m
3
/h
Distribution
Valve regulation
Frequency converter control
%
Hours
Power
Consumption
Power
Consumption
A
1
- B
1
kWh
A
1
- C
1
kWh
350
5
438
42,5
18.615
42,5
18.615
300
15
1314
38,5
50.589
29,0
38.106
250
20
1752
35,0
61.320
18,5
32.412
200
20
1752
31,5
55.188
11,5
20.148
150
20
1752
28,0
49.056
6,5
11.388
100
20
1752
23,0
40.296
3,5
6.132
Σ
100
8760
275.064
26.801
2.7.5 Better Control
If a frequency converter is used for controlling the flow or pressure of a system, improved control is obtained.
A frequency converter can vary the speed of the fan or pump, thereby obtaining variable control of flow and pressure.
Furthermore, a frequency converter can quickly adapt the speed of the fan or pump to new flow or pressure conditions in the system.
Simple control of process (Flow, Level or Pressure) utilizing the built in PID control.
2.7.6 Cos
φ
Compensation
Generally speaking, a frequency converter with a cos
φ
of 1 provides power factor correction for the cos
φ
of the motor, which means that there is no
need to make allowance for the cos
φ
of the motor when sizing the power factor correction unit.
VLT
®
AQUA Drive Design Guide
2 Introduction to VLT AQUA Drive
MG.20.N5.02 - VLT
®
is a registered Danfoss trademark
17
2
Содержание VLT AQUA Drive Series
Страница 38: ...3 VLT AQUA Selection VLT AQUA Drive Design Guide 38 MG 20 N5 02 VLT is a registered Danfoss trademark 3...
Страница 106: ...5 How to Install VLT AQUA Drive Design Guide 106 MG 20 N5 02 VLT is a registered Danfoss trademark 5...
Страница 150: ...5 How to Install VLT AQUA Drive Design Guide 150 MG 20 N5 02 VLT is a registered Danfoss trademark 5...
Страница 168: ...7 RS 485 Installation and Set up VLT AQUA Drive Design Guide 168 MG 20 N5 02 VLT is a registered Danfoss trademark 7...
Страница 194: ...8 Troubleshooting VLT AQUA Drive Design Guide 194 MG 20 N5 02 VLT is a registered Danfoss trademark 8...