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Lowara 10SV 05CE022 1015L119S — управление насосами с помощью интеллектуальной системы контроля [22/72]
![Lowara 10SV 11C040 1015L125B [22/72] Typical example of energy savings](/views2/1608160/page22/bg16.png)
22
e-SV™ SERIES - VERSION WITH HYDROVAR
TM
OPERATING PRINCIPLE
The basic function of the HYDROVAR
TM
device is to
control the pump to meet the system demands.
HYDROVAR
TM
performs these functions by:
1) Measuring the system pressure or flow via a
transmitter mounted on the pump’s delivery side.
2) Calculating the motor speed to maintain the correct
flow or pressure.
3) Sending out a signal to the pump to start the motor,
increase speed, decrease speed or stop.
4) In the case of multiple pump installations, HYDROVAR
TM
will automatically provide for the cyclic changeover of the
pump’s starting sequence.
In addition to these basic functions, HYDROVAR
TM
can do
things only by the most advanced computerised control
systems, such as:
• Stop the pump(s) at zero demand.
• Stop the pump(s) in case of water failure on the
suction side (protection against dry running).
• Stop the pump if the required delivery exceeds the
pump’s capacity (protection against cavitation caused
by excessive demand), or automatically switch on the
next pump in a multiple series.
• Protect the pump and motor from overvoltage,
undervoltage, overload and earth fault.
• Vary the pump speed acceleration and deceleration time.
• Compensate for increased flow resistance at high flow
rates.
• Conduct automatic test starts at set intervals.
• Monitor the converter and motor operating hours.
• Display all functions on an LCD in different languages
(Italian, English, French, German, Spanish, Portuguese,
Dutch).
• Send a signal to a remote control system which is
proportional to the pressure and frequency.
• Communicate with another HYDROVAR
TM
or control
system via an RS 485 interface.
TYPICAL EXAMPLE OF ENERGY SAVINGS
System: 22SV07F75T vertical multistage electric pump with 7,5 kW motor equipped with HYDROVAR
TM
, 70 m head.
19 hour/day operation.
Application: maintaining a constant pressure as the flow rate varies according to the system curve.
TABELLA RISPARMIO ENERGETICO
FLOW POWER OPERATING TOTAL
CONSTANT SPEED VARIABLE SPEED SAVED TIME ENERGY
PUMP PUMP SAVINGS
m
3
/h
kW kW kW (hours) kWh
24 7,4 7,4 0,0 876 -
21 6,9 6,1 0,8 876 701
18 6,5 5,0 1,5 1752 2.628
14 5,6 3,8 1,8 1752 3.154
10 5,1 2,8 2,3 1752 4.030
10.512
sv-hydr-en_a_te
YEARLY ENERGY SAVINGS (kWh)
ABSORBED POWER
16
Lowara
OPERATING PRINCIPLE
The basic function of the HYDROVAR
®
device is to
control the pump to meet the system demands.
HYDROVAR
®
performs these functions by:
1) Measuring the system pressure or flow via a
transmitter mounted on the pump’s delivery side.
2) Calculating the motor speed to maintain the correct
flow or pressure.
3) Sending out a signal to the pump to start the motor,
increase speed, decrease speed or stop.
4) In the case of multiple pump installations,
HYDROVAR
®
will automatically provide for the cyclic
changeover of the pumps’ starting sequence
In addition to these basic functions, HYDROVAR
®
can do
things only by the most advanced computerised control
systems, such as:
• Stop the pump(s) at zero demand.
• Stop the pump(s) in case of water failure on the
suction side (protection against dry running).
• Stop the pump if the required delivery exceeds the
pump’s capacity (protection against cavitation caused
by excessive demand), or automatically switch on the
next pump in a multiple series.
• Protect the pump and motor from overvoltage,
undervoltage, overload and earth fault.
• Vary the pump speed acceleration and deceleration
time.
• Compensate for increased flow resistance at high flow
rates.
