нормативно-технической терминологии > non-renewable resource
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non-renewable energy
- невозобновляемая энергия
Англо-русский словарь нормативно-технической терминологии > non-renewable energy
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non-renewable energy source
невозобновляемый источник энергии
However, recycling requires the use of fossil fuel, a non-renewable energy source, to collect the waste paper from the community and to process it to produce new paper.
Англо-русский универсальный дополнительный практический переводческий словарь И. Мостицкого > non-renewable energy source
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10
non-renewable energy tax on industry
- налог на промышленность за использование невозобновляемых источников энергии
налог на промышленность за использование невозобновляемых источников энергии
(является одной из мер по стимулированию использования энергии возобновляемых источников)
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
- энергетика в целом
EN
- non-renewable energy tax on industry
Англо-русский словарь нормативно-технической терминологии > non-renewable energy tax on industry
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non-renewable resources
Большой англо-русский и русско-английский словарь > non-renewable resources
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non-renewable resource
невоспроизводимый ресурс ;
Англо-Русский словарь финансовых терминов > non-renewable resource
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non-renewable resources
невоспроизводимые ресурсы ;
Англо-Русский словарь финансовых терминов > non-renewable resources
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non-renewable resource
невоспроизводимый ресурс
Англо-русский словарь экономических терминов > non-renewable resource
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non-renewable resources
невоспроизводимые ресурсы
Англо-русский словарь экономических терминов > non-renewable resources
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non-renewable licence
гос. упр.невозобновляемая лицензия
Ant:
Англо-русский экономический словарь > non-renewable licence
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non-renewable resource
эк. прир.невозобновляемый ресурс
Syn:
Ant:
Англо-русский экономический словарь > non-renewable resource
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non-renewable resources
невозобновляемые ресурсы.
* * *
невозобновляемые ресурсы.
Англо-русский словарь по социологии > non-renewable resources
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non-renewable cuttings
Универсальный англо-русский словарь > non-renewable cuttings
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non-renewable energy resources
Универсальный англо-русский словарь > non-renewable energy resources
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См. также в других словарях:
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non-renewable — ˌnon reˈnewable adjective non renewable types of energy such as coal or oil cannot be replaced once they have been used: • a tax on all forms of non renewable energy • These regulations will only encourage a massive waste of valuable and non… … Financial and business terms
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non-renewable — (adj.) also nonrenewable, 1946, from NON (Cf. non ) + RENEWABLE (Cf. renewable) … Etymology dictionary
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non-renewable — non re newable adj non renewable types of energy such as coal or gas cannot be replaced after they have been used ▪ All countries are being asked to cut down on their use of non renewable resources … Dictionary of contemporary English
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non-renewable — UK / US adjective 1) non renewable types of energy exist in limited amounts, and when these are all used there will be none left Should we continue to consume vast quantities of non renewable fossil fuels? 2) a non renewable contract is one that… … English dictionary
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non-renewable — adjective non renewable types of energy such as coal or gas cannot be replaced after they have been used: a diminishing non renewable resource of coal … Longman dictionary of contemporary English
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non-renewable — adj. Non renewable is used with these nouns: ↑resource … Collocations dictionary
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Non-renewable energy — is energy taken from finite resources that will eventually dwindle, becoming too expensive or too environmentally damaging to retrieve , [ [http://www.nrel.gov/learning/re basics.html Renewable Energy Basics] ] as opposed to renewable energy… … Wikipedia
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non-renewable energy — UK US noun [U] ► ENVIRONMENT, NATURAL RESOURCES types of energy that cannot be replaced after they have been used: »Fossil fuels are nonrenewable energy sources … Financial and business terms
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non-renewable — non renewˈable adjective 1. Not able to be replenished 2. Exhaustible • • • Main Entry: ↑non … Useful english dictionary
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Non-renewable resource — A coal mine in Wyoming. Coal, produced over millions of years, is an inherently finite and non renewable resource on a human time scale. A non renewable resource is a natural resource which cannot be produced, grown, generated, or used on a scale … Wikipedia
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non-renewable resource — /nɒn rənjuəbəl ˈrisɔs/ (say non ruhnyoohuhbuhl reesaws) noun a natural resource which, once it is depleted, cannot be replaced or restored, such as fossil fuels. A non renewable resource is a natural resource that exists in a fixed amount, and is …
From Wikipedia, the free encyclopedia
A coal mine in Wyoming, United States. Coal, produced over millions of years, is a finite and non-renewable resource on a human time scale.
