diesel$21207$ - translation to greek
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diesel$21207$ - translation to greek

LOCOMOTIVE POWERED BY A DIESEL ENGINE
Diesel-electric locomotive; Diesel locomotives; Diesel-mechanical; Diesel-hydraulic; Diesel electric locomotive; Diesel-hydraulic locomotive; Diesel (rail); Diesel trains; Diesel train; Diesel Locomotives; Diesel Locomotive; Diesel-electric train; Diesel-mechanical locomotive; Diesel-pneumatic locomotive; Diesel Traction; Diesel-hydraulic transmission; 🛲; Diesel–electric locomotive; Diesel hydraulic locomotive; Diesel–hydraulic locomotive; Diesel–mechanical locomotive; Throttle notch; Diesel–electric train
  • Left corridor of power compartment of Russian locomotive [[2TE116]]U, 3 – alternator, 4 – rectifier, 6 – diesel
  • Cab of the Russian locomotive [[2TE116]]U. "11" indicates the throttle.
  • Typical main generator constant power curve at "notch 8"
  • Petrol–electric [[Weitzer railmotor]], first 1903, series 1906
  • France]], 1933/34
  • Engineer's controls in a diesel–electric locomotive cab. The lever near bottom-centre is the throttle and the lever visible at bottom left is the automatic brake valve control.
  • A [[Canadian National Railway]] train showing the placement of the headlight and ditch lights on the locomotive.
  • jackshaft]] under the cab.
  • A [[GMD GMDH-1]] diesel–hydraulic locomotive
  • DB class V 200]] diesel–hydraulic
  • Schematic diagram of a diesel–electric locomotive
  • Schematic illustration of a diesel mechanical locomotive
  • EMD 12-567B]] 12-cylinder 2-stroke diesel engine (foreground; square "hand holes"), stored pending rebuild, and missing some components, with a 16-567C or D 16-cylinder engine (background; round "hand holes").
  • GE Genesis P32AC-DM]] electro-diesel locomotive can also operate off of [[third-rail]] electrification.
  • Diesel–electric locomotive built by EMD for service in the UK and continental Europe.
  • A Henschel (Germany) diesel–hydraulic locomotive in [[Medan]], [[North Sumatra]]
  • JNR DD51]] 1 diesel-hydraulic
  • [[British Rail Class D16/1]], since 1948
  • Swiss]] and German co-production: world's first functional diesel–electric railcar 1914
  • A Mckeen railcar in Wodonga, Australia, 1911
  • coupled]] together by [[Metra]] use [[diesel–electric transmission]].
  • Class 742 and 743]] locomotive
  • Diagram of Priestman oil engine from ''The Steam engine and gas and oil engines'' (1900) by John Perry
  • Shunter of [[Nederlandse Spoorwegen]] from 1934, in modern livery
  • ALCO]].
  • Soviet Locomotive TP1
  • SŽD Eel2]]
  • box cab]] (rear), [[hood unit]] (center) and [[cab unit]] (front).
  • A [[VR Class Dv12]] diesel–hydraulic locomotive
  • Class 35 "Hymek"]]
  • Russian diesel locomotive [[TEP80]]
  • ČKD ČME3]] is one of the longest-running and most-manufactured diesel–electric locomotives ever made.

