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W 6L20DF

L20DF_разрез

Описание двигателя Wärtsilä 6L20DF

Wärtsilä 6L20DF - шестицилиндровый, рядный, четырехтактный, нереверсивный, с турбонаддувом, промежуточным охлаждением, двойной подачей топлива в двигатель, с прямым впрыском жидкого топлива и непрямым впрыском газообразного топлива. Двигатель может работать в газовом режиме или в режиме дизель.

Технические характеристики

Wärtsilä 6L20DF

IMO Tier 2

AE/DE

AE/DE

ME

Gas

Dies.

Gas

Dies.

Gas

Dies.

Cylinder output

kW

146

176

176

Engine speed

rpm

1000

1200

1200

Engine output

kW

876

1056

1056

Mean effective pressure

MPa

1.99

2.0

2.0

Combustion air system (Note 1)

Flow at 100% load

kg/s

1.5

1.8

1.8

2.3

1.8

2.3

Temperature at turbocharger intake, max.

°C

45

45

45

Temperature after air cooler (TE 601)

°C

45

50

45

50

45

50

Exhaust gas system (Note 2)

Flow at 100% load

kg/s

1.5

1.9

1.8

2.3

1.8

2.3

Flow at 75% load

kg/s

1.2

1.4

1.5

1.8

1.4

1.6

Flow at 50% load

kg/s

0.9

1.0

1.1

1.2

1.1

1.0

Temperature after turbocharger at 100% load (TE 517)

°C

372

310

350

322

362

312

Temperature after turbocharger at 75% load (TE 517)

°C

382

320

367

331

358

341

Temperature after turbocharger at 50% load (TE 517)

°C

382

348

387

353

337

370

Backpressure, max.

kPa

3

3

3

Calculated exhaust diameter for 35 m/s

mm

315

335

339

377

342

374

Heat balance at 100% load (Note 3)

Jacket water, HT-circuit

kW

183

189

220

232

220

242

Charge air, LT-circuit

kW

208

296

300

413

282

432

Lubricating oil, LT-circuit

kW

116

131

140

160

140

167

Radiation

kW

44

49

52

62

52

62

Fuel consumption (Note 4)

Total energy consumption at 100% load

kJ/kWh

8540

-

8710

-

8710

-

Total energy consumption at 75% load

kJ/kWh

9370

-

9640

-

9110

-

Total energy consumption at 50% load

kJ/kWh

10240

-

10920

-

10320

-

Fuel gas consumption at 100% load

kJ/kWh

8293

-

8500

-

8500

-

Fuel gas consumption at 75% load

kJ/kWh

9036

-

9361

-

8840

-

Fuel gas consumption at 50% load

kJ/kWh

9722

-

10516

-

9913

-

Fuel oil consumption at 100% load

g/kWh

5.8

194

4.8

203

4.8

204

Fuel oil consumption at 75% load

g/kWh

7.9

197

6.3

204

6.3

200

Fuel oil consumption 50% load

g/kWh

12.1

206

9.5

216

9.5

204

Fuel gas system (Note 5)

Gas pressure at engine inlet, min (PT901)

kPa (a)

520

-

550

-

550

-

Gas pressure to Gas Valve unit, min

kPa (a)

640

-

670

-

670

-

Gas temperature before Gas Valve Unit

°C

0...60

-

0...60

-

0...60

-

Fuel oil system

Pressure before injection pumps (PT 101)

kPa

700±50

700±50

700±50

Fuel oil flow to engine, approx

m3/h

1.0

1.2

1.2

HFO viscosity before the engine

cSt

-

16...24

-

16...24

-

16...24

MDF viscosity, min.

cSt

1.8

1.8

1.8

Max. HFO temperature before engine (TE 101)

°C

-

140

-

140

-

140

Leak fuel quantity (HFO), clean fuel at 100% load

kg/h

-

0.7

-

0.9

-

0.9

Leak fuel quantity (MDF), clean fuel at 100% load

kg/h

1.8

3.6

2.2

4.5

2.3

4.5

Pilot fuel pressure drop after engine, max

kPa

20

20

20

Lubricating oil system

Pressure before bearings, nom. (PT 201)

kPa

450

450

450

Suction ability, including pipe loss, max.

kPa

20

20

20

Priming pressure, nom. (PT 201)

kPa

80

80

80

Temperature before bearings, nom. (TE 201)

°C

66

66

66

Temperature after engine, approx.

°C

78

78

78

Pump capacity (main), electrically driven

m3/h

21

21

21

Priming pump capacity (50/60Hz)

m3/h

8.6 / 10.5

8.6 / 10.5

8.6 / 10.5

Oil volume in separate system oil tank

m3

2

2

2

Oil consumption at 100% load, approx.

g/kWh

0.5

0.5

0.5

Crankcase ventilation flow rate at full load

l/min

726

726

726

Crankcase ventilation backpressure, max.