• Conduct automatic test starts at set intervals.
• Monitor the converter and motor operating hours.
• Display all functions on an LCD in different languages
(Italian, English, French, German, Spanish, Portuguese,
Dutch).
• Send a signal to a remote control system which is
proportional to the pressure and frequency.
• Communicate with another HYDROVAR or control
system via an RS 485 interface.
Control for constant pressure
Control to match a system curve
Control for constant flow
Control according to an external signal
TYPICAL EXAMPLE OF ENERGY SAVINGS
System: SV1608F75T vertical multistage electric pump with 7.5 kW motor equipped with Hydrovar, 80 m head. 12
hour/day operation.
Application: maintaining a constant pressure as the flow rate varies.
FLOW ABSORBED POWER POWER OPERATING TOTAL
CONSTANT SPEED VARIABLE SPEED
SAVED TIME ENERGY
PUMP PUMP
SAVINGS
m
3
/h kW kW kW (hours) kWh
9 5,50 3,09 2,41 1095 2639
14 6,71 4,81 1,90 2190 4161
21 7,30 7,21 0,09 1095 99
YEARLY ENERGY SAVINGS (kWh) 6899
Содержание
- Enntech p.1
- Lowara e sv hydrovar xylect are trademarks of xylem inc or one of its subsidiaries all other trademarks of registered trademarks are property of their respective owners p.2
- E sv series hydraulic performance range at 50 hz p.2
- Contents p.3
- Water treatment plants p.5
- Wash systems p.5
- Vertical multistage electric pumps p.5
- Specifications pump p.5
- Pressure boosting and water supply systems p.5
- Pharmaceutical food beverage industries p.5
- Irrigation systems p.5
- I alert p.5
- Handling of water free of suspended solids in the civil industrial and agricultural sectors p.5
- Handling of moderately aggressive liquids demineralised water water and glycol etc p.5
- E sv series p.5
- Circulation of hot and cold water for heating cooling and conditioning systems p.5
- Boiler feed p.5
- Arket sectors p.5
- Applications p.5
- Available on request p.6
- Characteristics of 33 46 66 92 125sv series p.6
- Characteristics of 1 3 5 10 15 22sv series p.6
- Version diagram p.7
- Versioni 33 46 66 92 125sv p.7
- Versioni 1 22sv p.7
- General characteristics 2 pole sv p.7
- Caratteristiche generali 1 3 5 10 15 22 33 46 66 92 125 sv 2 poli 50 hz p.7
- Available for p versions see specific catalogue p.7
- 46 66 92 125sv versions p.7
- 3 5 10 15 22sv versions p.7
- H number of impellers 10 f version aisi 304 round flanges rated motor power 11 kw 50 hz frequency three phase p.8
- F 10 sv p.8
- Example 22sv10f110t sv series electric pump flow rate 22 p.8
- Example 125sv8 2ag550t sv series electric pump flow rate 125 p.8
- 46 66 92 125sv series p.8
- 3 5 10 15 22sv series p.8
- L 550 t p.8
- L 110 t p.8
- Identification code p.8
- H number of impellers 8 2 of which with a smaller external diameter type a g version aisi 304 cast iron round flanges rated motor power 55 kw 50 hz frequency three phase p.8
- Rating plate p.9
- Legend p.9
- 22sv pump 33 125sv pump p.9
- 22sv electric pump 33 125sv electric pump p.9
- N v c k versions p.10
- Materiali 1 22sv versioni n v c k p.10
- Materiali 1 22 sv versioni f t r p.10
- Kw electric pump cross section and main components p.10
- F t r versions p.10
- 3 5sv series and 10 15 22sv series p.10
- 5 kw electric pump cross section and main components p.11
- 15 22sv series p.11
- N v c k versions p.11
- Materiali 10 22sv versioni n v c k p.11
