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111
Rotarty LobePumps
FLUID TRANSFER PRODUCTS
6
Dirt-Air Seperator
Montage İnformation,Heat Systems:Near the exit of boilerCooling Systems:Near the entrance of chiller
Operating Conditions,Max. Pressure: 10 barMax. Temperature: 110°C
Material,Body: St37 SteelSeparator: AISI304
Threaded Connection (Combi System),Nickel-brass coated bodyLeaktightness NBR
Operating Conditions,Max. Pressure: 10Max. Temperature: 100°C
Dimensions (mm)
DN L LK H h d (HA)
50 300 270 475 330 1/2’’
65 300 270 475 330 1/2’’
80 400 360 600 400 1/2’’
100 400 360 600 400 1/2’’
125 600 520 800 540 1/2’’
150 600 520 800 540 1/2’’
200 750 625 950 615 3/4’’
250 850 750 1120 710 3/4’’
300 950 850 1350 915 1’’
350 1100 1000 1500 1050 1’’
400 1200 1100 1700 1225 1’’
Dimensions (mm)d1 L H h
1/2’’ 63 140 293/4’’ 69 143 331’’ 81 146 361¼ 93 145 411½ 111 156 452’’ 135 166 51
StrainerDN 1/2’’ 3/4’’ 1’’DN 115 mm 156 mm 190 mm
Air DrainerDN 1/2’’ 3/4’’ 1’’DN 115 mm 156 mm 190 mm
*Dimensions can be changed. * It is produced as project and application dimension.
Single device that can separate existing air and dirt from the cooling and heating systems.
Blind Tap
1122
MIT Lobe pumps are self priming valveless and positive displacement pumps. Each MIT pump is a special
solution. MIT pumps are designed to provide the needs of the application completely.
MIT LOBE PUMPS
Characteristics of MIT Lobe Pumps - Low, medium and high viscosity fluids can be used seam-
lessly transfers with positive displacement specification- Easy assembly and maintenance- Viscous, abrasive or surface precision fluids easily transmit-
ting- 4 different rotor options are avaible. Those are 2 lobe rotor, 3
lobe rotor, butterfly rotor and single butterfly rotor.- Two lobe options for products containing solid particles.- Double (flush) cartridge mechanical seal, mechanical seal,
carbide seal (for applications such as jams and glucose)- Input / output as standard sidewards to the pump can easily
convert from the top inlet / bottom outlet.- Ability to return in both directions (Clockwise and counter-
clockwise)- The gearbox is made of cast iron epoxy paint coated with a
protective coating- All shaft, rotor and pump body are made of AISI 316 stainless
steel.- Surfaces contact with fluid material quality because of AISI
316 steinles steel are used in applications hygiene requires.- Threaded, flanged and bushed suitable food connection
properties is available.
MIT Lobe Pumps Working PrinciplePump inlet as the rotor rotates the volume increases on the line. Moved to pump outlet the fluid between the rotor and the inner wall of the pump. These pumps basically rotating within body without contact each other three or two rotor consists of lobe. Rotation of the pair of rotors defined by the direction of ro-tation of the drive unit that the suction side of the pump creates a vacuum. This vacuum draws fluid into the pump housing. The rotation of the rotor as a result of the reduction of the output volume is transferred to the output line.
1133
Advantages of the MIT LOBE PUMPS
Lobe Pump Selection-Related Information
• Mid-size solids can be transferred.• There is no friction between surface materials during liquid transfer.• The pump can be cleaned while connected to the service line.• It has positive absorption ability.• Quiet working• Heating jacket with optional pump• preventing freezing of the fluid passing through the material provides an easy flow.• Without impairing product characterized performs the transfer to be transferred seamlessly• Optional removable wheels on the chassis, making the panel application provides ease in different areas, all that needs to be done
is the clipboard connection of electric line of on the chassis.• Taking energy from the vehicle without taking up space on them for land vehicles, especially the energy of food tankers discharge
and filling operations it provides convenience.• The transfer of high-viscosity products is accomplished without problem.
Lobe pump selections made, the characteristics of the product to be transferred, the line to be transferred properties are desired technical details. Requested these values detailed shows below table.
REQUIRED DETAILS EXAMPLE INFORMATION
Type of Fluid Chocolate, honey, ayran etc.
Flow of Fluids m3/h, L/h, ton/h v.b.
Fluid Pressure Bar, mSS v.b.
Fluids Viscosity cP, cSt v.b.
Fluid Temperature °C
Density of Fluid g/cm3
Designed to prevent freezing in the pump of the product “Heating jacket” on the pump according to demand application.It is maintained.
1144
ModelFlow
(m3/h)Pressure
(Bar)Motor Power
(kW)Recommended
(min-1)
Inlet-Outlet Connection Dimensions
MLP-20
1-2 20 3,0
100-4501”-DN25
DIN, SMS, DF, RJT
1-3 15 2,2
1-3 12 1,5
1-3 9 1,1
1-3 5 0,75
MLP-23
2-5 20 4,0
100-4501,5”-DN40
DIN, SMS, DF, RJT
2-5 15 3,0
2-5 12 2,2
2-5 9 1,5
2-5 5 1,1
MLP-25
3-7 15 5,5
100-4502”-DN50
DIN, SMS, DF, RJT
3-7 10 4,0
3-7 7 3,0
3-7 4 2,2
MLP-30
5-10 20 7,5
100-4002”-DN50
DIN, SMS, DF, RJT
5-10 12 5,5
5-10 8 4,0
5-10 4 3,0
MLP-36
6,5-13 18 7,5
100-4002,5”-DN50
DIN, SMS, DF, RJT
6,5-13 10 5,5
6,5-13 7 4,0
6,5-13 3 3,0
MLP-55
7-14 12 7,5
100-4002,5”-DN65
DIN, SMS, DF, RJT
7-14 9 5,5
7-14 6 4,0
7-14 3 3,0
MLP-60
8-16 10 7,5
100-4003”-DN80
DIN, SMS, DF, RJT
8-16 9 5,5
8-16 5 4,0
8-16 3 3,0
MLP-70
15-31 18 15
100-3603”-DN80
DIN, SMS, DF, RJT
15-31 12 11
15-31 9 7,5
15-31 5 5,5
MLP-80
20-40 15 15
100-3603”-DN80
DIN, SMS, DF, RJT
20-40 10 11
20-40 7 7,5
20-40 4 5,5
MLP-100
25-50 10 11
100-3604”-DN100
DIN, SMS, DF, RJT25-50 6 7,5
25-50 3 5,5
MLP-125
31-62 10 15
100-3605”-DN125
DIN, SMS, DF, RJT31-62 7 11
31-62 4 7,5
1155
Maintenance and Repair
Working Principle related information
Volume increases as the rotor rotates in the pump inlet line and pump the fluid into the drifts. Between the rotors and the inner wall of the pump fluid is moved output the pump.