A non-renewable resource (also called a finite resource) is a natural resource that cannot be readily replaced by natural means at a pace quick enough to keep up with consumption.[1] An example is carbon-based fossil fuels. The original organic matter, with the aid of heat and pressure, becomes a fuel such as oil or gas. Earth minerals and metal ores, fossil fuels (coal, petroleum, natural gas) and groundwater in certain aquifers are all considered non-renewable resources, though individual elements are always conserved (except in nuclear reactions, nuclear decay or atmospheric escape).
Conversely, resources such as timber (when harvested sustainably) and wind (used to power energy conversion systems) are considered renewable resources, largely because their localized replenishment can occur within time frames meaningful to humans as well.
Earth minerals and metal ores[edit]
Raw gold ore that is eventually smelted down into gold metal
Further information: Mining
Earth minerals and metal ores are examples of non-renewable resources. The metals themselves are present in vast amounts in Earth’s crust, and their extraction by humans only occurs where they are concentrated by natural geological processes (such as heat, pressure, organic activity, weathering and other processes) enough to become economically viable to extract. These processes generally take from tens of thousands to millions of years, through plate tectonics, tectonic subsidence and crustal recycling.
The localized deposits of metal ores near the surface which can be extracted economically by humans are non-renewable in human time-frames. There are certain rare earth minerals and elements that are more scarce and exhaustible than others. These are in high demand in manufacturing, particularly for the electronics industry.
Fossil fuels[edit]
Natural resources such as coal, petroleum(crude oil) and natural gas take thousands of years to form naturally and cannot be replaced as fast as they are being consumed. Eventually it is considered that fossil-based resources will become too costly to harvest and humanity will need to shift its reliance to other sources of energy such as solar or wind power, see renewable energy.
An alternative hypothesis is that carbon based fuel is virtually inexhaustible in human terms, if one includes all sources of carbon-based energy such as methane hydrates on the sea floor, which are vastly greater than all other carbon based fossil fuel resources combined.[2] These sources of carbon are also considered non-renewable, although their rate of formation/replenishment on the sea floor is not known. However their extraction at economically viable costs and rates has yet to be determined.
At present, the main energy source used by humans is non-renewable fossil fuels. Since the dawn of internal combustion engine technologies in the 19th century, petroleum and other fossil fuels have remained in continual demand. As a result, conventional infrastructure and transport systems, which are fitted to combustion engines, remain prominent throughout the globe.
The modern-day fossil fuel economy is widely criticized for its lack of renewability, as well as being a contributor to climate change.[3]
Nuclear fuels[edit]
Rössing uranium mine is the longest-running and one of the largest open pit uranium mines in the world, in 2005 it produced eight percent of global uranium oxide needs (3,711 tons).[4] The most productive mines however are the underground McArthur River uranium mine in Canada which produces 13% of the world’s uranium, and the similarly underground poly-metallic Olympic Dam mine in Australia, which despite being largely a copper mine, contains the largest known reserve of uranium ore.
Annual release of «technologically enhanced»/concentrated Naturally occurring radioactive material, uranium and thorium radioisotopes naturally found in coal and concentrated in heavy/bottom coal ash and airborne fly ash.[5] As predicted by ORNL to cumulatively amount to 2.9 million tons over the 1937–2040 period, from the combustion of an estimated 637 billion tons of coal worldwide.[6] This 2.9 million tons of actinide fuel, a resource derived from coal ash, would be classified as low grade uranium ore if it occurred naturally.