- Materiali 10 22 sv versioni f t r p.11
- F t r versions p.11
- N versions p.12
- Materiali 33 92sv versioni n p.12
- Materiali 33 92sv versioni g p.12
- G versions p.12
- 46 66 92sv series electric pump cross section and main components p.12
- Sv series electric pump cross section and main components p.13
- N versions p.13
- Materiali 125sv versioni n p.13
- Materiali 125 sv versioni g p.13
- G versions p.13
- E sv series mechanical seals according to en 12756 p.14
- 15 22sv 4 kw 10 15 22sv 5 5 kw 33 46 66 92 125sv p.14
- Type of seal p.14
- Pressure temperature application limits for complete pump applicable with any of the seals listed above p.14
- List of materials p.14
- Tabella di compatibilita dei materiali a contatto con i principali liquidi p.15
- Compatibility chart for materials in contact with most commonly used liquids p.15
- Single phase motors at 50 hz 2 pole p.16
- Motori monofase per serie 1 22 sv 50 hz 2 poli p.16
- Erp 2009 125 ec p.16
- E sv series motors p.16
- Motori trifase per serie 1 125 sv 50 hz 2 poli fino a 22 kw motori trifase per serie 1 125 sv 50 hz 2 poli fino a 22 kw motori trifase per serie 1 125 sv 50 hz 2 poli fino a 22 kw motori trifase per serie 1 125 sv 50 hz 2 poli fino a 22 kw p.17
- E sv series three phase motors at 50 hz 2 pole up to 22 kw p.17
- Rumorosita motori sv 2 poli 50hz p.18
- Motori trifase per serie 1 125 sv 50 hz 2 poli da 30kw fino a 55kw motori trifase per serie 1 125 sv 50 hz 2 poli da 30kw fino a 55kw motori trifase per serie 1 125 sv 50 hz 2 poli da 30kw fino a 55kw motori trifase per serie 1 125 sv 50 hz 2 poli da 30kw fino a 55kw p.18
- Motor noise 2 pole motors p.18
- E sv series three phase motors at 50 hz 2 pole from 30 to 55 kw p.18
- Available voltages sm and plm motors for e sv series 2 pole p.19
- W22 motors for e sv series 2 pole p.19
- Surface motors standard voltages offering motori di superficie specchietto tensioni disponibile p.19
- Surface motors standard tensions offering p.19
- Erp 2009 125 ec p.20
- E sv series pumps p.20
- Special features benefits p.21
- Special configurations p.21
- Identification code p.21
- E sv series version with hydrova p.21
- Benefits of e svh with hydrova p.21
- Background and context p.21
- Typical example of energy savings p.22
- Operating principle p.22
- Lowara p.22
- E sv series version with hydrova p.22
- Heating ventilation and air conditioning hvac p.23
- Water treatment p.23
- Water supply and pressure boosting p.23
- Typical applications of e sv series electric pumps p.23
- Pharmaceutical and food beverage industries p.23
- Light industry p.23
- Irrigation and agriculture p.23
- Iso 9906 2012 grade 3b p.24
- E sv series hydraulic performance range at 50 hz 2 poles p.24
- 2900 rpm e sv p.24
- Tabella di prestazioni idrauliche serie 1sv 3sv 5sv 2p 50 hz p.25
- 3 5sv series hydraulic performance table at 50 hz 2 poles p.25
- Tabella di prestazioni idrauliche serie 10sv 15sv 22sv 2p 50 hz p.26
- 15 22sv series hydraulic performance table at 50 hz 2 poles p.26
- Tabella di prestazioni idrauliche serie sv33 46 2 poli 50 hz p.27
- 46sv series hydraulic performance table at 50 hz 2 poles p.27
- 92sv series hydraulic performance table at 50 hz 2 poles p.28
- Tabella di prestazioni idrauliche serie 66 92sv 2 poli 50 hz p.28