lobe pumps are reliable performance for demanding applications, trouble-free operation and is designed to provide superior energy efficiency. This hygienic pumps, less damage to the product and meets high standards in low pressure.
maintenance of the lobe pump, without the workshop due to compact design, can be made with ease and in a very short time in the field.
Separation of the electrical connection on the pump motor is required before the pump maintenance. After this process is done, pump maintenance and repair can be done.
• Maintenance and changing of Lobes, the coupling between the pump and engine and the pump with line connections can be made with the bolts without removing the front co-ver removed.
• In this section, The lobes that are easily removed, cleaning
and maintenance can be performed.
• The front body to change the seal needs to be removed. Body also reveling operation can be performed in a simple way.
• The threaded portion of the oil reservoir drain oil at perio-dic intervals is replaced by the plug opening. In this way, the threaded life will be monitored for increase
• The necessary cleaning is done after they are removed all the parts way back again onto the body and the pump assemb-led is activated. The direction of rotation of the motor when commissioning the pump according to electrical connecti-ons must be made.
Shape 1 Shape 2 Shape 3 Shape 4
Rotor shaftPawn shaft
1166
Areas of Usage
In the food industry;- Yoghurt, Cheese, Butter, Cottage cheese- Ice cream, Cream- Caramel- Molasses- Jam- Honey- Olive oil- Tomato Puree- Ketchup, Mayonnaise- Chocolate
In the paper industry; - Saban Solutions- Pulp- Colourant- Adhesives- Lime Mixtures
Beverage industry; - Milk- Ayran- Fruit juices- Beer, wine- Vinegar
In the cosmetic and pharmaceutical industry; - Hair gel- Soap- Detergent- Shampoo- Tooth paste- Vaseline- Hand cream
1176
Areas of Usage
In the food industry;- Yoghurt, Cheese, Butter, Cottage cheese- Ice cream, Cream- Caramel- Molasses- Jam- Honey- Olive oil- Tomato Puree- Ketchup, Mayonnaise- Chocolate
In the paper industry; - Saban Solutions- Pulp- Colourant- Adhesives- Lime Mixtures
Beverage industry; - Milk- Ayran- Fruit juices- Beer, wine- Vinegar
In the cosmetic and pharmaceutical industry; - Hair gel- Soap- Detergent- Shampoo- Tooth paste- Vaseline- Hand cream Hygienic Centrifuge
PumpsFLUID TRANSFER PRODUCTS
1182
MIT hygienic centrifuge pumps are used in food, pharmaceutical and cosmetics industries. Clamp type
connection is used. 316 L stainless steel is used for body material.
MIT HYGIENIC CENTRIFUGAL PUMPS
Special design of its fan and cover it reduces friction and eli-minates non hygienic blind spots. Also with the special design velocity of the fluid reaches maximum levels and with easy montage and de-montage it gives user easy maintenance and cleaning option.
Technical features:Max flow rate: 150 m3/hMax Head: 70 mMax Temperature: 120°C (30 minutes at CIP/SIP applications)Max rpm: 3600 rpm Materials;Body and Fan: AISI 316LGasket: EPDM (suitable for food)Mechanical shaft seal
3
Kapsamlı Performans Grafiği
0 10 20 30 40 50 80 110 Q (m3/h)
H (m)
75
60
45
30
15
0
MP-40-II
MP-20-I MP-20-II
MP-25
MP-30
MP-35-I
MP-35-II
MP-40-IMP-10
MP-15
119
3
Kapsamlı Performans Grafiği
0 10 20 30 40 50 80 110 Q (m3/h)
H (m)
75
60
45
30
15
0
MP-40-II
MP-20-I MP-20-II
MP-25
MP-30
MP-35-I
MP-35-II
MP-40-IMP-10
MP-15
120
ModelMotor
kWPB ø A B C D M F G H L W E C H E
MP-101,5 1,5” 1,5” 189 32 63 60 190 136 163 240 140 360 528 210 70 222 392 102
2,2 1,5” 1,5” 189 32 63 60 210 136 163 240 140 360 528 210 70 242 392 102
MP-151,5 2” 1,5” 250 32 90,5 42 190 155 186 240 140 360 551 210 70 222 392 102
2,2 2” 1,5” 250 32 90,5 42 210 155 186 240 140 360 551 210 70 242 392 102
MP-20-I
MP-20-II
2,2 2” 2” 250 32 85 45 210 170 186 240 140 360 551 210 70 242 392 102
3 2” 2” 250 32 85 45 230 170 175 300 160 430 599 260 70 262 462 102
4 2” 2” 250 32 85 45 222 170 175 300 190 430 599 260 70 254 462 102