Pa

300

300

300

Oil volume in speed governor

l

1.4...2.2

1.4...2.2

1.4...2.2

HT cooling water system

Pressure at engine, after pump, nom. (PT 401)

kPa

200 + static

200 + static

200 + static

Pressure at engine, after pump, max. (PT 401)

kPa

500

500

350

Temperature before cylinders, approx. (TE 401)

°C

83

83

83

Temperature after engine, nom.

°C

91

91

91

Capacity of engine driven pump, nom.

m3/h

30

30

30

Pressure drop over engine, total

kPa

90

90

90

Pressure drop in external system, max.

kPa

150 (1.5)

150 (1.5)

150 (1.5)

Pressure from expansion tank

kPa

70...150

70...150

70...150

Water volume in engine

m3

0.12

0.12

0.12

Delivery head of stand-by pump

kPa

200

200

200

LT cooling water system

Pressure at engine, after pump, nom. (PT 471)

kPa

200+ static

200+ static

200+ static

Pressure at engine, after pump, max. (PT 471)

kPa

500

500

350

Temperature before engine, max. (TE 471)

°C

38

38

38

Temperature before engine, min. (TE 471)

°C

25

25

25

Capacity of engine driven pump, nom.

m3/h

36

39

39

Pressure drop over charge air cooler

kPa

30

30

30

Pressure drop in external system, max.

kPa

120 (1.2)

120 (1.2)

120 (1.2)

Pressure from expansion tank

kPa

70...150

70...150

70...150

Delivery head of stand-by pump

kPa

200

200

200

Starting air system

Pressure, nom.

kPa

3000

3000

3000

Pressure, max.

kPa

3000

3000

3000

Low pressure limit in air vessels

kPa

1800

1800

1800

Starting air consumption, start (successful)

Nm3

1.2

1.2

1.2

Wärtsilä 6L20DF

IMO Tier 2

AE/DE

AE/DE

ME

Gas

Dies.

Gas

Dies.

Gas

Dies.

Cylinder output

kW

160

185

185

Engine speed

rpm

1000

1200

1200

Engine output

kW

960

1110

1110

Mean effective pressure

MPa

2.18

2.1

2.1

Combustion air system (Note 1)

Flow at 100% load

kg/s

1.6

1.9

1.8

2.2

1.8

2.3

Temperature at turbocharger intake, max.

°C

45

45

45

Temperature after air cooler (TE 601)

°C

45

50

45

50

45

50

Exhaust gas system (Note 2)

Flow at 100% load

kg/s

1.6

2.0

1.8

2.3

1.8

2.4

Flow at 75% load

kg/s

1.2

1.5

1.5

1.7

1.4

1.6

Flow at 50% load

kg/s

0.9

1.1

1.1

1.2

1.1

1.1

Temperature after turbocharger at 100% load (TE 517)

°C

365

325

360

340

360

335

Temperature after turbocharger at 75% load (TE 517)

°C

410

340

380

350

375

365

Temperature after turbocharger at 50% load (TE 517)

°C

440

350

410

370

405

390

Backpressure, max.

kPa

4

4

4

Calculated exhaust diameter for 35 m/s

mm

323

347

342

380

342

383

Heat balance at 100% load (Note 3)

Jacket water, HT-circuit

kW

195

209

230

244

230

245

Charge air, LT-circuit

kW

250

330

290

450

310

470

Lubricating oil, LT-circuit

kW

135

140

160

167

160

167

Radiation

kW

45

45

50

50

50

50

Fuel consumption (Note 4)

Total energy consumption at 100% load

kJ/kWh

7980

-

8130

-

8170

-

Total energy consumption at 75% load

kJ/kWh

8560

-

8680

-

8600

-

Total energy consumption at 50% load

kJ/kWh

9400

-

9500

-

9270

-

Fuel gas consumption at 100% load

kJ/kWh

7809

-

7941

-

7980

-

Fuel gas consumption at 75% load

kJ/kWh

8329

-

8433

-

8347

-

Fuel gas consumption at 50% load

kJ/kWh

9208

-

9293

-

9064

-

Fuel oil consumption at 100% load

g/kWh

3.9

195

4.3

203

4.3

204

Fuel oil consumption at 75% load

g/kWh

5.3

196

5.8

204

5.8

200

Fuel oil consumption 50% load

g/kWh

4.3

206

4.8

216

4.8

204

Fuel gas system (Note 5)

Gas pressure at engine inlet, min (PT901)

kPa (a)

520

-

550

-

550

-

Gas pressure to Gas Valve unit, min

kPa (a)