- Tabella di prestazioni idrauliche serie 125sv 2p 50 hz p.29
- Sv series hydraulic performance table at 50 hz 2 poles p.29
- Sv series 2 to 15 stages dimensions and weights at 50 hz 2 poles p.30
- Dimensioni e pesi serie 1sv 2 poli 50 hz p.30
- Sv series 2 to 15 stages operating characteristics at 50 hz 2 poles p.31
- Iso 9906 2012 grade 3b p.31
- 2900 rpm p.31
- Sv series 17 to 37 stages dimensions and weights at 50 hz 2 poles p.32
- Dimensioni e pesi serie 1sv 2 poli 50 hz p.32
- Sv series 17 to 37 stages operating characteristics at 50 hz 2 poles p.33
- Iso 9906 2012 grade 3b p.33
- 2900 rpm p.33
- Sv series dimensions and weights at 50 hz 2 poles p.34
- Dimensioni e pesi serie 3sv 2 poli 50 hz p.34
- 2900 rpm p.35
- Sv series operating characteristics at 50 hz 2 poles p.35
- Iso 9906 2012 grade 3b p.35
- Sv series dimensions and weights at 50 hz 2 poles p.36
- Dimensioni e pesi serie 5sv 2 poli 50 hz p.36
- Sv series operating characteristics at 50 hz 2 poles p.37
- Iso 9906 2012 grade 3b p.37
- 2900 rpm p.37
- Sv series dimensions and weights at 50 hz 2 poles p.38
- Dimensioni e pesi serie 10sv 2 poli 50 hz p.38
- Sv series operating characteristics at 50 hz 2 poles p.39
- Iso 9906 2012 grade 3b p.39
- 2900 rpm p.39
- Sv series dimensions and weights at 50 hz 2 poles p.40
- Dimensioni e pesi serie 15sv 2 poli 50 hz p.40
- Iso 9906 2012 grade 3b p.41
- 2900 rpm p.41
- Sv series operating characteristics at 50 hz 2 poles p.41
- Sv series dimensions and weights at 50 hz 2 poles p.42
- Dimensioni e pesi serie 22sv 2 poli 50 hz p.42
- Sv series operating characteristics at 50 hz 2 poles p.43
- Iso 9906 2012 grade 3b p.43
- 2900 rpm p.43
- Sv series dimensions and weights at 50 hz 2 poles p.44
- Dimensioni e pesi serie 33sv 2 poli 50 hz p.44
- Sv series operating characteristics at 50 hz 2 poles p.45
- Iso 9906 2012 grade 3b 2900 rpm p.45
- Iso 9906 2012 grade 3b p.45
- 2900 rpm p.45
- Sv series dimensions and weights at 50 hz 2 poles p.46
- Dimensioni e pesi serie 46sv 2 poli 50 hz p.46
- Iso 9906 2012 grade 3b p.47
- 2900 rpm p.47
- Sv series operating characteristics at 50 hz 2 poles p.47
- Iso 9906 2012 grade 3b 2900 rpm p.47
- Sv series dimensions and weights at 50 hz 2 poles p.48
- Dimensioni e pesi serie 66sv 2 poli 50 hz p.48
- Sv series operating characteristics at 50 hz 2 poles p.49
- Iso 9906 2012 grade 3b p.49
- 2900 rpm p.49
- Sv series dimensions and weights at 50 hz 2 poles p.50
- Dimensioni e pesi serie 92sv 2 poli 50 hz p.50
- Sv series operating characteristics at 50 hz 2 poles p.51
- Iso 9906 2012 grade 3b p.51
- 2900 rpm p.51
- Sv series dimensions and weights at 50 hz 2 poles p.52
- Dimensioni e pesi serie 125sv 2 poli 50 hz p.52
- Iso 9906 2012 grade 3b p.53
- 2900 rpm p.53
- Sv series operating characteristics at 50 hz 2 poles p.53
- Sensors p.55
- Accessories p.55
- Specifications p.56
- Sensor for detecting the presence of water based on the optoelectronic principle therefore non invasive and with no moving parts the sensor features an electronic contact on off which stops the pump if there is no water in the seal area the sensor opens the electric contact if there is no water after they factory set delay 10 seconds elapses the sensor is supplied as a kit complete with 2 metres of cable an epdm o ring gasket and a stainless steel adapter p.56
- Revisione a p.56