5,5 2” 2” 250 32 85 45 252 170 197 330 216 470 737 310 70 284 502 102
7,5 2” 2” 250 32 85 45 252 170 197 330 216 470 737 310 70 284 502 102
MP-254 2” 1,5” 268 32 108 56 222 190 173 300 190 430 597 260 70 254 462 102
5,5 2” 1,5” 268 32 108 56 252 190 195 330 216 470 735 310 70 284 502 102
MP-305,5 2” 1,5” 268 32 108 56 252 190 195 330 216 470 735 310 70 284 502 102
7,5 2” 1,5” 268 32 108 56 252 190 195 330 216 470 735 310 70 284 502 102
MP-35-I11 2,5” 1,5” 350 36 131 68 290 229 240 450 254 575 860 375 102 322 607 102
15 2,5” 1,5” 350 36 131 68 290 229 240 450 254 575 860 375 102 322 607 102
MP-35-II15 2,5” 2” 350 36 131 68 290 229 240 450 254 575 860 375 102 322 607 102
18,5 2,5” 2” 350 36 131 68 290 229 240 515 254 575 885 375 102 322 607 102
MP-40-I
MP-40-II
11 3” 2,5” 303 36 105 73,5 290 213,5 240 450 254 575 870 375 102 322 607 102
15 3” 2,5” 303 36 105 73,5 290 213,5 240 450 254 575 870 375 102 322 607 102
18,5 3” 2,5” 303 36 105 73,5 290 213,5 240 515 254 575 895 375 102 322 607 102
22 3” 2,5” 303 36 105 73,5 310 213,5 240 515 279 625 946 400 102 342 657 102
30 3” 2,5” 303 36 105 73,5 330 213,5 267 580 318 670 1014 440 102 362 702 102
MIT Hygienic Centrifugal Pump Schedule
4
121
Performance Curve
5
30
20
10
0
25
20
15
10
5
0
40
30
20
10
0
40
30
20
10
0
60
50
40
30
20
10
0
50
40
30
20
10
0
0 4 8 12 16 Q(m3/h)0 2,5 5 7,5 10 12,5 15 Q(m3/h)
0 10 20 30 Q(m3/h) 0 10 20 30 Q(m3/h)
0 5 10 15 20 25 Q(m3/h)0 2 4 6 8 10 12 Q(m3/h)
NPSHrNPSHr
NPSHr NPSHr
NPSHrNPSHr
Q-P
Q-P
Q-PQ-P
Q-PQ-P
Q-HQ-H
H(m)H(m)
H(m) H(m)
H(m)H(m)
Q-HQ-H
Q-HQ-H
% 095% 090% 085
% 095% 090% 085 (50 hz) ø 160/ (60 hz) ø 135
(50 hz) ø 135/ (60 hz) ø 105
(50 hz) ø 165/ (60 hz) ø 140
(50 hz) ø 165/ (60 hz) ø 140
(50 hz) ø 200/ (60 hz) ø 170
(50 hz) ø 200/ (60 hz) ø 170
MP-15MP-10
MP-20-1 MP-20-2
MP-30MP-25
3
2
1
3
2
1
6
5
4
3
2
1
7
6
5
4
3
2
1
10
8
6
4
2
6
5
4
3
2
1
% 095% 090% 085
% 095% 090% 085
% 095% 090% 085
% 095% 090% 085
m/(kw)m/(kw)
m/(kw)
m/(kw)
m/(kw)
m/(kw)
122
Centrifugal Pumps with Magnetic Coupling
FLUID TRANSFER PRODUCTS
6
Performance Curve
Optional Features
MIT hygienic centrifuge pumps can be produce in various op-tions.
It can be easily used on a wheeled chassis portably and with adding a control panel to this chassis.
Only thing here is to connect the control panel to a power grid.
80
70
60
50
40
30
20
10
0
50
40
30
20
20
0
50
40
30
20
10
0
0 5 10 15 20 25 30 35 40 Q(m3/h)
0 20 40 60 80 100 Q(m3/h)0 20 40 60 80 100 Q(m3/h)
NPSHr
NPSHrNPSHr
Q-P
Q-PQ-P
H(m)
H(m)H(m) m/(kw)
m/(kw)
m/(kw)
Q-H
Q-HQ-H
(50 hz) ø 240/ (60 hz) ø 205
(50 hz) ø 190/ (60 hz) ø 160(50 hz) ø 170/ (60 hz) ø 145
MP-35-2
MP-40-2MP-40-1
8
7
6
5
4
3
2
1
5
4
3
2
1
4
3
2
1
% 095% 090% 085
% 095% 090% 085
% 095% 090% 085
70
60
50
40
30
20
10
00 5 10 15 20 25 30 35 40 Q(m3/h)
NPSHr
Q-P
H(m)
Q-H
(50 hz) ø 228/ (60 hz) ø 196MP-35-1
5
4
3
2
1
% 095% 090% 085
m/(kw)
123
Centrifugal Pumps with Magnetic Coupling
FLUID TRANSFER PRODUCTS
6
Performance Curve
Optional Features
MIT hygienic centrifuge pumps can be produce in various op-tions.
It can be easily used on a wheeled chassis portably and with adding a control panel to this chassis.
Only thing here is to connect the control panel to a power grid.
80
70
60
50
40
30
20
10
0
50
40
30
20
20
0
50
40
30
20
10
0
0 5 10 15 20 25 30 35 40 Q(m3/h)
0 20 40 60 80 100 Q(m3/h)0 20 40 60 80 100 Q(m3/h)
NPSHr
NPSHrNPSHr
Q-P
Q-PQ-P
H(m)
H(m)H(m) m/(kw)
m/(kw)
m/(kw)
Q-H
Q-HQ-H
(50 hz) ø 240/ (60 hz) ø 205
(50 hz) ø 190/ (60 hz) ø 160(50 hz) ø 170/ (60 hz) ø 145
MP-35-2
MP-40-2MP-40-1
8
7
6
5
4
3
2
1
5
4
3
2
1
4
3
2
1
% 095% 090% 085
% 095% 090% 085
% 095% 090% 085
70
60
50
40
30
20
10
00 5 10 15 20 25 30 35 40 Q(m3/h)
NPSHr
Q-P
H(m)
Q-H
(50 hz) ø 228/ (60 hz) ø 196MP-35-1
5
4
3
2
1
% 095% 090% 085
m/(kw)
1242
MIT - GemmeCotti magnetically coupled pumps are made of thermoplastic material. (Polypropylene
and PVDF). Transfer many different fluids, particularly dangerous and aggressive chemicals, such as are
used in circulation needs.
