-
1 groundwater mining
-
2 groundwater mining
Англо-русский гидрогеологический словарь > groundwater mining
-
3 groundwater mining
Англо-русский словарь промышленной и научной лексики > groundwater mining
-
4 mining
горное дело; разработка месторождений полезных ископаемых; горный, горнорудный -
5 забор подземных вод из малодебитных горизонтов
Makarov: groundwater miningУниверсальный русско-английский словарь > забор подземных вод из малодебитных горизонтов
-
6 откачка статических запасов подземных вод
General subject: groundwater miningУниверсальный русско-английский словарь > откачка статических запасов подземных вод
-
7 эксплуатация статических запасов подземных вод
Makarov: groundwater miningУниверсальный русско-английский словарь > эксплуатация статических запасов подземных вод
-
8 гидрогеология
* * *гидрогеоло́гия ж.
hydrogeologyго́рная гидрогеоло́гия — mining hydrogeologyинжене́рная гидрогеоло́гия — engineering hydrogeology -
9 yeraltı
",-nı 1. area beneath the surface of the ground, underground. 2. subterranean, underground; subsurface. 3. clandestine, underground: yeraltı direniş hareketi underground resistance movement. - geçidi 1. underground passageway, subway (especially one for pedestrians). 2. mining gallery. - madenciliği underground mining. - suyu groundwater, subterranean water, subsurface water, underground water. - suyu düzeyi water table, water level, groundwater level." -
10 выход грунтовых вод
1) Geology: phreatic discharge, phreatic rise (на поверхность)2) Engineering: boil (на дне котлована)3) Mining: phreatic discharge (на поверхность)4) Ecology: groundwater discharge (в водоёмы)5) Hydrogeology: groundwater egress (на поверхность)6) Makarov: ground-water discharge7) General subject: groundwater seepУниверсальный русско-английский словарь > выход грунтовых вод
-
11 воздействие производства энергии на окружающую среду
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > воздействие производства энергии на окружающую среду
-
12 impact de l'énergie sur l'environnement
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > impact de l'énergie sur l'environnement
-
13 energiebedingte Umweltbelastung
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > energiebedingte Umweltbelastung
-
14 воздействие производства энергии на окружающую среду
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > воздействие производства энергии на окружающую среду
-
15 воздействие производства энергии на окружающую среду
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > воздействие производства энергии на окружающую среду
-
16 environmental impact of energy
воздействие производства энергии на окружающую среду
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
environmental impact of energy
Energy and environmental problems are closely related, since it is nearly impossible to produce, transport, or consume energy without significant environmental impact. The environmental problems directly related to energy production and consumption include air pollution, water pollution, thermal pollution, and solid waste disposal. The emission of air pollutants from fossil fuel combustion is the major cause of urban air pollution. Diverse water pollution problems are associated with energy usage. One major problem is oil spills. In all petroleum-handling operations, there is a finite probability of spilling oil either on the earth or in a body of water. Coal mining can also pollute water. Changes in groundwater flow produced by mining operations often bring otherwise unpolluted waters into contact with certain mineral materials which are leached from the soil and produce an acid mine drainage. Solid waste is also a by-product of some forms of energy usage. Coal mining requires the removal of large quantities of earth as well as coal. In general, environmental problems increase with energy use and this combined with the limited energy resource base is the crux of the energy crisis. An energy impact assessment should compare these costs with the benefits to be derived from energy use. (Source: RAU)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > environmental impact of energy
-
17 level
1. уровень, горизонт 2. нивелир || нивелировать 3. плоская горизонтальная поверхность
level of groundwater уровень грунтовых или подземных вод
level of no strain горизонт, лишённый деформации
level of water table уровень водного зеркала
level of zero amplitude нулевой уровень
Abney level уровень Эбни (ручной уровень с клинометром)
absolute base level абсолютный базис эрозии
accordant summit level равновершинный уровень
basal level базальный горизонт
base level 1. базис эрозии 2. теоретический предел эрозии 3. поверхность, которую стремятся достичь внешние геологические агенты
base level of deposition базис аккумуляции
base level of erosion базис эрозии
base level of stream базис эрозии реки или потока
batter level клинометр
binocular hand level бинокулярный ручной нивелир с уровнем
box level спиртовой уровень
bull's eye level круглый уровень
chambered level камерный уровень
circular level круглый уровень
compensation level уровень компенсации
