G3412c – Milton CAT G3412 375 kW Continuous 375 kW 60 Hz Performance and Sound Data User Manual

G3412C

GAS ENGINE TECHNICAL DATA

30

35

40

45

50

55

60

65

70

75

80

85-100

-

-

-

-

-

-

-

-

23

25

27

0

0

0

0

0

0

0

0

1.00

1.00

1.00

130

1.00

1.00

1.00

0.98

0.94

0.91

0.87

0.84

0.81

0.77

0.74

0.71

0.68

120

1.00

1.00

1.00

1.00

0.96

0.92

0.89

0.85

0.82

0.79

0.76

0.73

0.70

AIR

110

1.00

1.00

1.00

1.00

0.98

0.94

0.90

0.87

0.83

0.80

0.77

0.74

0.71

TO

100

1.00

1.00

1.00

1.00

0.99

0.96

0.92

0.88

0.85

0.82

0.78

0.75

0.72

TURBO

90

1.00

1.00

1.00

1.00

1.00

0.97

0.94

0.90

0.86

0.83

0.80

0.76

0.73

80

1.00

1.00

1.00

1.00

1.00

0.99

0.95

0.92

0.88

0.85

0.81

0.78

0.75

(°F)

70

1.00

1.00

1.00

1.00

1.00

1.00

0.97

0.93

0.90

0.86

0.83

0.79

0.76

60

1.00

1.00

1.00

1.00

1.00

1.00

0.99

0.95

0.91

0.88

0.84

0.81

0.78

50

1.00

1.00

1.00

1.00

1.00

1.00

1.00

0.97

0.93

0.90

0.86

0.83

0.79

0

1000

2000

3000

4000

5000

6000

7000

8000

9000

10000

11000

12000

ALTITUDE (FEET ABOVE SEA LEVEL)

130

1.49

1.57

1.65

1.74

1.83

1.91

1.91

1.91

1.91

1.91

1.91

1.91

1.91

120

1.39

1.47

1.55

1.64

1.72

1.80

1.80

1.80

1.80

1.80

1.80

1.80

1.80

AIR

110

1.29

1.37

1.45

1.53

1.62

1.70

1.70

1.70

1.70

1.70

1.70

1.70

1.70

TO

100

1.19

1.27

1.35

1.43

1.51

1.59

1.59

1.59

1.59

1.59

1.59

1.59

1.59

TURBO

90

1.09

1.17

1.25

1.33

1.41

1.49

1.49

1.49

1.49

1.49

1.49

1.49

1.49

80

1.00

1.07

1.15

1.22

1.30

1.38

1.38

1.38

1.38

1.38

1.38

1.38

1.38

(°F)

70

1.00

1.00

1.04

1.12

1.20

1.27

1.27

1.27

1.27

1.27

1.27

1.27

1.27

60

1.00

1.00

1.00

1.02

1.10

1.17

1.17

1.17

1.17

1.17

1.17

1.17

1.17

50

1.00

1.00

1.00

1.00

1.00

1.06

1.06

1.06

1.06

1.06

1.06

1.06

1.06

0

1000

2000

3000

4000

5000

6000

7000

8000

9000

10000

11000

12000

ALTITUDE (FEET ABOVE SEA LEVEL)

100% Load Data

dB(A)

(dB)

3.2

97.7

87.2

91.2

92.2

94.2

93.2

92.2

76.2

69.2

22.9

87.7

80.8

79.8

80.8

81.8

82.8

82.8

75.8

65.8

49.2

81.7

77.3

76.3

79.3

78.3

76.3

75.3

70.3

58.3

4.9

113.0

102.5

112.5

113.2

112.5

105.5

103.2

101.9

92.1

22.9

99.7

93.2

102.8

97.8

97.5

92.2

91.2

91.2

83.3

49.2

93.0

86.6

96.2

91.2

90.9

85.6

84.6

84.6

76.6

Overal SPL

63 Hz 125 Hz 250 Hz 500 Hz 1 kHz

2 kHz

4 kHz

8 khz

Octave Band Center Frequency (OBCF)

FUEL USAGE GUIDE:

This table shows the derate factor required for a given fuel. Note that deration occurs as the methane number decreases. Methane number is a scale to measure

detonation characteristics of various fuels. The methane number of a fuel is determined by using the Caterpillar Methane Number Calculation program.

ALTITUDE DERATION FACTORS:

This table shows the deration required for various air inlet temperatures and altitudes. Use this information along with the fuel usage guide chart to help

determine actual engine power for your site.

ACTUAL ENGINE RATING:

It is important to note that the Altitude/Temperature deration and the Fuel Usage Guide deration are not cumulative. They are not to be added together. The

same is true for the Low Energy Fuel deration (reference the Caterpillar Methane Number Program) and the Fuel Usage Guide deration. However, the

Altitude/Temperature deration and Low Energy Fuel deration are cumulative; and they must be added together in the method shown below. To determine

the actual power available, take the lowest rating between 1) and 2).

1) (Altitude/Temperature Deration) + (Low Energy Fuel Deration)

2) Fuel Usage Guide Deration

Note: For NA's always add the Low Energy Fuel deration to the Altitude/Temperature deration. For TA engines only add the Low Energy Fuel

deration to the Altitude/Temperature deration whenever the Altitude/Temperature deration is less than 1.0 (100%). This will give the actual rating

for the engine at the conditions specified.

AFTERCOOLER HEAT REJECTION FACTORS (ACHRF):

Aftercooler heat rejection is given for standard conditions of 77°F and 500 ft altitude. To maintain a constant air inlet manifold temperature, as the air to turbo

temperature goes up, so must the heat rejection. As altitude increases, the turbocharger must work harder to overcome the lower atmospheric pressure. This

increases the amount of heat that must be removed from the inlet air by the aftercooler. Use the aftercooler heat rejection factor (ACHRF) to adjust for ambient
and altitude conditions. Multiply this factor by the standard aftercooler heat rejection. Failure to properly account for these factors could result in detonation and

cause the engine to shutdown or fail.

SOUND DATA:

Data determined by methods similar to ISO Standard DIS-8528-10. Accuracy Grade 3. SPL = Sound Pressure Level.

DM5444-02

27

FUEL USAGE GUIDE

CAT METHANE NUMBER

IGNITION TIMING

PAGE 2 OF 3

03-Mar-09

FREE FIELD MECHANICAL & EXHAUST NOISE

Free Field

Exhaust

Free Field

Mechanical

DISTANCE FROM

THE ENGINE (FEET)

DISTANCE FROM

THE ENGINE (FEET)

DERATION FACTOR

1.00

ALTITUDE DERATION FACTORS

AFTERCOOLER HEAT REJECTION FACTORS (ACHRF)