MIT - GemmeCottiMAGNETIC COUPLING CENTRIFUG PUMPS
Due to the without seal used in any environment where the-re is no a risk of problem the leaking and efflux. therefore, it is the best alternative in many applications the pump seals. This design reduces the maintenance costs, guaranteeing maximum efficiency and safety.
Magnetic coupling, what standards are available high torc NeFeBo
General Characteristics of the pumpBody and fan materials: PP / PVDFSurfaces in contact with the liquid:- O-Ring; EPDM (PP standard for pumps) Viton (PVDF standard for pumps)- Shaft: %99,7 Al2O3- Couches: PTFECMaximum capacity: 45 m3/hMaximum discharge height: 33 mSSMaximum fluid viscosity: 200 cStMaximum fluid temperature: - Maximum 70°C for PP models, max 90°C for PVDF models.Motor power: According to model between 0,12 kw and 0,15 kw changes.Connection diameter: According to Model between 1“ and 3” changes.Pressure rating: 20°C’de NP 4
1253
* According to the manufacturer may vary** optional : flange connection
HTM 4-6-10 PP/PVDFFlange
DIN PN 10
Rotation
Type of
Pump
Flange Estimates (mm)
R S T U V Z DNs DNd
HTM 4 - - - - - - - -
HTM 6 75 105 14 14 85 115 25 20
HTM 10 85 115 14 18 110 150 40 25
Type of
Pump
Engine
Flange
B3-B5
POT.
kW
Estimates (mm)
A B C D E Hs G H I *L M N O P Q
HTM 4 G 56 B 0.12 76 115 90 71 56 - 39 - 1” Female 176 34 36 80 120 ½” Male
HTM 6 G 63 B 0.25 84 143 100 80 63 18 59 6 1” Female 191 45 40 98 140 ¾” Male
HTM 10 G 71 2B 0.55 110 180 112 90 71 20 70 9 1½” Female 215 45 45 100 160 1” Male
Pump Dimensions
1264
Type of
Pump
Flange Estimates (mm)
R S T U V Z DNs DNd
HTM 15 110 153 18 18 125 168 50 40
HTM 31 125 168 18 18 145 188 65 50
HTM 40 145 188 18 18 160 203 80 65
Type of
Pump
Engine
Flange
B3-B5
POT.
kW
Estimates (mm)
A B C D E F G Hs Hd I *L M N O P Q
HTM 15 G 80 B 1,1 150 230 125 100 80 28 52 42 13 2” Male 232 66 50 135 200 1½” Male
HTM 15 G 90 S 1,5 160 240 140 100 90 28 52 42 13 2” Male 256 66 56 135 200 1½” Male
HTM 31 G 90 L 2,2 184 245 140 125 90 30 61 44 13 2½” Male 280 66 56 140 200 2” Male
HTM 31 G 100 L 3 203 264 160 140 100 30 61 44 13 2½” Male 315 66 63 140 250 2” Male
HTM 40 G 100 L 3 228 280 160 140 100 40 52 50 10 3” Male 315 82,5 63 170 250 2½” Male
HTM 40 G 112 M 4 228 280 190 140 112 40 50 50 10 3” Male 325 82,5 70 170 250 2½” Male
HTM 15-31-40 PP/PVDF
Pump Dimensions
* According to the manufacturer may vary** optional : flange connection
Flange
DIN PN 10
Rotation
1286
Our Other Product
HTM PP/PVDF
Magnetically Coupled Centrifugal PumpsQ max: 45 m3/hH max: 33 mSSMaterials: PP/PVDF
HTM SS
Magnetically Coupled Centrifugal PumpsQ max: 32 m3/hH max: 24 mSSMaterials: AISI 316
HTA
Magnetically Coupled Circulation Turbine PumpsQ max: 7 m3/h - H max: 80 mSSMaterials: AISI 316 / Hastelloy-C Titanium
HTT
Magnetically Coupled Circulation Turbine PumpsQ max: 9 m3/hH max: 50 mSSMaterials: PP/PVDF
HPP-HPF
Magnetically Coupled Palletised PumpsQ max: 1000 l/hH max: 5 barMaterials: PP/PVDF
HTPRotary Magnetically Coupled Palletised Pumps (Self-priming)Q max: 2100 l/h - H max: 13 barMaterials: AISI 316 L / Hastelloy-C Titanium
VPM / VPS / VPL
Liquid Ring Vacuum PumpsQ max: 450 m3/h - H max: 33 mSSMaterials: AISI 316/316 L SS / Alloy Hastelloy-C / Titanium
HCO
Mechanical Seals Centrifugal PumpsQ max: 58 m3/hH max: 38 mSSMaterials: PP/PVDF
HVL
Vertical Centrifugal Pumps - Open FanQ max: 57 m3/hH max: 39 mSSMaterials: PP/PVDF
HV
Monoblock Vertical Centrifugal PumpsQ max: 40 m3/hH max: 22 mSSMaterials: PP/PVDF
PVA
Cantilevered Vertical Centrifugal PumpsQ max: 24 m3/hH max: 26 mSSMaterials: AISI 316 / Titanium
129
Solenoid DoingPumps
FLUID TRANSFER PRODUCTS
6
Our Other Product
HTM PP/PVDF