In 1987, the World Commission on Environment and Development (WCED) classified fission reactors that produce more fissile nuclear fuel than they consume (i.e. breeder reactors) among conventional renewable energy sources, such as solar and falling water.[7] The American Petroleum Institute likewise does not consider conventional nuclear fission as renewable, but rather that breeder reactor nuclear power fuel is considered renewable and sustainable, noting that radioactive waste from used spent fuel rods remains radioactive and so has to be very carefully stored for several hundred years.[8] With the careful monitoring of radioactive waste products also being required upon the use of other renewable energy sources, such as geothermal energy.[9]
The use of nuclear technology relying on fission requires Naturally occurring radioactive material as fuel. Uranium, the most common fission fuel, is present in the ground at relatively low concentrations and mined in 19 countries.[10] This mined uranium is used to fuel energy-generating nuclear reactors with fissionable uranium-235 which generates heat that is ultimately used to power turbines to generate electricity.[11]
As of 2013 only a few kilograms (picture available) of uranium have been extracted from the ocean in pilot programs and it is also believed that the uranium extracted on an industrial scale from the seawater would constantly be replenished from uranium leached from the ocean floor, maintaining the seawater concentration at a stable level.[12] In 2014, with the advances made in the efficiency of seawater uranium extraction, a paper in the journal of Marine Science & Engineering suggests that with, light water reactors as its target, the process would be economically competitive if implemented on a large scale.[13]
Nuclear power provides about 6% of the world’s energy and 13–14% of the world’s electricity.[14] Nuclear energy production is associated with potentially dangerous radioactive contamination as it relies upon unstable elements. In particular, nuclear power facilities produce about 200,000 metric tons of low and intermediate level waste (LILW) and 10,000 metric tons of high level waste (HLW) (including spent fuel designated as waste) each year worldwide.[15]
Issues entirely separate from the question of the sustainability of nuclear fuel, relate to the use of nuclear fuel and the high-level radioactive waste the nuclear industry generates that if not properly contained, is highly hazardous to people and wildlife. The United Nations (UNSCEAR) estimated in 2008 that average annual human radiation exposure includes 0.01 millisievert (mSv) from the legacy of past atmospheric nuclear testing plus the Chernobyl disaster and the nuclear fuel cycle, along with 2.0 mSv from natural radioisotopes and 0.4 mSv from cosmic rays; all exposures vary by location.[16] Natural uranium in some inefficient reactor nuclear fuel cycles becomes part of the nuclear waste «once through» stream, and in a similar manner to the scenario were this uranium remained naturally in the ground, this uranium emits various forms of radiation in a decay chain that has a half-life of about 4.5 billion years,[17] the storage of this unused uranium and the accompanying fission reaction products have raised public concerns about risks of leaks and containment, however the knowledge gained from studying the natural nuclear fission reactor in Oklo Gabon, has informed geologists on the proven processes that kept the waste from this 2 billion year old natural nuclear reactor that operated for hundreds of thousands of years.[18]
Land surface[edit]
Land surface can be considered both renewable and non-renewable resource depending on the scope of comparison. Land can be reused but new land cannot be created on demand so from economic perspective it’s a fixed resource with perfectly inelastic supply.[19][20]
Renewable resources[edit]
The Three Gorges Dam, the largest renewable energy generating station in the world.
Natural resources, known as renewable resources, are replaced by natural processes and forces persistent in the natural environment. There are intermittent and reoccurring renewables, and recyclable materials, which are utilized during a cycle across a certain amount of time, and can be harnessed for any number of cycles.
The production of goods and services by manufacturing products in economic systems creates many types of waste during production and after the consumer has made use of it. The material is then either incinerated, buried in a landfill or recycled for reuse. Recycling turns materials of value that would otherwise become waste into valuable resources again.
