4 VD 14,5/12-1 SRW

4 VD 14,5/12-1 SRW
4 VD 14,5/12-1 SRW
Overview
Manufacturer	VEB IFA Motorenwerke Nordhausen
Production	1967–1990
Layout
Configuration	Straight-4
Displacement	6560 cm³
Cylinder bore	120 mm
Piston stroke	145 mm
Valvetrain	OHV
Combustion
Operating principle	Diesel
Supercharger	None
Turbocharger	None
Fuel system	M-System direct injection
Fuel type	DK1 or DK3 ; 45 CN (TGL 4938)
Cooling system	Water-cooled
Output
Power output	92 kW at 2300 min−1
Torque output	422 Nm at 1350 min−1
Chronology
Predecessor	4 KVD 14,5/12
Successor	None

Last updated December 06, 2023

The 4 VD 14,5/12-1 SRW is an inline four-cylinder diesel engine produced by the VEB IFA Motorenwerke Nordhausen from 1967 to 1990. The engine was one of the standard modular engines for agricultural and industrial use in the Comecon-countries. Approximately one million units were made.

Technical description

The 4 VD 14,5/12-1 SRW is a water-cooled four-stroke diesel engine with four inline cylinders. The Fuel is injected with a mechanical direct injection system. The bore is 120 mm, the stroke is 145 mm, the displacement is 6560 cm³. The firing order is 1-3-4-2. The standard version of the engine produces 92 kW and has a torque of 422 Nm. The combustion chamber system (M-System) was licensed by MAN. The engine was produced in the versions 4 VD 14,5/12-1 SRW and 4 VD 14,5/12-2 SRW, the later revision was built primary for the NVA. The name 4 VD 14,5/12-1 stands for 4-Zylinder-Viertakt-Diesel, Hub 14,5 cm / Bohrung 12 cm, Baureihe 1, Stehend, Reihe, Wassergekühlt.^[1] (4 cylinder, four-stroke-diesel, stroke 14.5 cm / bore 12 cm, version 1, inline, water-cooled).

Crankcase

The crankcase is made of grey cast iron, both the crankshaft and the camshaft are supported in five bearings. The center bearing of the crankshaft is an axial bearing. The camshaft is driven by a connecting gear, which also drives the injection pump. The housing of the crankshaft bearing contains the housing of the oil pump. Some versions of the engine are equipped with a speedometer gear assembly, which is connected to the injection pump drive.

Crankshaft, pistons and cylinders

The engine has a forged crankshaft, supported in changeable thin-wall bearing shells. The journals of the crankshaft and the connecting rods are polished and induction hardened. The counter-weights are screwed on the center and outer crank arms. The flywheel is connected to the power take-off side of the engine with screws. The gear drive side of the crankshaft is equipped with a gear, which drives the oil pump and the gear which drives the camshaft. The connecting rods are forged and weight-balanced. While the small connecting rod bore has a bearing pressed into the bore, the crank-sided bore of the connecting rod has a thin-wall bearing. For lubrication and cooling of the connecting rods they have small oil-ducts. Oil is pressed in the ducts from a nozzle at the upper side of the connecting rod. The piston journals are secured with two circlips and are bathed in oil. A heat resistant light-metal-alloy is used for the cast pistons. The combustion chamber is integrated into the piston. For compression, the pistons have two piston rings which slots are cast into the piston. The pistons are also equipped with an oil control ring. The cylinder liners are made of centrifugally cast iron, two rubber rings seal the liners off from the crankcase. The engine has two cast iron cylinder blocks with two cylinders; every block has a head, which makes two cylinder heads.

Valvetrain and fuel Injection

The engine uses OHV. The camshaft is gear driven by the connecting gear as described earlier. Every cylinder head has four overhead valves, which are activated by tappets, pushrods and rocker arms. The injection nozzles are connected to the cylinder heads with a flange. The valve seats are made of a heat-resistant material and unlikely to be worn out. The injection duct is grooved.

Cooling

The engine has a water cooling system with a centrifugal pump, which is driven from the crankshaft with a belt; it runs always. A thermostat controls the water amount. Starting at 80 °C the water is pumped into the water cooler, before this temperature level, it circulates in the engine block only to increase the engine temperature fast. The engine fan runs always, except from later versions of the engine which have a fan with an electro-magnetic clutch, which is activated at 92 °C by a temperature sensor.

Lubrication

The oil pump in the crankshaft bearing housing creates oil pressure and pumps the oil from the oil sump through the engine. In the main oil flow a sieve filter cleans the oil, the secondary oil flow has a centrifugal oil filter. Some engine variants don't have a sieve filter but a paper filter instead. The lubrication of the injection pump and the air compressor may either be attached to the main oil flow or be attached to a separate oil lubrication system. For oil cooling the engine has an involute heat exchanger or a shell and tube heat exchanger. Shell and tube heat exchangers are found mostly in engines for the IFA W50.