Magnetically Coupled Centrifugal PumpsQ max: 45 m3/hH max: 33 mSSMaterials: PP/PVDF
HTM SS
Magnetically Coupled Centrifugal PumpsQ max: 32 m3/hH max: 24 mSSMaterials: AISI 316
HTA
Magnetically Coupled Circulation Turbine PumpsQ max: 7 m3/h - H max: 80 mSSMaterials: AISI 316 / Hastelloy-C Titanium
HTT
Magnetically Coupled Circulation Turbine PumpsQ max: 9 m3/hH max: 50 mSSMaterials: PP/PVDF
HPP-HPF
Magnetically Coupled Palletised PumpsQ max: 1000 l/hH max: 5 barMaterials: PP/PVDF
HTPRotary Magnetically Coupled Palletised Pumps (Self-priming)Q max: 2100 l/h - H max: 13 barMaterials: AISI 316 L / Hastelloy-C Titanium
VPM / VPS / VPL
Liquid Ring Vacuum PumpsQ max: 450 m3/h - H max: 33 mSSMaterials: AISI 316/316 L SS / Alloy Hastelloy-C / Titanium
HCO
Mechanical Seals Centrifugal PumpsQ max: 58 m3/hH max: 38 mSSMaterials: PP/PVDF
HVL
Vertical Centrifugal Pumps - Open FanQ max: 57 m3/hH max: 39 mSSMaterials: PP/PVDF
HV
Monoblock Vertical Centrifugal PumpsQ max: 40 m3/hH max: 22 mSSMaterials: PP/PVDF
PVA
Cantilevered Vertical Centrifugal PumpsQ max: 24 m3/hH max: 26 mSSMaterials: AISI 316 / Titanium
130
MIT Solenoid Dosing Pumps, acid, chlorine, liquid manure etc. Designed to be used in place that should be
given in doses of chemicals are precision dosing device. (pool, drinking water, agricultural irrigation)
MIT SOLENOID DOSING PUMPS
Dosing Pumps electronically operated electro-magnet dosing pumps. Flow is provided by the movement of the diaphragm. Magnet pulls the piston diaphragm is formed by pulses coming from electronic circuits and thus consists of the maximum stro-ke. Diaphragm pump pushes the solution which is connected to the steel core.
Suction valve closes the suction mouth. Pressing the discharge outlet valve opens and press solution the delivery tube. Mag-nets finished after the suction check valve opens, discharge check valve closes, thus, the liquid is drawn into the pump head. Frequency adjustments should be made slowly.
5 lt / 5 bar Analogue Dosing Pump
• Injector • Sorption Filter
• PE Delivery Höse • PVC Sorption Höse
Specifications- Stroke rate can be adjusted via a potentiometer on Design- Due to the vertical design it is easy to install and flexible ins-
tallation, Usege- All plastic body which ensures high durability against corrosi-
ve chemicals- The electromagnet is controlled by the electronic circuit and
durable Teflon (PTFE) diaphragm- Less maintenance because of the ceramic ball design- Together with discharge and suction accessories
2
131
Chlorine Dosage
MIT Solenoid Dosing Pumps usage is very common. Sodium hypochlorite solution prepared for drinking water and process water disinfection, drinking water disinfection applications for dosing suitable calcium hypochlorite solution; dosing of pre-ferred dichloro solution for pool water disinfection is used.
When MIT Solenoid Dosing Pumps make selection, The water will be held daily and hourly amount of chlorine dosing ( flow ); chlorine dosing to be done in the line pressure values must be known. It is possible to make the chlorine dosage from dif-ferent points. chlorine dosage, the pipeline that goes to the water tank, even if it does not have any water tank, it is possible to make directly line.
The most important factor to be considered while chlorine do-sing is to provide adequate waiting period.
3
132
Seri 12 Lt / 10 B
Bar1 2 3 4 5 6 7 8 9 10 11
3,500
3,000
2,500
2,000
1,500
1,000
0,500
0,000
Lt
Seri 15 Lt / 5 B
Bar1 2 3 4 5 6 7
5,400
5,200
5,000
4,800
4,600
4,400
Lt
Pressure-Flow Chart
Areas of Usage- Swimming Pools- Chemical fluid transfer- Car Wash Fluids- Cooling Towers- Reverse Osmosis (RO) Systems- Original Equipment Manufacturers