640

-

670

-

670

-

Gas temperature before Gas Valve Unit

°C

0...60

-

0...60

-

0...60

-

Fuel oil system

Pressure before injection pumps (PT 101)

kPa

700±50

700±50

700±50

Fuel oil flow to engine, approx

m3/h

1.1

1.3

1.3

HFO viscosity before the engine

cSt

-

16...24

-

16...24

-

16...24

MDF viscosity, min.

cSt

1.8

1.8

1.8

Max. HFO temperature before engine (TE 101)

°C

-

140

-

140

-

140

Leak fuel quantity (HFO), clean fuel at 100% load

kg/h

-

0.8

-

0.9

-

0.9

Leak fuel quantity (MDF), clean fuel at 100% load

kg/h

2.0

3.9

2.4

4.7

2.4

4.8

Pilot fuel pressure drop after engine, max

kPa

20

20

20

Lubricating oil system

Pressure before bearings, nom. (PT 201)

kPa

450

450

450

Suction ability, including pipe loss, max.

kPa

20

20

20

Priming pressure, nom. (PT 201)

kPa

80

80

80

Temperature before bearings, nom. (TE 201)

°C

66

66

66

Temperature after engine, approx.

°C

78

78

78

Pump capacity (main), electrically driven

m3/h

21

21

21

Priming pump capacity (50/60Hz)

m3/h

8.6 / 10.5

8.6 / 10.5

8.6 / 10.5

Oil volume in separate system oil tank

m3

2

2

2

Oil consumption at 100% load, approx.

g/kWh

0.5

0.5

0.5

Crankcase ventilation flow rate at full load

l/min

726

726

726

Crankcase ventilation backpressure, max.

Pa

300

300

300

Oil volume in speed governor

l

1.4...2.2

1.4...2.2

1.4...2.2

HT cooling water system

Pressure at engine, after pump, nom. (PT 401)

kPa

200 + static

200 + static

200 + static

Pressure at engine, after pump, max. (PT 401)

kPa

500

500

350

Temperature before cylinders, approx. (TE 401)

°C

83

83

83

Temperature after engine, nom.

°C

91

91

91

Capacity of engine driven pump, nom.

m3/h

30

30

30

Pressure drop over engine, total

kPa

90

90

90

Pressure drop in external system, max.

kPa

150 (1.5)

150 (1.5)

150 (1.5)

Pressure from expansion tank

kPa

70...150

70...150

70...150

Water volume in engine

m3

0.12

0.12

0.12

Delivery head of stand-by pump

kPa

200

200

200

LT cooling water system

Pressure at engine, after pump, nom. (PT 471)

kPa

200+ static

200+ static

200+ static

Pressure at engine, after pump, max. (PT 471)

kPa

500

500

350

Temperature before engine, max. (TE 471)

°C

38

38

38

Temperature before engine, min. (TE 471)

°C

25

25

25

Capacity of engine driven pump, nom.

m3/h

36

39

39

Pressure drop over charge air cooler

kPa

30

30

30

Pressure drop in external system, max.

kPa

120 (1.2)

120 (1.2)

120 (1.2)

Pressure from expansion tank

kPa

70...150

70...150

70...150

Delivery head of stand-by pump

kPa

200

200

200

Starting air system

Pressure, nom.

kPa

3000

3000

3000

Pressure, max.

kPa

3000

3000

3000

Low pressure limit in air vessels

kPa

1800

1800

1800

Starting air consumption, start (successful)

Nm3

1.2

1.2

1.2

Notes:

Note 1 At ISO 3046-1 conditions (ambient air temperature 25°C, LT-water 25°C) and 100% load. Tolerance 5%.

Note 2 At ISO 3046-1 conditions (ambient air temperature 25°C, LT-water 25°C) and 100% load. Flow tolerance 5% and temperature tolerance 15°C.

Note 3 At ISO 3046-1 conditions (ambient air temperature 25°C, LT-water 25°C) and 100% load. Tolerance for cooling water heat 10%, tolerance for radiation heat 30%. Fouling factors and a margin to be taken into account when dimensioning heat exchangers.

Note 4 According to ISO 3046/1, lower calorific value 42 700 kJ/kg for liquid fuel and 49620kJ/kg for gas fuel, with engine driven pumps. Tolerance 5%. Load according to propeller law for mechanical propulsion engines (ME).

Note 5 Fuel gas pressure given at LHV = 36MJ/m³N. Required fuel gas pressure depends on fuel gas LHV and need to be increased for lower LHV's. Pressure drop in external fuel gas system to be considered.

ME = Engine driving propeller, variable speed

AE = Auxiliary engine driving generator

DE = Diesel-Electric engine driving generator

Subject to revision without notice.

Ко всему вышеуказанному оборудованию мы поставляем СЗЧ согласно каталожным номерам производителя.

Для получения коммерческого предложения на поставку двигателя или запчастей к нему обращайтесь к нашим специалистам по указанным ниже контактным данным, либо воспользуйтесь формой подачи заявки прямо с сайта.

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