Fuel system

Fuel is pumped from an inline injection pump to the injection nozzles. The injection pump is a pump with a rotational speed controller, fuel filter and a pump clutch. Some engines have an injection timing device instead of the pump clutch. The rotational speed controller is either an all-speed controller or an idle speed controller. The speed controllers are driven by the camshaft of the injection pump. The idle speed controller does affect the idle and redline speed only, while the all-speed controller affects every rotation speed. For fuel filtering a paper filter is used.

Air compressor

Engines for vehicles are equipped with an air compressor, to supply compressed air for the brakes. It is an air-cooled single-cylinder air-compressor driven by a belt. The air-intake is next to the engine intake manifold. The crankcase is not divided, the crankshaft is forged and has two ball bearings. The pushrod is housed in a needle bearing, the piston journal has a plain bearing pressed into the push rod bore. The piston has two piston rings and one oil control ring. Lubrication is done by a dry sump lubrication system, the compressor valves are poppet valves.

Cold start system

The cold start system has a solenoid valve and a glow filament which are connected in series. When starting the engine, diesel fuel comes through the solenoid valve and gets heated at the glow filament, the diesel fuel evaporates. It gets ignited at the last glow filament. The heat increases the temperature of the air from the intake manifold and makes it possible to start the engine unless the temperature level is not below -15 °C.

Electrical system

The engine is fitted with a starter motor, which is mounted on the crankcase at the exhaust side with securing clips. It is a 24 V direct current series-wound motor with a rated power of 4 kW. The three-phase current alternator has an electronic control unit. It is mounted on the exhaust side of the engine and is driven by a belt from the crankshaft.

Technical specifications

The engine was produced in seven basic variants. No specific names were used, instead engines were categorized after their intended use.

Engine	Displacement	Compression ratio	Rated power at rpm	Torque at rpm	Specific fuel consumption	Minimum fuel consumption	Specific oil consumption
Trucks (for example IFA W50)	6.6 L (6560 cc)	18:1	92 kW/2300	422 Nm/1350	238 g/kWh	218 g/kWh	125 g/h
ZT 300			74 kW/1800		238 g/kWh		100 g/h
ZT 320			74 kW/1800		230 g/kWh		100 g/h
E 512			77 kW/2000	392 Nm/1350	238 g/kWh		125 g/h
E 514			85 kW/2000	422 Nm/1400	238 g/kWh		125 g/h
Stationary engine A			48 kW/1500	353 Nm/1200	222 g/kWh		100 g/h
Stationary engine B			58 kW/1800	353 Nm/1200	222 g/kWh		100 g/h

Otto version

In the mid-1980s, a prototype of an Otto cycle engine based upon the 4 VD 14,5/12-1 SRW was made. This engine, designated the 4 VOG 14,5/12 SRW, (4 cylinder, four-stroke, Otto, gas, stroke 14.5 cm, bore 12 cm, upright standing, in-line engine, water cooled) had spark ignition, a throttle valve, and was specifically designed for running on gaseous fuels such as biogas and methane.^[2]

Bibliography

Authors of the VEB IFA-Motorenwerke Nordhausen: Dieselmotor 4 VD 14,5/12-1 SRW Reparaturhandbuch , 2nd edition, VEB Fachbuchverlag Leipzig 1987 (German)
Boch, Rudolf: Geschichte und Zukunft der deutschen Automobilindustrie. Franz Steiner Verlag Stuttgart. 2001. ISBN 3-515-07866-5 (German)
Peter Kirchberg: Plaste, Blech und Planwirtschaft: Die Geschichte des Automobilbaus in der DDR, Nicolaische Verlagsbuchhandlung, 2005 ISBN 978-3894792596 (German)

Related Research Articles

<span class="mw-page-title-main">Two-stroke engine</span> Internal combustion engine type

A two-strokeengine is a type of internal combustion engine that completes a power cycle with two strokes of the piston during one power cycle, this power cycle being completed in one revolution of the crankshaft. A four-stroke engine requires four strokes of the piston to complete a power cycle during two crankshaft revolutions. In a two-stroke engine, the end of the combustion stroke and the beginning of the compression stroke happen simultaneously, with the intake and exhaust functions occurring at the same time.

The GM Ecotec engine, also known by its codename L850, is a family of all-aluminium inline-four engines, displacing between 1.4 and 2.5 litres. Confusingly, the Ecotec name was also applied to the final DOHC derivatives of the previous GM Family II engine, the architecture was substantially re-engineered for this new Ecotec application produced since 2000. This engine family replaced the GM Family II engine, the GM 122 engine, the Saab H engine, and the Quad 4 engine. It is manufactured in multiple locations, to include Spring Hill Manufacturing, in Spring Hill, Tennessee while the engine block and cylinder heads are cast at Saginaw Metal Casting Operations in Saginaw, Michigan.