Technical Specifications
Feeding AC 230 V 50-60 Hz
Suction Line Max. Height 1,5 mt
Pressing Line Max. Distance 4 mt
Capacity 5 L/H-5 Bar, 2 L/h-10 Bar
Operating Environment Temp. 0-50°C
Chemical Heat 0-45°C
Weight 1,7 Kg
Capacity Adjustment 0-150 st/dk
Control Type Manuel, on-off
Chemical Heat 0-45°C
Protection Class IP 65
Raw Materials Used according to Parts
Used Parts Raw Material
Rekors PP-PVDF**
Pump Body PP
Suction Team EPDM, Viton, Silikon, Neopren, Zirkonyum Bilye
Press Team EPDM, Viton, Silikon, Neopren, Zirkonyum Bilye
Headset Zirkonyum Bilye
Diaphragm PTFE
Pump Head PP
O-Rings VITON
Aspiration Pipe PVC
Pressing Pipe PE
Schnorkel PVC
** Capacity values were obtained as a result of tests made un-der standard conditions with water.
4
1346
Chemical Resistance List
Kim
yasa
lFo
rmül
Cam
PVD
FPP
PVC
SS31
6PM
MA
Has
tello
yPT
FEFP
MEP
DM
NBR
PEN
eopr
ene
Silic
one
Acet
ic A
cid,
Max
75%
CH3CO
OH
21
11
13
11
31
31
31
Alum
iniu
m S
ulph
ate
Al2(S
O4) 3
11
11
11
11
11
11
11
Amin
esR-
NH
21
21
31
---
11
32
41
---
---
Calc
ium
Hyd
roxi
deCa
(OH
) 21
11
11
11
11
11
11
1
Calc
ium
Hyp
ochl
orite
Ca(O
Cl) 2
11
11
31
11
11
31
22
Copp
er S
ulph
ate
CuSO
41
11
11
11
11
11
11
1
Ferr
ic C
hlor
ide
FeCl
31
11
13
11
11
11
11
2
Hyd
roflu
oric
Aci
d 40
%H
F3
11
23
32
11
33
13
3
Hyd
roch
loric
Aci
dH
Cl1
11
13
11
11
33
12
2
Hyd
roge
n Pe
roxi
de
30%
H2O
21
11
11
31
11
23
12
1
Nitr
ic A
cid
65%
HN
O3
11
23
23
11
13
32
33
Phos
phor
ic A
cid
50%
H3PO
41
11
12
11
11
13
12
1
Pota
ssiu
m P
erm
anga
te
10%
KMnO
41
11
11
11
11
13
1--
---
-
Sodi
um B
isulp
hate
NaH
SO3
11
11
21
11
11
11
11
Sodi
um C
arbo
nate
Na2
CO3
21
11
11
11
21
11
11
Sodi
um H
ydro
xide
NaO
H2
11
11
11
12
12
11
2
Sodi
um H
ypoc
hlor
ite
12,5
%N
aOCl
+NaC
l1
12
13
11
11
12
11
2
Sulp
huric
Aci
d -8
5%H
2SO4
11
11
23
11
13
31
33
Sulp
huric
Aci
d -9
8,5%
H2SO
41
13
33
31
11
33
33
3
1: D
ayan
ıklı
2: İ
yi
3: D
ayan
ıksız
135
Air DiaphragmPumps
FLUID TRANSFER PRODUCTS
6
Chemical Resistance List
Kim
yasa
lFo
rmül
Cam
PVD
FPP
PVC
SS31
6PM
MA
Has
tello
yPT
FEFP
MEP
DM
NBR
PEN
eopr
ene
Silic
one
Acet
ic A
cid,
Max
75%
CH3CO
OH
21
11
13
11
31
31
31
Alum
iniu
m S
ulph
ate
Al2(S
O4) 3
11
11
11
11
11
11
11
Amin
esR-
NH
21
21
31
---
11
32
41
---
---
Calc
ium
Hyd
roxi
deCa
(OH
) 21
11
11
11
11
11
11
1
Calc
ium
Hyp
ochl
orite
Ca(O
Cl) 2
11
11
31
11
11
31
22
Copp
er S
ulph
ate
CuSO
41
11
11
11
11
11
11
1
Ferr
ic C
hlor
ide
FeCl
31
11
13
11
11
11
11
2
Hyd
roflu
oric
Aci
d 40
%H
F3
11
23
32
11
33
13
3
Hyd
roch
loric
Aci
dH
Cl1
11
13
11
11
33
12
2
Hyd
roge
n Pe
roxi
de
30%
H2O
21
11
11
31
11
23
12
1
Nitr
ic A
cid
65%
HN
O3
11
23
23
11
13
32
33
Phos
phor
ic A
cid
50%
H3PO
41
11
12
11
11
13
12
1
Pota
ssiu
m P
erm
anga
te
10%
KMnO
41
11
11
11
11
13
1--
---
-
Sodi
um B
isulp
hate
NaH
SO3
11
11
21
11
11
11
11
Sodi
um C
arbo
nate
Na2
CO3
21
11
11
11
21
11
11
Sodi
um H
ydro
xide
NaO
H2
11
11
11
12
12
11
2
Sodi
um H
ypoc
hlor
ite
12,5
%N
aOCl
+NaC
l1
12
13
11
11
12
11
2
Sulp
huric
Aci
d -8
5%H
2SO4
11
11
23
11
13
31
33
Sulp
huric
Aci
d -9
8,5%
H2SO
41
13
33
31
11
33
33
3
1: D
ayan
ıklı
2: İ
yi
3: D
ayan
ıksız
1362
Diaphragm pumps which work with air can be used in various areas in industrial works. It works as the same principle with lift and force pumps. Diaphragm pumps works with air instead of electricity motors with help of a compression motor that supplies demand of the pumps air according to its own flow rate and pressure values.
Due to pumps non-electric motor it has an ex-proof feature. For this reason this pump can serve under oil, solvent and many other flammable material containing work spaces. Besides having deep vacuum and dry working features this pumps flow rate and pressure can be easily adjustable.
Considering all this reasons air working pumps can serve at various areas of industry like transfer, circulation, injection, filling.
MIT DIAPHRAGM TRANSFER PUMPS
1373
MIT 160 Series Diaphragm Pumps
MIT air diaphragm transfer pumps have multiple applications which give opportunity to be used at high flow rated and parti-culated fluids. With differing diaphragm adjustments according to flows MIT air diaphragm transfer pumps offers a longer life-time.
TECHNICAL FEATURES
Flow 16 l/dk
Pump Inlet-Outlet ¼"
Operating Pressure (max) 7 bar
Head (max) 70 m
Sucking 6 m
Operating Temperature 0 ~ +100°C
Air Inlet ¼”
Particle Permeability 1 mm
Weight 1,5 kg
MATERIAL FEATURES
Body Polypropylene (PP)
Diaphragms
SantoprenTeflonEPDMViton
Buna-NNeopren
AREAS OF USAGEMIT diaphragm pumps can easily transfer the fluid with connec-ting to the bottom of the tank.
Hea
d
Capacity per Minute (lt/dk)
bar7
6
5
4
3
2
1
00 2 4 6 8 10 12 14 16 18
1,8 m3/h (air inlet flow)
MIT 160 (¼”) Plastic Pumps Performance Curve
3,5 m3/h
5,2 m3/h
6,9 m3/h
8,6 m3/h
10 m3/h
1,4 bar
2,8 bar
4,1 bar
5,5 bar
6,7 bar (hava giriş basıncı)
MIT 160 (¼”) Plastic Pump
1384
MIT 550 Series Diaphragms Pumps
MIT 550 series offers the user to choose the most effective app-lication for various chemicals with plastic and aluminum body.