concordant summit level равновершинный уровень
cross level поперечный уровень
Daly level уровень Дейли
datum level опорный уровень
datum water level уровень воды, принятый за нуль
day level штольня
dead level полный уровень; совершенно ровная поверхность, абсолютная равнина
declining water level сработка уровней подземных вод
deep level глубокий горизонт
drainage level дренажный уровень
dumpy level глухой нивелир (нивелир с закреплённой зрительной грубой)
Egault level нивелир Эго
epeirocratic sea level эпейрократический уровень моря
flood level уровень паводка
fold system level уровень системы складок
free level штольня
freezing level высота нулевой изотермии, уровень замерзания
gallery level горизонт выработки
geodetic sea level средний уровень моря
grade level уровень равновесия
ground level уровень поверхности земли
groundwater level уровень грунтовых или подземных вод
half-tide level средний приливно-отливный уровень
hand level 1. вспомогательный штрек, вспомогательная горизонтальная выработка 2. ручной уровень
higher level верхний уровень, верхний горизонт
high-water level уровень [горизонт] высоких вод
hydrostatic level гидростатический уровень
initial level исходный уровень, нулевая горизонталь
interglacial high sea level высокий уровень моря в межледниковье
intermediate level промежуточный уровень, промежуточный горизонт
isopiestic level изопиестический уровень
isopotential level изопотенциальный уровень
karst base level базис карста
local base level временный базис эрозии
Locke hand level ручной нивелир [уровень] Локке
lower level нижний уровень, нижний горизонт
lowest level of landslide базис оползня
mean land level средний уровень [средняя высота] континентов
mean level of earth's surface средний уровень земной поверхности
mean sea level средний уровень поверхности моря
mean sphere level средний уровень земной поверхности
mean tide level средний приливно-отливный уровень
miner's level нивелир
mining level эксплуатируемый горизонт, этаж
natural level нормальный уровень
normal water level нормальный уровень воды
ordinary tide level средний приливно-отливный уровень
overflow level уровень наводнения
plateau level уровень плато
prism level призматический нивелир
production level продуктивный [эксплуатируемый] горизонт
recurrence level повторяющийся горизонт
reference level отсчётный [нулевой, исходный] уровень
rise level верхний уровень, верхний горизонт
river base level базис эрозии реки
sea level уровень моря
service level рабочий горизонт
set level направление уровня, направление горизонта
sphere level уровень земной коры
spirit level спиртовой уровень
standing (water) level стоячий уровень воды
static level статический уровень
stationary sea level неизменный [постоянный] уровень моря
striding level 1. спиртовой уровень, расположенный выше горизонтальной оси съёмочного инструмента 2. съёмный спиртовой уровень для определения горизонтальной линии визирования
summit level 1. наибольшая высотная отметка 2. уровень вершинной поверхности
surface level уровень поверхности, поверхностный уровень
surveyor's level 1. нивелир 2. горизонт рудника, на котором производится съёмка или изучение рудного тела
temporary base level временный базис эрозии
thalassocratic sea level талассократический уровень моря (максимальный относительный уровень моря)
trapping level уровень захвата
ultimate base level предельный базис эрозии
upper level верхний уровень, верхний горизонт
water level 1. ватерпас 2. уровень воды 3. уровень грунтовых вод, водное зеркало
wye [у] level нивелир с перекладной трубой
zero water level нулевой уровень воды, ординар
* * *• горизонт• дорожка• откос• склон• срез• эшелон -
18 понижение уровня грунтовых вод
1) Engineering: decline of water table, ground-water lowering, ground-water recession, lowering of ground-water level, lowering of water table, water table depression, water-table depression2) Construction: groundwater lowering, groundwater recession, lowering of ground water level, lowering of the water table, drawdown3) Railway term: lowering of water tables4) Mining: ground water level lowering, ground water lowering5) Ecology: phreatic decline, water-table decline6) Makarov: lowering of ground-water surface7) General subject: receding water tableУниверсальный русско-английский словарь > понижение уровня грунтовых вод
-
19 level
1) уровень || устанавливать (регулировать) уровень3) энергетический уровень, уровень энергии4) степень5) градация10) нивелир || нивелировать11) уровень, ватерпас || устанавливать по уровню13) значение ( расчётного параметра)15) планировать, производить планировку ( грунта); разравнивать16) выравнивать(ся) ( о цвете)17) ровно ложиться ( о краске); растекаться с образованием ровной поверхности ( о краске или лаке)19) связь, радио громкость21) горизонтальный полёт || лететь горизонтально•to level off — 1. достигать равновесия; стабилизировать(ся) 2. выпрямлять ( кривую) 3. выравнивать ( положение воздушного судна) 4. приближаться к предельному значению 5. планировать; разравнивать 6. устанавливаться на постоянном уровне;to remain level — выдерживать горизонтальное положение;to reverse a level end-for-end — менять местами концы уровня;-