Satellite map showing areas flooded by the Three Gorges reservoir. Compare 7 November 2006 (above) with 17 April 1987 (below). The energy station required the flooding of archaeological and cultural sites and displaced some 1.3 million people, and is causing significant ecological changes, including an increased risk of landslides.[21] The dam has been a controversial topic both domestically and abroad.[22]
In the natural environment water, forests, plants and animals are all renewable resources, as long as they are adequately monitored, protected and conserved. Sustainable agriculture is the cultivation of plant and animal materials in a manner that preserves plant and animal ecosystems and that can improve soil health and soil fertility over the long term. The overfishing of the oceans is one example of where an industry practice or method can threaten an ecosystem, endanger species and possibly even determine whether or not a fishery is sustainable for use by humans. An unregulated industry practice or method can lead to a complete resource depletion.[23]
The renewable energy from the sun, wind, wave, biomass and geothermal energies are based on renewable resources. Renewable resources such as the movement of water (hydropower, tidal power and wave power), wind and radiant energy from geothermal heat (used for geothermal power) and solar energy (used for solar power) are practically infinite and cannot be depleted, unlike their non-renewable counterparts, which are likely to run out if not used sparingly.
The potential wave energy on coastlines can provide 1/5 of world demand. Hydroelectric power can supply 1/3 of our total energy global needs. Geothermal energy can provide 1.5 more times the energy we need. There is enough wind to power the planet 30 times over, wind power could power all of humanity’s needs alone. Solar currently supplies only 0.1% of our world energy needs, but there is enough out there to power humanity’s needs 4,000 times over, the entire global projected energy demand by 2050.[24][25]
Renewable energy and energy efficiency are no longer niche sectors that are promoted only by governments and environmentalists. The increasing levels of investment and that more of the capital is from conventional financial actors, both suggest that sustainable energy has become mainstream and the future of energy production, as non-renewable resources decline. This is reinforced by climate change concerns, nuclear dangers and accumulating radioactive waste, high oil prices, peak oil and increasing government support for renewable energy. These factors are commercializing renewable energy, enlarging the market and growing demand, the adoption of new products to replace obsolete technology and the conversion of existing infrastructure to a renewable standard.[26]
Economic models[edit]
In economics, a non-renewable resource is defined as goods, where greater consumption today implies less consumption tomorrow.[27] David Ricardo in his early works analysed the pricing of exhaustible resources, where he argued that the price of a mineral resource should increase over time. He argued that the spot price is always determined by the mine with the highest cost of extraction, and mine owners with lower extraction costs benefit from a differential rent. The first model is defined by Hotelling’s rule, which is a 1931 economic model of non-renewable resource management by Harold Hotelling. It shows that efficient exploitation of a nonrenewable and nonaugmentable resource would, under otherwise stable conditions, lead to a depletion of the resource. The rule states that this would lead to a net price or «Hotelling rent» for it that rose annually at a rate equal to the rate of interest, reflecting the increasing scarcity of the resources.[28] The Hartwick’s rule provides an important result about the sustainability of welfare in an economy that uses non-renewable source.[29]
See also[edit]
- Clean technology
- Energy conservation
- Eurosolar
- Fossil fuel
- Fossil water
- Green design
- Hartwick’s rule
- Hermann Scheer
- Hotelling’s rule
- Hubbert’s peak
- Liebig’s law of the minimum
- Natural resource management
- Overfishing
- Peak oil
- Reserves-to-production ratio
- Sustainability
References[edit]
- ^ Earth systems and environmental sciences. [Place of publication not identified]: Elsevier. 2013. ISBN 978-0-12-409548-9. OCLC 846463785.
- ^ «Methane hydrates». Worldoceanreview.com. Retrieved 17 January 2017.
- ^ America’s Climate Choices: Panel on Advancing the Science of Climate Change; National Research Council (2010). Advancing the Science of Climate Change. Washington, D.C.: The National Academies Press. doi:10.17226/12782. ISBN 978-0-309-14588-6.
- ^ Rössing (from infomine.com, status Friday 30 September 2005)
- ^ U.S. Geological Survey (October 1997). «Radioactive Elements in Coal and Fly Ash: Abundance, Forms, and Environmental Significance» (PDF). U.S. Geological Survey Fact Sheet FS-163-97.
- ^ «Coal Combustion – ORNL Review Vol. 26, No. 3&4, 1993». Archived from the original on 5 February 2007.
- ^ Brundtland, Gro Harlem (20 March 1987). «Chapter 7: Energy: Choices for Environment and Development». Our Common Future: Report of the World Commission on Environment and Development. Oslo. Retrieved 27 March 2013.