diesel      
n. ντίζελ
fuel oil         
  • An [[oil tanker]] taking on fuel, or "[[bunkering]]"
  • HAZMAT class 3 fuel oil
  • Fuel oil truck making a delivery in North Carolina, 1945
  • A fuel station in [[Zigui County]] on the [[Yangtze]] River
HEAVY FRACTION OBTAINED FROM PETROLEUM DISTILLATION THAT IS BURNED TO GENERATE POWER
Residual fuel; Gasoil; Fuel Oil; Diesel fuel oil; Distillate fuel oil; Residual fuel oil; Bunker fuel; Bunker fuels; Bunker C; Bunker c; Bunker fuel oil; Distillate fuel; Distillate oil; Light fuel oil; Bunker B; Bunker b; Navy special; Navy special fuel oil; Bunker A; Bunker a; Heavy gas oil; Light gas oil; Fuel oils; Bunker oil; Diesel fuel marine; Diesel Fuel marine; Diesel Fuel Marine; NATO F76; ISO 8217; Furnace oil; Distillate fuel oils; Heavy residual oil; Furnace Fuel Oil; Heavy fuel oils; Marine fuel oil; Furnace fuel oil; HSFO; LSFO; Marine fuel; Oil fuel; Low sulfur fuel oil; Ship fuel
μαζούτ
crude oil         
  • Petroleum Exports by Country (2014) from [http://atlas.cid.harvard.edu/explore/tree_map/export/show/all/2709/2014/ Harvard Atlas of Economic Complexity].}}
  • General structure of [[Alkene]]
  • Natural [[Bitumen]], commonly referred to as Asphalt
  • Seawater acidification.
  • Nominal and inflation-adjusted US dollar price of crude oil, 1861–2015.
  • reason=Brent shown as sweeter than WTI, yet most sources claim the opposite. That and other claims in image probably need checking and sourcing. Example: http://www.petroleum.co.uk/benchmarks}}
  • Diesel fuel spill on a road.
  • Fractional distillation apparatus.
  • Oil derrick in [[Okemah, Oklahoma]], 1922.
  • Natural bottle of [[Whale oil]]
  • [[Octane]], a [[hydrocarbon]] found in petroleum. Lines represent [[single bond]]s; black spheres represent [[carbon]]; white spheres represent [[hydrogen]].
  • }
  • Oil exports by country (barrels per day, 2006).}}
  • Oil imports by country (barrels per day, 2006).}}
  • countries by oil production]] (information from 2006–2012).}}
  • This wartime propaganda poster promoted [[carpooling]] as a way to ration vital gasoline during [[World War II]].
  • A hydrocarbon trap consists of a reservoir rock (yellow) where oil (red) can accumulate, and a caprock (green) that prevents it from egressing.
  • df = mdy-all}}</ref>
  •  url-status = live }}</ref>
  • Broxburn]], three of a total of 19 in [[West Lothian]], Scotland.
  • World oil production 2011-2022 average barrels per day
NATURALLY OCCURRING FLAMMABLE LIQUID
Crude oil; Crude petroleum; Oil - Enviromental Impact; Black gold (oil); Conventional oil; Black gold (Oil); Petroleum maturation; Petrol oil; Petrolium; World oil consumption; Crude Oil; Petroplitics; Pan-petroliferous; Pampetro; Petrofree; Petro-diesel; Used Oil; Petroleum-based fuel; Conventional vehicle; Petroholic; Petroleum vehicle; Components of crude oil; Patrolium; Petrofuel; All-petroleum vehicle; All-petroleum; Alternatives to petroleum; Petroleum car; Petroleum fuel; Petroleum fuel vehicle; Vehicle fuel; Fossil-oil; Fossil oil; Formation of petroleum; Medium fuel oil; Raw petroleum; Raw oil; Components of crude; Petroleum fuels; Petroleum accumulation; Petroleum generation; Environmental effects of petroleum; Oil window
αδιύλιστο πετρέλαιο, μαζούτ

Definition

derv
(also DERV)
¦ noun Brit. diesel oil for motor vehicles.
Origin
1940s: acronym from diesel-engined road-vehicle.

Wikipedia

Diesel locomotive

A diesel locomotive is a type of railway locomotive in which the prime mover is a diesel engine. Several types of diesel locomotives have been developed, differing mainly in the means by which mechanical power is conveyed to the driving wheels.

Early internal combustion locomotives and railcars used kerosene and gasoline as their fuel. Rudolf Diesel patented his first compression-ignition engine in 1898, and steady improvements to the design of diesel engines reduced their physical size and improved their power-to-weight ratios to a point where one could be mounted in a locomotive. Internal combustion engines only operate efficiently within a limited power band, and while low power gasoline engines could be coupled to mechanical transmissions, the more powerful diesel engines required the development of new forms of transmission. This is because clutches would need to be very large at these power levels and would not fit in a standard 2.5 m (8 ft 2 in)-wide locomotive frame, or wear too quickly to be useful.

The first successful diesel engines used diesel–electric transmissions, and by 1925 a small number of diesel locomotives of 600 hp (450 kW) were in service in the United States. In 1930, Armstrong Whitworth of the United Kingdom delivered two 1,200 hp (890 kW) locomotives using Sulzer-designed engines to Buenos Aires Great Southern Railway of Argentina. In 1933, diesel–electric technology developed by Maybach was used to propel the DRG Class SVT 877, a high-speed intercity two-car set, and went into series production with other streamlined car sets in Germany starting in 1935. In the United States, diesel–electric propulsion was brought to high-speed mainline passenger service in late 1934, largely through the research and development efforts of General Motors dating back to the late 1920s and advances in lightweight car body design by the Budd Company.

The economic recovery from World War II caused the widespread adoption of diesel locomotives in many countries. They offered greater flexibility and performance than steam locomotives, as well as substantially lower operating and maintenance costs.