TECHNICAL FEATURES
PlasticBody
MetalBody
Flow 55 l/dk 55 l/dk
Pump Inlet-Outlet ¾” ¾"
Operating Pressure (max) 7 bar 7 bar
Head (max) 70 m 70 m
Sucking 6 m 6 m
Operating Temperature 0 ~ +100°C -18 ~ +100°C
Air Inlet ¼” ¼”
Particle Permeability 3 mm 3 mm
Weight 4,2 kg 4,9 kg
MATERIAL FEATURES
BodyPolipropilen (PP)
ALUMINIUM
Diaphragms
SantoprenTeflonEPDMViton
Buna-NNeopren
AREAS OF USAGEMIT diaphragm pumps can also be used as submerged pumps. To do this air release pipe should go above the water level to keep pumps exhaust for releasing the air.
MIT 550 (¾”) Plastic PumpMIT 550 (¾”) Metal Pump
Hea
d
MIT 550 (¾”) Plastic and Metal PumpsPerformance Curve
6,9 m3/h
24,5 m3/h
10 m3/h
26,95 m3/h
13,4 m3/h
30 m3/h
17 m3/h
34 m3/h
20,5 m3/h
Capacity per Minute (lt/dk)
bar
7
6
5
4
3
2
1
00 10 20 30 40 50 60
3,6 m3/h (air inlet flow)
6,7 bar (hava giriş basıncı)
1,4 bar
2,8 bar
4,1 bar
5,5 bar
1395
MIT 1500 Series Diaphragms Pumps
MIT air diaphragm pumps are commonly used at marine in-dustry. Bilge water discharge, sanding, scrape and rusted was-tes are also in the line of work of this pump. Air diaphragm pumps are also used at transferring and storing most of the chemicals which used at dye houses and press machines paint circulations which used at textile industry. With the color and press capacity of the machine a different pump can be used for every color.
TECHNICAL FEATURES
PlasticBody
MetalBody
Flow 150 l/dk 150 l/dk
Pump Inlet-Outlet 1" 1"
Operating Pressure (max) 7 bar 7 bar
Head (max) 70 m 70 m
Sucking 6 m 6 m
Operating Temperature 0 ~ +100°C -18 ~ +100°C
Air Inlet ½" ½”
Particle Permeability 4 mm 4 mm
Weight 8 kg 9 kg
MATERIAL FEATURES
Body
Polipropilen (PP)ALUMINIUM
STAINLESS STEELNODULAR CAST IRON
Diaphragms
SantoprenTeflonEPDMViton
Buna-NNeopren
MIT 1500 (1”) Plastic PumpMIT 1500 (1”) Metal Pump
MIT 1500 (1”) Plastic and Metal PumpsPerformance Curve
35 m3/h
40 m3/h
50 m3/h
16 m3/h
67 m3/h
20 m3/h
Capacity per Minute (lt/dk)
bar
7
6
5
4
3
2
1
00 20 40 60 80 100 120 140 160
Hea
d
10 m3/h (air inlet flow)
6,7 bar (hava giriş basıncı)
1,4 bar
2,8 bar
4,1 bar
5,5 bar
1406
MIT 4000 Series Diaphragms Pumps
MIT air diaphragm pumps are very useful at cleaning oil and sludge which occurred at storage basins of petrol products. These pumps can be used for any type of chemical, glue, sol-vents, paint or inks transfer and circulation. A MIT air diaphragm pump doesn’t require any electrical engine due to this reason it has a resistance to explosion and combustion which called the Ex-proof feature. It can be used in transferring and storing paint and glue materials. For water based fluids nitrile caoutc-houc diaphragm can be used and for solvent based fluids PTFE diaphragm can be used.
TECHNICAL FEATURES
PlasticBody
MetalBody
Flow 400 l/dk 400 l/dk
Pump Inlet-Outlet 1½" 1½”
Operating Pressure (max) 7 bar 7 bar
Head (max) 70 m 70 m
Sucking 6 m 6 m
Operating Temperature 0 ~ +100°C -18 ~ +100°C
Air Inlet ¾" ¾”
Particle Permeability 6 mm 6 mm
Weight 20,5 kg 25 kg
MATERIAL FEATURES
Body
Polipropilen (PP)ALUMINIUM
STAINLESS STEELNODULAR CAST IRON
Diaphragms
SantopreneTeflonEPDMViton
Buna-NNeoprene
MIT 4000 (1½”) Plastic PumpMIT 4000 (1½”) Metal Pump
MIT 4000 (1½”) Plastic and Metal PumpsPerformance Curve
69 m3/h
85 m3/h
35 m3/h50 m3/h
Capacity per Minute (lt/dk)
bar
7
6
5
4
3
2
1
00 50 100 150 200 250 300 350 400
Hea
d
16 m3/h (air inlet flow)
6,7 bar (hava giriş basıncı)
1,4 bar
2,8 bar
4,1 bar
5,5 bar
1417
MIT 5600 Series Diaphragms Pumps
MIT air diaphragm pumps are used in transferring acid and chemical based sludge and dewatering sedimentation sludge with pressing it to filter at water treatment plants. Transferring animal based waste in slaughtering facilities, storing and bott-ling process at fish oil industry can be referred work areas of MIT air diaphragm pumps.
TECHNICAL FEATURES
PlasticBody
MetalBody
Flow 560 l/dk 560 l/dk
Pump Inlet-Outlet 2" 2"
Operating Pressure (max) 7 bar 7 bar
Head (max) 70 m 70 m
Sucking 6 m 6 m
Operating Temperature -18 ~ +100°C -18 ~ +100°C
Air Inlet ¾” ¾”
Particle Permeability 6 mm 6 mm
Weight 30 kg 32 kg
MATERIAL FEATURES
Body
Polipropilen (PP)ALUMINIUM
STAINLESS STEELNODULAR CAST IRON
Diaphragms
SantopreneTeflonEPDMViton
Buna-NNeoprene
MIT 5600 (2”) Plastic PumpMIT 5600 (2”) Metal Pump
MIT 5600 (2”) Plastic and Metal PumpsPerformance Curve
135 m3/h
169 m3/h
67 m3/h
100 m3/h
Capacity per Minute (lt/dk)
bar
7
6
5
4
3
2
1
00 75 150 225 300 375 425 500 575
Hea
d
33 m3/h (air inlet flow)
6,7 bar (hava giriş basıncı)
1,4 bar
2,8 bar
4,1 bar
5,5 bar
1428
MIT 8900 Series Diaphragms Pumps
MIT air diaphragm pumps are used in ceramic industry for trans-ferring sludge and mold filling purpose. Beside this it can also be used at sealing sector with circulation and spraying purpose.