actuation level
-
addressing level
-
adit level
-
aerodrome level
-
air level
-
alert level
-
allowable level
-
ambient light level
-
ambient noise level
-
amplitude levels
-
amplitude-modulation noise level
-
approach noise level
-
ash level
-
atomic energy level
-
atomic level
-
audio-signal output level
-
average picture level
-
average sidelobe level
-
background level
-
background noise level
-
backlobe level
-
backup water level
-
band level
-
band-gap level
-
base level
-
basic impulse level
-
behavioral level
-
benchmark level
-
bin-filling level
-
binocular level
-
black level
-
blacker-than-black level
-
black-out level
-
bound level
-
breath sample level
-
bubble level
-
builder's level
-
bulk trap level
-
burden level
-
calibration level
-
carpenter's level
-
carrier level
-
carrier noise level
-
certificated noise level
-
charge level
-
charge-storage level
-
chroma level
-
circuit noise level
-
cleanliness level
-
cloud level
-
commanded speed level
-
concentration level
-
condemnation level
-
condensation level
-
confidence level
-
constraint level
-
contamination level
-
control program level
-
conversion level
-
corona level
-
cracking level
-
crosscut level
-
cross-product level
-
cruising level
-
crusher level
-
curb level
-
cutoff level
-
dam crest level
-
datum level
-
decision level
-
deep-lying level
-
deep level
-
defect level
-
derating level
-
device level
-
direct current level
-
direct sound level
-
donor level
-
doping level
-
downstream water level
-
drainage level
-
drawdown level
-
drive level
-
dumpy level
-
dust level
-
Egault level
-
electrical level of vacancy
-
electromagnetic interference level
-
energy level
-
engineer's level
-
equilibrium-xenon level
-
excitation level
-
exploration level
-
failure rate level
-
failure level
-
Fermi characteristic energy level
-
Fermi level
-
first-order level
-
flight level
-
float level
-
flood-control storage level
-
fluid level
-
foreplate level
-
formation level
-
foundation level
-
free energy level
-
freezing level
-
fuel irradiation level
-
geodetic level
-
geostrophic wind level
-
glass level
-
grade level
-
gray level
-
ground level
-
ground vibrational level
-
groundwater level
-
gyro level
-
half-tide level
-
hand level
-
haulage level
-
headwater level
-
heat-treated strength level
-
high injection level
-
highest water level
-
high-water level
-
hum level
-
illumination level
-
impounded water level
-
impulse insulation level
-
impurity level
-
injection level
-
input level
-
insulation level
-
integration level
-
intensity level
-
interference level
-
internal surge level
-
interrupt level
-
intrinsic level
-
invert level
-
inverted level
-
light level
-
line level
-
loadout level
-
local level
-
logical level
-
loudness level
-
lower level
-
low-pressure level
-
low-water level
-
luminance level
-
main level
-
manning level
-
mantle level
-
masking level
-
mason's level
-
mass activity cleanliness level
-
maximum controllable level
-
maximum flood level
-
maximum operating level
-
maximum rated sound-power level
-
maximum recording level
-
maximum water level
-
mean annoyance level
-
measurement level
-
mechanic's level
-
meniscus level
-
metal level
-
metastable level
-
mezzanine level
-
minimum drawdown level
-
mining level
-
multiplet level
-
nesting level
-
neutron level
-
no activity cleanliness level
-
noise equivalent level
-
noise level
-
normal level
-
normal maximum operating level
-
normal pool level
-
normaltopwater level
-
normalwater level
-
nose swab level
-
occupational level
-
occupied level
-
octane level
-
oil level
-
operating level
-
operational cleanliness level
-
output level
-
overload level
-
particulate level
-
peak level
-
peak recording level
-
peak signal level
-
peak white level
-
pedestal level
-
pendulum level
-
perceived noise level
-
permissible level
-
phonon level
-
plumb level
-
pollution level
-
power level
-
power monitoring level
-
power spectrum level
-
PPM level
-
precise level
-
predetermined level
-
pressure level
-
priority level
-
production level
-
protective level
-
pumping level
-
quantization level
-
quieting level
-
radiation level
-
reactor power level
-
received signal level
-
recording level
-
redundancy level
-
reference fare level
-
reference level
-
reliability level
-
resonance level
-
response level
-
reverberant sound level
-
river-bed level
-
safe-health level
-
saturation level
-
sea level
-
self-leveling level
-
sensation level
-
sidelobe level
-
siege level
-
significance level
-
slack level
-
slag level
-
snorkel level
-
solar flux level
-
sound pressure level
-
sound level
-
speech level
-
spirit level
-
stage level
-
staggered flight levels
-
standard isobaric level
-
static level
-
steady-state noise level
-
stress intensity level
-
striding level
-
summer oil level
-
surface level
-
susceptibility level
-
switching surge level
-
switching-surge protective level
-
sync level
-
tailwater level
-
target level of safety
-
testing level
-
thermal noise level
-
threshold level
-
tilting level
-