Today’s primary sources of energy are mainly non-renewable: natural gas, oil, coal, peat, and conventional nuclear power. There are also renewable sources, including wood, plants, dung, falling water, geothermal sources, solar, tidal, wind, and wave energy, as well as human and animal muscle-power. Nuclear reactors that produce their own fuel («breeders») and eventually fusion reactors are also in this category
- ^ American Petroleum Institute. «Key Characteristics of Nonrenewable Resources». Retrieved 21 February 2010.
- ^ http://www.epa.gov/radiation/tenorm/geothermal.html Geothermal Energy Production Waste.
- ^ «World Uranium Mining». World Nuclear Association. Retrieved 28 February 2011.
- ^ «What is uranium? How does it work?». World Nuclear Association. Retrieved 28 February 2011.
- ^ «The current state of promising research into extraction of uranium from seawater – Utilization of Japan’s plentiful seas: Global Energy Policy Research». gepr.org.
- ^ Gill, Gary; Long, Wen; Khangaonkar, Tarang; Wang, Taiping (22 March 2014). «Development of a Kelp-Type Structure Module in a Coastal Ocean Model to Assess the Hydrodynamic Impact of Seawater Uranium Extraction Technology». Journal of Marine Science and Engineering. 2 (1): 81–92. doi:10.3390/jmse2010081.
- ^ World Nuclear Association. Another drop in nuclear generation Archived 7 January 2014 at the Wayback Machine World Nuclear News, 5 May 2010.
- ^ «Factsheets & FAQs». International Atomic Energy Agency (IAEA). Archived from the original on 25 January 2012. Retrieved 1 February 2012.
- ^ United Nations Scientific Committee on the Effects of Atomic Radiation. Sources and Effects of Ionizing Radiation, UNSCEAR 2008
- ^ Mcclain, D.E.; A.C. Miller; J.F. Kalinich (20 December 2007). «Status of Health Concerns about Military Use of Depleted Uranium and Surrogate Metals in Armor-Penetrating Munitions» (PDF). NATO. Archived from the original (PDF) on 7 February 2012. Retrieved 1 February 2012.
- ^ AJ González (2000). «The Safety of Radioactive Waste Management» (PDF). IAEA.
- ^ J.Singh (17 April 2014). «Land: Meaning, Significance, Land as Renewable and Non-Renewal Resource». Economics Discussion. Retrieved 21 June 2020.
- ^ Lambin, Eric F. (1 December 2012). «Global land availability: Malthus versus Ricardo». Global Food Security. 1 (2): 83–87. doi:10.1016/j.gfs.2012.11.002. ISSN 2211-9124.
- ^ «重庆云阳长江右岸现360万方滑坡险情-地方-人民网». People’s Daily. Retrieved 1 August 2009. See also: «探访三峡库区云阳故陵滑坡险情». News.xinhuanet.com. Retrieved 1 August 2009.
- ^ Lin Yang (12 October 2007). «China’s Three Gorges Dam Under Fire». Time. Retrieved 28 March 2009.
The giant Three Gorges Dam across China’s Yangtze River has been mired in controversy ever since it was first proposed
See also: Laris, Michael (17 August 1998). «Untamed Waterways Kill Thousands Yearly». The Washington Post. Retrieved 28 March 2009.Officials now use the deadly history of the Yangtze, China’s longest river, to justify the country’s riskiest and most controversial infrastructure project – the enormous Three Gorges Dam.
and Grant, Stan (18 June 2005). «Global Challenges: Ecological and Technological Advances Around the World». CNN. Retrieved 28 March 2009.China’s engineering marvel is unleashing a torrent of criticism. […] When it comes to global challenges, few are greater or more controversial than the construction of the massive Three Gorges Dam in Central China.
and Gerin, Roseanne (11 December 2008). «Rolling on a River». Beijing Review. Archived from the original on 22 September 2009. Retrieved 28 March 2009...the 180-billion yuan ($26.3 billion) Three Gorges Dam project has been highly contentious.
- ^ «Illegal, Unreported and Unregulated Fishing in Small-Scale Marine and Inland Capture Fisharies». Food and Agriculture Organization. Retrieved 4 February 2012.