The Rolls-Royce Griffon is a British 37-litre capacity, 60-degree V-12, liquid-cooled aero engine designed and built by Rolls-Royce Limited. In keeping with company convention, the Griffon was named after a bird of prey, in this case the griffon vulture.

In a piston engine, the crankcase is the housing that surrounds the crankshaft. In most modern engines, the crankcase is integrated into the engine block.

<span class="mw-page-title-main">Injection pump</span> Component of a diesel engine

An Injection Pump is the device that pumps fuel into the cylinders of a diesel engine. Traditionally, the injection pump was driven indirectly from the crankshaft by gears, chains or a toothed belt that also drives the camshaft. It rotates at half crankshaft speed in a conventional four-stroke diesel engine. Its timing is such that the fuel is injected only very slightly before top dead centre of that cylinder's compression stroke. It is also common for the pump belt on gasoline engines to be driven directly from the camshaft. In some systems injection pressures can be as high as 620 bar.

The oil pump is an internal combustion engine part that circulates engine oil under pressure to the rotating bearings, the sliding pistons and the camshaft of the engine. This lubricates the bearings, allows the use of higher-capacity fluid bearings and also assists in cooling the engine.

Internal combustion engines come in a wide variety of types, but have certain family resemblances, and thus share many common types of components.

The Lorraine 12H Pétrel was a French V-12 supercharged, geared piston aeroengine initially rated at 370 kW (500 hp), but later developed to give 640 kW (860 hp). It powered a variety of mostly French aircraft in the mid-1930s, several on an experimental basis.

The Asso XI was a family of water-cooled, supercharged V12 piston aeroengines produced in the 1930s by Italian manufacturer Isotta Fraschini, and fitted on a number of aircraft types built by CANT, Caproni and others.

High-speed steam engines were one of the final developments of the stationary steam engine. They ran at a high speed, of several hundred rpm, which was needed by tasks such as electricity generation.

The Fiat AN.1 was an experimental Italian water-cooled diesel straight six cylinder aircraft engine from the late 1920s.

An internal combustion engine is a heat engine in which the combustion of a fuel occurs with an oxidizer in a combustion chamber that is an integral part of the working fluid flow circuit. In an internal combustion engine, the expansion of the high-temperature and high-pressure gases produced by combustion applies direct force to some component of the engine. The force is typically applied to pistons, turbine blades, a rotor, or a nozzle. This force moves the component over a distance, transforming chemical energy into kinetic energy which is used to propel, move or power whatever the engine is attached to.

The Potez 6D is a French six cylinder inverted inline aircraft engine put into production after World War II in normal and supercharged versions. Unsupercharged, it produced a take-off power of 179 kW (240 hp) at 2,530 rpm.

The Potez 8D is the largest member of the Potez D series of air-cooled piston aircraft engines which share several common features. It is a supercharged eight cylinder inverted engine with a take-off power of 373 kW (500 hp).

The MWM AKD 112 Z is an air-cooled two-cylinder inline diesel engine produced by MWM from 1955 – 1960. One, three and four cylinder variants of the same engine family were also produced by MWM.

The Mercedes-Benz OM 138 is a diesel engine manufactured by Daimler-Benz. In total, 5,719 units were produced between 1935 and 1940. It was the first diesel engine especially developed and made for a passenger car. The first vehicle powered by the OM 138 was the Mercedes-Benz W 138. The light Mercedes-Benz trucks L 1100 and L 1500 as well as the bus O 1500 were also offered with the OM 138 as an alternative to the standard Otto engine.

The Renault 100 hp aircraft engine from 1912 was a twelve-cylinder, air cooled 60° vee engine built by the French Renault company.

The De Dion-Bouton 130 hp aircraft engine, also referred to as De Dion-Bouton 12B, was a twelve-cylinder, air cooled vee aircraft engine that has been built by De Dion-Bouton.

References

↑ Typenkatalog für Fahrzeuge (PDF) (in German), Ministerium des Inneren der DDR: Versorgungsdienste, 18 July 1978, pp. 11–12, retrieved 20 August 2015
↑ G. Reinhold, G. Pfeiffer, I. Irmscher, R. Jäkel: Inbetriebnahme eines Stationärmotors 4 VOG 14,5/12 SRW mit ungereinigtem Biogas, in Agrartechnik, volume 36, number 12, December 1986, pp. 559

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[1] Typenkatalog für Fahrzeuge (PDF) (in German), Ministerium des Inneren der DDR: Versorgungsdienste, 18 July 1978, pp. 11–12, retrieved 20 August 2015

[2] G. Reinhold, G. Pfeiffer, I. Irmscher, R. Jäkel: Inbetriebnahme eines Stationärmotors 4 VOG 14,5/12 SRW mit ungereinigtem Biogas, in Agrartechnik, volume 36, number 12, December 1986, pp. 559

[1]

[2]