Curvas Bomba Memoria
18
BOMBA 1 MULTITEC 100-03 KSB P 132 KW f 50 Hz Q 48 L/S Q M3/H Q M3/S H [M] Q M3/H Q M3/S Efic 1 0 0.000 220 0 0.000 0 2 120 0.033 202 170 0.047 78 3 248 0.069 100 248 0.069 60 BOMBA 2 US GPM KSB P 150 KW f 50 Hz Q 50 L/S Q M3/H Q M3/S H [M] Q M3/H Q M3/S Efic 1 0 0.000 220 0 0.000 0 2 120 0.033 202 170 0.047 78 3 248 0.069 100 248 0.069 60
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Transcript of Curvas Bomba Memoria
BOMBA 1 MULTITEC 100-03KSB P 132 KW
f 50 HzQ 48 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 220 0 0.000 0 B2 120 0.033 202 170 0.047 78 C3 248 0.069 100 248 0.069 60 Q
BOMBA 2 US GPMKSB P 150 KW
f 50 HzQ 50 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 220 0 0.000 0 B2 120 0.033 202 170 0.047 78 C3 248 0.069 100 248 0.069 60 Q
CURVA BOMBA CURVA EFICIENCIA-33804 D -36037586.81 E 3353.5
220H eFF
220 0
CURVA BOMBA CURVA EFICIENCIA-33804 D -36037586.81 E 3353.5
220H eFF
220 0
0.000 0.020 0.040 0.060 0.0800
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
0.000 0.020 0.040 0.060 0.0800
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
BOMBA 1 MULTITEC 100-03KSB P 132 KW
f 50 HzQ 48 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 220 0 0.000 0 B2 120 0.033 202 170 0.047 78 C3 248 0.069 100 248 0.069 60 Q
BOMBA 2 MULTITEC 100-03KSB P 150 KW
f 50 HzQ 50 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 220 0 0.000 0 B2 120 0.033 202 170 0.047 78 C3 248 0.069 100 248 0.069 60 Q
CURVA BOMBA CURVA EFICIENCIA-33804 D -36037586.81 E 3353.5
220H eFF
220 0
CURVA BOMBA CURVA EFICIENCIA-33804 D -36037586.81 E 3353.5
220H eFF
220 0
0.000 0.020 0.040 0.060 0.0800
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
0.000 0.020 0.040 0.060 0.0800
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0
50
100
150
200
250
f(x) = − 36036.782951394 x² + 3353.50167858707 xR² = 1
f(x) = − 33804.435483871 x² + 586.814516129031 x + 220R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
BOMBA 1KSB P KW
f HzQ L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0.000 0.000 B2 0.000 0.000 C3 0.000 0.000 Q
BOMBA 2 MULTITEC D 100/ 3-8.1 10.67KSB P 150 KW
f 50 HzQ 40.9 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 240 0 0.000 0 B2 196 0.054 200 200 0.056 75 C3 300 0.083 122 300 0.083 63 Q
0.07
CURVA BOMBA CURVA EFICIENCIADE
H eFF0 0
CURVA BOMBA CURVA EFICIENCIA-23584 D -21384549.31 E 2538
240H eFF
162.8901 72.8784
0.000 0.200 0.400 0.600 0.800 1.0000
2
4
6
8
10
12
f(x) = 0R² = 0f(x) = 0R² = 0
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0.000 0.020 0.040 0.060 0.080 0.1000
50
100
150
200
250
300
f(x) = − 21384 x² + 2538 xR² = 1
f(x) = − 23583.6734693877 x² + 549.306122448976 x + 240R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
0.000 0.200 0.400 0.600 0.800 1.0000
2
4
6
8
10
12
f(x) = 0R² = 0f(x) = 0R² = 0
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0.000 0.020 0.040 0.060 0.080 0.1000
50
100
150
200
250
300
f(x) = − 21384 x² + 2538 xR² = 1
f(x) = − 23583.6734693877 x² + 549.306122448976 x + 240R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
BOMBA 1KSB P KW
f HzQ L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0.000 0.000 B2 0.000 0.000 C3 0.000 0.000 Q
BOMBA 2 MULTITEC D 100/ 3-8.1 10.67KSB P 160 KW