- ^ R. Eisenberg and D. Nocera, «Preface: Overview of the Forum on Solar and Renewable Energy,» Inorg. Chem. 44, 6799 (2007).
- ^ P. V. Kamat, «Meeting the Clean Energy Demand: Nanostructure Architectures for Solar Energy Conversion,» J. Phys. Chem. C 111, 2834 (2007).
- ^ «Global Trends in Sustainable Energy Investment 2007: Analysis of Trends and Issues in the Financing of Renewable Energy and Energy Efficiency in OECD and Developing Countries (PDF), p. 3» (PDF). United Nations Environment Programme. Retrieved 4 March 2014.
- ^ Cremer and Salehi-Isfahani 1991:18
- ^ Hotelling, H. (1931). «The Economics of Exhaustible Resources». J. Political Econ. 39 (2): 137–175. doi:10.1086/254195. JSTOR 1822328. S2CID 44026808.
- ^ Hartwick, John M. (December 1977). «Intergenerational Equity and the Investing of Rents from Exhaustible Resources». The American Economic Review. 67 (5): 972–974. JSTOR 1828079.
Предложения с «non renewable»
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Wood can also be a substitute for non-renewable construction materials such as plastics, steel or concrete. |
Древесина также может являться заменителем невозобновляемых строительных материалов, таких как пластики, сталь или бетон. |
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It had diversified its crops dramatically while taking care not to deplete non-renewable aquifers. |
Страна значительно диверсифицировала свои сельскохозяйственные культуры, стремясь при этом не истощать невосполняемые водоносные пласты. |
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Modern agriculture also relies on imported feed and non-renewable fossil fuel and finite phosphorus resources. |
Современное сельское хозяйство также опирается на импортированное кормовое, невозобновляемое ископаемое органическое топливо и ограниченные запасы фосфора. |
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Under the proposals, members would also serve single non-renewable terms of 15 years. |
В соответствии с этими предложениями члены будут также отбывать однократные невозобновляемые сроки в 15 лет. |
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Three main issues with the environmental impact of printing inks is the use of volatile organic compounds, heavy metals and non-renewable oils. |
Три основные проблемы, связанные с воздействием печатных красок на окружающую среду, — это использование летучих органических соединений, тяжелых металлов и невозобновляемых масел. |
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Natural capital is subject to both renewable and non-renewable depletion, degradation, cultivation, recycling and reuse. |
Природный капитал подвержен как возобновляемому, так и невозобновляемому истощению, деградации, культивированию, переработке и повторному использованию. |
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As petroleum is a non-renewable natural resource the industry is faced with an inevitable eventual depletion of the world’s oil supply. |
Поскольку нефть является невозобновляемым природным ресурсом, промышленность сталкивается с неизбежным истощением мировых запасов нефти. |
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Extracting from groundwater sources that are non-renewable could lead to exhaustion if not properly monitored and managed. |
Добыча из невозобновляемых источников подземных вод может привести к истощению запасов, если не будет обеспечен надлежащий контроль и управление. |
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Consuming non-renewable groundwater resulted in the loss of an estimated four fifths of the total groundwater reserves by 2012. |
Потребление невозобновляемых подземных вод привело к потере примерно четырех пятых всех запасов подземных вод к 2012 году. |
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Mining in a wider sense includes extraction of any non-renewable resource such as petroleum, natural gas, or even water. |
Добыча полезных ископаемых в более широком смысле включает добычу любых невозобновляемых ресурсов, таких как нефть, природный газ или даже вода. |
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Until the 1980s, Saudi Arabia had lakes at Layla Aflaj and deep waterholes at ‘Al-Kharj, fed by huge underground aquifers formed in prehistoric times and non-renewable. |
До 1980 — х годов в Саудовской Аравии были озера в Лейла — Афладж и глубокие водоемы в Эль — Хардж, питаемые огромными подземными водоносными горизонтами, образованными в доисторические времена и невозобновляемыми. |
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In resource economics, Hartwick’s rule defines the amount of investment in human capital that is needed to offset declining stocks of non-renewable resources. |
В ресурсной экономике правило Хартвика определяет объем инвестиций в человеческий капитал, необходимый для компенсации сокращающихся запасов невозобновляемых ресурсов. |
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Natural gas is a non-renewable hydrocarbon used as a source of energy for heating, cooking, and electricity generation. |