toxicity level
-
transition level
-
transmission level
-
trigger level
-
upper level
-
upstream level
-
user level
-
vacuum level
-
variable quantizing level
-
ventilation level
-
vibration level
-
voltage level
-
volume units level
-
water level
-
white level
-
winter oil level
-
working level
-
wye level
-
Y-level
-
zero level
-
zero transmission level -
20 geology
геология
geology of the Paleolithic геология палеолита
agricultural geology агрогеология, сельскохозяйственная геология
applied geology прикладная геология
areal geology региональная геология, геология опре делённого района
armchair geology кабинетная геология
bedrock geology геология коренных пород
coastal geology геология побережий
dynamic geology динамическая [физическая] геология
economic geology экономическая геология
engineering geology инженерная геология
environmental geology геология окружающей среды
epeirogenic geology эпейрогеническая геология
experimental structural geology экспериментальная структурная геология
exploration geology поисковая геология
extraterrestrial geology внеземная геология
geomorphic geology геоморфология
geotectonic geology геотектоника
glacial geology ледниковая геология
groundwater geology гидрогеология (наука о подземных водах)
hard-rock geology геология твёрдых пород
highway geology отрасль инженерной геологии, занимающаяся проектированием и строительством шоссейных дорог, также уходом за ними
historical geology историческая геология
igneous geology геология изверженных пород
krystic geology гляциология
lunar geology лунная геология
marine geology морская геология
military geology военная геология
mining geology рудничная геология, геология рудных месторождений
oil geology геология нефти
oil-field geology нефтепромысловая геология
ore geology рудничная геология, геология рудных месторождений
orogenic geology орогеническая геология
petroleum geology нефтяная геология, геология нефти
physical geology физическая геология
physicochemical geology физико-химическая геология
physiographic geology физико-географическая геология
planetary geology планетарная геология, геология планет
practical geology прикладная геология
quaternary geology геология четвертичных отложений, четвертичная геология
reconnaissance geology рекогносцировочная геология
regional geology региональная геология
scenographical geology геология природных ландшафтов
soft-rock geology геология рыхлых отложений
space geology космическая геология; астрогеология
stratigraphic geology стратиграфическая геология
structural geology структурная геология
submarine geology геологическая океанография
submask geology геология погребённых структур
subsurface geology подземная геология; рудничная геология
surface geology геология поверхности
surficial geology геология поверхностных отложений и пород
tectonic geology геотектоника; тектоника
* * *
- 1
- 2
См. также в других словарях:
Groundwater — Shipot, a common source of drinking water in a Ukrainian village. Groundwater is water located beneath the ground surface in soil pore spaces and in the fractures of rock formations. A unit of rock or an unconsolidated deposit is called an… … Wikipedia
Mining rock mass rating — Laubscher developed the Mining Rock Mass Rating (MRMR)[1][2][3][4][5] system by modifying the Rock Mass Rating (RMR) system of Bieniawsk … Wikipedia
Mining — This article is about the extraction of geological materials from the Earth. For the municipality in Austria, see Mining, Austria. For the siege tactic, see Mining (military). For name of the Chinese emperor, see Daoguang Emperor. Simplified… … Wikipedia
mining — /muy ning/, n. 1. the act, process, or industry of extracting ores, coal, etc., from mines. 2. the laying of explosive mines. [1250 1300; ME: undermining (walls in an attack); see MINE2, ING1] * * * I Excavation of materials from the Earth s… … Universalium
Water mining — In hydrology, water mining is the extraction of water from non replenishing groundwater or glacial reserves.By necessity, any community engaging in water mining has some a deadline at which point it will have exhausted any water reserves and,… … Wikipedia
Uranium mining — The Ranger Uranium Mine in Australia … Wikipedia
Copper mining in the United States — US primary copper production 1900 2008. Source: USGS … Wikipedia
Uranium mining in Colorado — Uranium mining in Colorado, United States, goes back to 1872, when pitchblende ore was taken from gold mines near Central City, Colorado. The Colorado uranium industry has seen booms and busts, but continues to this day. Not counting byproduct… … Wikipedia
Uranium mining in Wyoming — Uranium mining in Wyoming, a state of the United States was formerly a much larger industry than it is today. Wyoming once had many operating uranium mines, and still has the largest known uranium ore reserves of any state in the U.S. The Wyoming … Wikipedia
Open-pit mining — El Chino, located near Silver City, New Mexico, is an open pit copper mine … Wikipedia
Columbia Water Center — The Columbia Water Center Type Non profit Founded 2008 Headquarters New York, New York Key people Upmanu Lall … Wikipedia