f 50 HzQ 40.9 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 252 0 0.000 0 B2 130 0.036 230 180 0.050 80 C3 240 0.067 151 240 0.067 72 Q
0.07
CURVA BOMBA CURVA EFICIENCIADE
H eFF0 0
CURVA BOMBA CURVA EFICIENCIA-29643 D -31200461.22 E 3160
252H eFF
139.0347 68.32
0.000 0.200 0.400 0.600 0.800 1.0000
2
4
6
8
10
12
f(x) = 0R² = 0f(x) = 0R² = 0
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0
50
100
150
200
250
300
f(x) = − 31200 x² + 3160 xR² = 1
f(x) = − 29643.3566433566 x² + 461.223776223773 x + 252R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
0.000 0.200 0.400 0.600 0.800 1.0000
2
4
6
8
10
12
f(x) = 0R² = 0f(x) = 0R² = 0
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0
50
100
150
200
250
300
f(x) = − 31200 x² + 3160 xR² = 1
f(x) = − 29643.3566433566 x² + 461.223776223773 x + 252R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
BOMBA 1KSB P KW
f HzQ L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0.000 0.000 B2 0.000 0.000 C3 0.000 0.000 Q
BOMBA 2 MULTITEC 100-07KSB P 315 KW
f 50 HzQ 41.3 L/SQ L/S Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 570 0 0.000 0 B2 45 0.045 474 45 0.045 80 C3 90 0.090 277 90 0.090 68 Q
0.07
CURVA BOMBA CURVA EFICIENCIADE
H eFF0 0
CURVA BOMBA CURVA EFICIENCIA-24938 D -22716
-1011.1 E 2800570
H eFF377.0268 84.6916
0.000 0.200 0.400 0.600 0.800 1.0000
2
4
6
8
10
12
f(x) = 0R² = 0f(x) = 0R² = 0
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0.000 0.020 0.040 0.060 0.080 0.1000
100
200
300
400
500
600
f(x) = − 22716.049382716 x² + 2800 xR² = 1
f(x) = − 24938.2716049383 x² − 1011.11111111111 x + 570R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
0.000 0.200 0.400 0.600 0.800 1.0000
2
4
6
8
10
12
f(x) = 0R² = 0f(x) = 0R² = 0
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0.000 0.020 0.040 0.060 0.080 0.1000
100
200
300
400
500
600
f(x) = − 22716.049382716 x² + 2800 xR² = 1
f(x) = − 24938.2716049383 x² − 1011.11111111111 x + 570R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
Estación 5 BOMBA 1 MULTITEC D-100/3-8.1 10.67KSB P 150 KW
f 50 HzQ 42.4 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 252 0 0.000 0 B2 130 0.036 230 180 0.050 80 C3 240 0.067 151 240 0.067 72 Q
Estación 5 BOMBA 2 TK 100-150 B/2KSB P 150 KW
f 50 HzQ 39.5 L/SQ M3/H Q M3/S H [M] Q M3/H Q M3/S Efic A
1 0 0.000 240 0 0.000 0 B2 196 0.054 200 200 0.056 75 C3 300 0.083 122 300 0.083 63 Q
0.07
CURVA BOMBA CURVA EFICIENCIA-29643 D -31200461.22 E 3160
252H eFF
252 0
CURVA BOMBA CURVA EFICIENCIA-23584 D -21384549.31 E 2538
240H eFF
162.8901 72.8784
0.000 0.020 0.040 0.060 0.0800
50
100
150
200
250
300
f(x) = − 31200 x² + 3160 xR² = 1
f(x) = − 29643.3566433566 x² + 461.223776223773 x + 252R² = 1
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0.000 0.020 0.040 0.060 0.080 0.1000
50
100
150
200
250
300
f(x) = − 21384 x² + 2538 xR² = 1
f(x) = − 23583.6734693877 x² + 549.306122448976 x + 240R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
0.000 0.020 0.040 0.060 0.0800
50
100
150
200
250
300
f(x) = − 31200 x² + 3160 xR² = 1
f(x) = − 29643.3566433566 x² + 461.223776223773 x + 252R² = 1
CURVA BOMBA 1Polynomial (CURVA BOMBA 1)EFICIENCIA BOMBA 1
0.000 0.020 0.040 0.060 0.080 0.1000
50
100
150
200
250
300
f(x) = − 21384 x² + 2538 xR² = 1
f(x) = − 23583.6734693877 x² + 549.306122448976 x + 240R² = 1
CURVA BOMBA 2
Polynomial (CURVA BOMBA 2)
EFICIENCIA BOMBA 2