TECHNICAL FEATURES
PlasticBody
MetalBody
Flow 890 l/dk 890 l/dk
Pump Inlet-Outlet 3" 3"
Operating Pressure (max) 7 bar 7 bar
Head (max) 70 m 70 m
Sucking 6 m 6 m
Operating Temperature -18 ~ +100°C -18 ~ +100°C
Air Inlet ¾” ¾”
Particle Permeability 8 mm 8 mm
Weight 49 kg 51 kg
MATERIAL FEATURES
Body
Polipropilen (PP)ALUMINIUM
STAINLESS STEELNODULAR CAST IRON
Diaphragms
SantopreneTeflonEPDMViton
Buna-NNeoprene
MIT 8900 (3”) Plastic PumpMIT 8900 (3”) Metal Pump
MIT 8900 (3”) Plastic and Metal PumpsPerformance Curve
203 m3/h
235 m3/h
135 m3/h100 m3/h
171 m3/h
Capacity per Minute (lt/dk)
bar
7
6
5
4
3
2
1
00 100 200 300 400 500 600 700 800 900
Hea
d
33 m3/h (air inlet flow)
6,7 bar (hava giriş basıncı)
1,4 bar
2,8 bar
4,1 bar
5,5 bar
1439
MIT HP Series High Pressure Pumps
MIT HJ Series hygienic pumps are used in industries like food, pharmaceutical and cosmetics. Clamp type connection is used. 316 L stainless steel is used for body material.
MIT HJ Series hygienic pumps does not thins the fluid its trans-ferring and not effecting the chemical state of the fluid makes this pumps indispensable for transferring and storing milk, yo-gurt, cream, mustard, ketchup, mayo type of sensitive materials.
For transferring concentrated materials as chocolate, marmala-de, air transfer pumps are suitable which are designed based on food regulations.
TECHNICAL FEATURES
Model Flow(lt/dk)
PumpInlet-Outlet
(inch)
Operating Pressure
(max. bar)
Head(max. m)
Sucking(m)
Operating Temperature
(°C)
Air Inlet
Particle Permeabilit
(mm)
Weight(kg)
MIT HJ 550 ¾” 55 ¾” 7 70 6 -18 ~ +100 ¼” 3 6,5
MIT HJ 1500 1” 150 1” 7 70 6 -18 ~ +100 ½” 4 12,0
MIT HJ 4000 1½” 400 1½” 7 70 6 -18 ~ +100 ¾” 6 26,0
MIT HJ 5600 2” 560 2” 7 70 6 -18 ~ +100 ¾” 6 31,0
MIT HJ 8900 3” 890 3” 7 70 6 -18 ~ +100 ¾” 8 65,0
MATERIAL FEATURES
Body SS 316 L
Diaphragms
SantopreneTeflonEPDM
Neoprene
14410
MIT HP Series High Pressure Pumps
MIT HP series high pressure pumps can be used in production with sawdust, boron oil transfer, painting cabinets, spraying waste, sediment and painting removal, car service stations, crankcase wastes and burned oil gathering, industrial waste and sewage water treatment plants pumping. It can also be used in non-fluid (cake, cream) material transfer. MIT HP series high pressure pumps most prominent feature is, its high exit pressure.
TECHNICAL FEATURES
Model Flow(lt/dk)
PumpInlet-Outlet
(inch)
Operating Pressure
(max. bar)
Head(max. m)
Sucking(m)
Operating Temperature
(°C)
Air Inlet
Particle Permeabilit
(mm)
Weight(kg)
MIT HJ 1000 1” 70 1” 7 140 6 -18 ~ +100 ½” 4 10,0
MIT HJ 1600 1½” 160 1½” 7 140 6 -18 ~ +100 ¾” 6 27,0
MIT HJ 2000 2” 200 2” 7 140 6 -18 ~ +100 ¾” 6 34,0
MIT HJ 3600 3” 360 3” 7 140 6 -18 ~ +100 ¾” 8 55,0
MIT HP 1000
MIT HP 1600
MIT HP 2000
MIT HP 3600
145
Blowers &Diffusers
FLUID TRANSFER PRODUCTS
10
MIT HP Series High Pressure Pumps
MIT HP series high pressure pumps can be used in production with sawdust, boron oil transfer, painting cabinets, spraying waste, sediment and painting removal, car service stations, crankcase wastes and burned oil gathering, industrial waste and sewage water treatment plants pumping. It can also be used in non-fluid (cake, cream) material transfer. MIT HP series high pressure pumps most prominent feature is, its high exit pressure.
TECHNICAL FEATURES
Model Flow(lt/dk)
PumpInlet-Outlet
(inch)
Operating Pressure
(max. bar)
Head(max. m)
Sucking(m)
Operating Temperature
(°C)
Air Inlet
Particle Permeabilit
(mm)
Weight(kg)
MIT HJ 1000 1” 70 1” 7 140 6 -18 ~ +100 ½” 4 10,0
MIT HJ 1600 1½” 160 1½” 7 140 6 -18 ~ +100 ¾” 6 27,0
MIT HJ 2000 2” 200 2” 7 140 6 -18 ~ +100 ¾” 6 34,0
MIT HJ 3600 3” 360 3” 7 140 6 -18 ~ +100 ¾” 8 55,0