Природный газ является невозобновляемым углеводородом, используемым в качестве источника энергии для отопления, приготовления пищи и производства электроэнергии. |
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The environmental impact of WPCs is directly affected by the ratio of renewable to non-renewable materials. |
На экологическое воздействие WPC непосредственно влияет соотношение возобновляемых и невозобновляемых материалов. |
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If not, it would become a non-renewable resource at that location. |
Если нет, то он станет невозобновляемым ресурсом в этом месте. |
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Earth minerals and metal ores are examples of non-renewable resources. |
Земные минералы и металлические руды являются примерами невозобновляемых ресурсов. |
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The localized deposits of metal ores near the surface which can be extracted economically by humans are non-renewable in human time-frames. |
Локализованные залежи металлических руд вблизи поверхности, которые могут быть экономически добыты человеком, не подлежат возобновлению в человеческих временных рамках. |
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These sources of carbon are also considered non-renewable, although their rate of formation/replenishment on the sea floor is not known. |
Эти источники углерода также считаются невозобновляемыми, хотя их скорость образования/пополнения на морском дне неизвестна. |
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At present, the main energy source used by humans is non-renewable fossil fuels. |
В настоящее время основным источником энергии, используемым человеком, является невозобновляемое ископаемое топливо. |
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In economics, a non-renewable resource is defined as goods, where greater consumption today implies less consumption tomorrow. |
В экономике невозобновляемый ресурс определяется как товар, где большее потребление сегодня означает меньшее потребление завтра. |
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The first model is defined by Hotelling’s rule, which is a 1931 economic model of non-renewable resource management by Harold Hotelling. |
Первая модель определяется правилом Хотеллинга, которое представляет собой экономическую модель управления невозобновляемыми ресурсами 1931 года Гарольда Хотеллинга. |
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The fair and even allocation of non-renewable resources over time is a market failure issue of concern to ecological economics. |
Справедливое и равномерное распределение невозобновляемых ресурсов с течением времени является проблемой провала рынка, вызывающей озабоченность экологической экономики. |
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These include renewable fibre and timber resources, and non-wood goods and services. |
Это многократно используемое древесное волокно и древесина, а также недревесные товары и услуги. |
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This hydroelectricity is a low-cost, non-polluting, renewable energy source. |
Эта гидроэлектростанция является недорогим, экологически чистым, возобновляемым источником энергии. |
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Critics of Zero Waste point out that a material could be reusable, organic, non-toxic, and renewable but still be ethically inferior to single use products. |
Критики нулевых отходов указывают, что материал может быть многоразовым, органическим, нетоксичным и возобновляемым, но все же этически уступать продуктам одноразового использования. |
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Plants provide the main sources for renewable resources, the main distinction is between energy crops and non-food crops. |
Растения обеспечивают основные источники возобновляемых ресурсов, основное различие заключается между энергетическими культурами и непродовольственными культурами. |
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Bioasphalt is an asphalt alternative made from non-petroleum based renewable resources. |
Биоасфальт — это альтернатива асфальту, изготовленная из возобновляемых ресурсов, не связанных с нефтью. |
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Renewable resources are endangered by non-regulated industrial developments and growth. |
Возобновляемые ресурсы находятся под угрозой из — за нерегулируемого промышленного развития и роста. |
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Убрать слово из словаря
амер. |nanrɪˈnuːəbəl|
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Russian English 
невозобновляемый, невозобновляющийся
прилагательное
- невозобновляющийся; невозобновляемый
Мои примеры
Словосочетания
nonrenewable fuse — невосстанавливаемый предохранитель; одноразовый предохранитель 
nonrenewable energy — невозобновляемая энергия; невосполнимая энергия
nonrenewable natural resources — невосполнимые природные ресурсы
nonrenewable resources — невозобновляемые ресурсы; невозобновимые ресурсы; невосполнимые ресурсы