- Protection sensor against dry running p.56
- Operating principle p.56
- Note deriva dasol_m0004_a_sc p.56
- Modello sensore ottico di livello p.56
- General operating features p.56
- Disegnatore m caldarde p.56
- Data 26 novembre 2012 p.56
- Codice sol_m0005_a_sc p.56
- Available in two power versions depending on foreseen use p.56
- Pumps for the 33 46 66 92 125sv series the 3 8 x 1 2 adaptor ring included in the kit must also be mounted p.57
- Wiring diagram p.57
- The sensor can be directly mounted on the filling plug of the e s p.57
- Sensor kit drp hv sensor kit drp hv code 109394600 p.57
- Sensor kit drp gp sensor kit drp gp code 109394610 p.57
- Vibration monitor p.58
- Specifications p.58
- Serie e s p.58
- I aler p.58
- Vibration monitoring p.59
- Serie e s p.59
- I aler p.59
- Dimensions of oval counterflanges sv t p.60
- Dimensioni controflange ovali per 1 2 p.60
- Counterflange p.60
- According to en 1092 1 p.60
- 3sv 25 rp 1 85 10 115 16 14 4 25 5sv 32 rp 1¼ 100 13 140 16 18 4 25 10sv 40 rp 1½ 110 14 150 19 18 4 25 15 22sv 50 rp 2 125 16 165 24 18 4 25 33sv 65 rp 2½ 145 16 185 23 18 4 16 46sv 80 rp 3 160 17 200 27 18 8 16 66sv 92sv 100 rp 4 180 18 220 31 18 8 16 p.60
- Sv g n according to en 1092 1 p.60
- Dimensions of weld on round p.60
- Dimensions of round threaded counterflanges sv f n r g p.60
- Dimensions of victauli p.61
- Dimensions of clamp couplings sv c p.61
- Dimensioni giunti victaulic sv2 p.61
- Dimensioni giunti clamp 1 22 sv p.61
- Couplings sv v p.61
- Special versions on request p.62
- Technical appendix p.64
- Vapour pressure vapour pressure ps and ρ density of water table p.65
- Tensione di vapore tabella tensione di vapore ps e densita ρ dell acqua p.65
- Technical appendix p.65
- Technical appendix p.66
- Table of flow resistance in 100 m of straight cast iron pipeline hazen williams formula c 100 p.66
- Tabella perdite di carico per 100 m tubazione diritta in ghisa formula hazen williams c 100 p.66
- The table is valid for the hazen williams coefficient c 100 cast iron pipework for steel pipework multiply the values by 1 41 for stainless steel copper and coated cast iron pipework multiply the values by 1 85 when the equivalent pipeline length has been determined the flow resistance is obtained from the table of flow resistance the values given are guideline values which are bound to vary slightly according to the model especially for gate valves and non return valves for which it is a good idea to check the values supplied by manufacturers p.67
- The flow resistance is calculated using the equivalent pipeline length method according to the table below p.67
- Technical appendix p.67
- Tabella lunghezza di tubazione equivalente p.67
- Flow resistance table of flow resistance in bends valves and gates p.67
- Volumetric capacity p.68
- Volume p.68
- Temperature p.68
- Technical appendix p.68
- Pressure and head p.68
- Length p.68
- Technical appendix p.69
- Further product selection and documentation xylec p.69
- Technical appendix p.70
- Further product selection and documentation xylec p.70
- Enntech p.72
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Узнайте, как интеллектуальная система управления насосами оптимизирует работу, экономит энергию и защищает оборудование от повреждений. Эффективные решения для вашего бизнеса.