HISAKA WORKS, LTD.
PLATE TYPEHEAT EXCHANGERS
PLATE TYPEHEAT EXCHANGERS
PLATE TYPE�HEAT EXCHANGER
PLATE TYPE�PASTEURIZER
PLATE TYPE�CONDENSER
WELDED PLATE TYPE�HEAT EXCHANGER
01
EFECTIVE UTILIZATION OF RESOURCES, ENERGY-SAVINGAND HIGH PRODUCTION EFFICIENCY···THAT'S THE HEAT EXCHANGERDIVISION'S PHILOSOPHY OF RESEARCH AND DEVELOPMENT···
C O N T E N T
GASKET
EXCHANGE
PLATE TYPE
VARISTION
EXCHANGE
FEATURES
APPLICATION
PLATE TYPE HEX. 03
FEATURES OF PLATE TYPE HEX. 04
PLATES FOR PLATE TYPE HEX. 05
GASKETS FOR PLATE TYPE HEX. 06
PLATE TYPE HEX.VARIATION 07~10
APPLICATION 11 12
JUMBO PLATE HEX. 13 14
Page
FOOD
WELD
MULTI GAP
AIR CONDITIONER
CONDENSER
MAINTENANCE
WELDED PLATE HEX.(WHE) 15 16
PLATE TYPE CONDENSER 17
GX MULTI GAP PLATE 18
FX SERIES FOR FOOD APPLICATION 19
AIR CONDITIONER 20
MAINTENANCE 21 22
Page
02
WORLD WIDE LEADER IN THERMAL ENGINEERINGAs a specialist in thermal engineering with world wide presence, our vision is to promote the rational use ofthermal energy. We have been developing versatile high performance, products through the years of experi-ence in the design and manufacturing of our Plate Heat Exchangers using innovative and leading technology.
Market and Application fieldChallenging rationalization of thermal engi-neering···
HISAKA Plate Heat Exchangers are used forheating, cooling, heat recovery, heat exchang-ing, condensing, sterilization, etc.Our heat exchangers are successfully installedin all major industries such as chemical, food,steel, pulp & paper, industrial machinery, au-tomobile, oil refinery, textile, ship, air condi-tioning and power plant.HISAKA Plate Heat Exchangers have alwaysplayed a major role in thermal engineering aswell as an energy saving equipment.
Technology Licensing to OverseasOriginal proprietary technology to othercountries···
Since we started in 1953, a wide range of PlateHeat Exchangers have been developed, de-signed and manufactured, using our own origi-nal technology and engineering. We havesince then issued technical licensing to manyforeign countries such as Tranter PHE, Inc. ofUSA, Arsopi Thermal of Europe, etc.
Quality AssuranceWell established QA system···conforming ISO 9001.
We conform to most stringent quality assur-ance program as demanded by our internation-al clients.
Our products meet with the highest engineer-ing standards and of highest quality. As such,we conform to various international standardssuch as ASME, JIS, etc.
03
EXCHANGEPLATE TYPE HEAT EXCHANGERS
Since developed in 1953, HISAKA Plate Heat Exchangers have been widely used in almost all industrial fields due to the compact design and the high heat transfer efficiency.
We can offer a wide range of standard heat exchanges from0.18m2 up to 2,500m2 in total heat transfer area to meet the
diversified and individual needs.
Fundamental constructionCorrosion resistant thin plates of stain-less steel, titanium etc., are press-formed into heat transfer plates. A sealgasket is attached onto each plate.These plates are suspended from guidebar and bolted together between a fixedframe and a movable frame. Constantspacing between the plates allow thefluid to flow through. The inlet andoutlet connections are fixed onto eitherthe fixed frame or the movable frame.
Heat transfer platesEach heat transfer plate is corrugatedto various patterns to increase itsstrength and heat transfer area. Fur-thermore, the corrugation creates highturbulence and thereby achieve highheat transfer co-efficient. The plate isprovided with passage hole on eachcorner. Each plate is tight-sealed witha gasket fitted in its peripheralgroove.
Flow passageThe plates are divided into A-plate andB-plate, and a passage is formed be-tween these plates. The high tempera-ture fluid flows alternately and in theopposite direction of the other fluid.Thus high efficient transfer of heat isachieved through these plates.A-plate when reversed would becomeB-plate. As such only one type of platecan be used as A-plate and B-plate formost models.
04
14℃
13℃
1℃ 7℃
6℃
1℃
43210
FeaturesFEATURES OF HISAKA PLATE TYPE HEAT EXCHANGERS
Wide application range of standard modelsCapability range : 0.1m3/h to 5,000m3/hOperating pressure : 3.0MPaG max.Operating temperature : 180 ºC max.Surface area : 0.18m2/set to 2,500m2/setPlate materials
Stainless steel : 304SS, 316SS, 316LSS, 317LSS & othersTitanium : Ti, Pd-TiHigh Nickel alloy : C-276, C-22, B, G & othersNickel : Ni
Other materials : Conforming to the Japanese and internationalstandards as applicable.
Gasket materials : NBR, EPDM, IIR FPM, Silicone, T.C.G, etc.
High performanceThe overall heat transfer co-efficient (U-value) ranges from4,000 to 9,000 W(m2·ºC)in water application, since theplates corrugation provides high turbulent flow. This is oneof the reason why plate heat exchanger is so excellent inheat transfer co-efficient. In addition, this eddy flow alsoacts to prevent scales from generating on the plate surface.
Less required installation areaThe lightweight and compact construction reduces the re-quired installation space and the weight to 1/4 and 1/3 ofmulti-tube type heat exchanger respectively. In addition,lightweight and thin heating plate with less liquidhold facili-tates the installation work. The plate type can be disassem-bled for cleaning without isolating from main line, while themulti-tube type needs a additional space for removal of thetubes.
Prevention of liquid inter-mixingSpecial consideration is taken into the gasket so as to protectit from direct attack by liquid. Furthermore, the gasket is ofdouble-seal type so as to permit liquid draining outside theexchanger even in the case of liquid leak caused by its dete-rioration.
Easy change of required capacityAccording to change of the treating capacity, the heat trans-fer surface area can be incremented/de-cremented by un-screwing the plate clamping bolts and increasing or reducingthe number of plates.
Steam available for use as heat sourceThe use of synthetic rubber gasket of special compositionpermits to use steam as heat source, i.e operating tempera-ture range up to 180 ºC maximum.
Minimum heat radiationThe gasket acts to shield heat radiation from the vertical andhorizontal side of each plate. Heat is only radiated slightlyfrom the finned edges of this plate. In addition, the plate frontand rear in contact with the frame surface via air layer min-imizes heat radiation. This heat radiation is normally less than1% of the heating value.
Effective use of inlet-outlet temperaturedifference up to its extreme limit···The construction which permits heat-exchanging in perfectcounter flow with very high heat transfer efficiency makes itpossible to utilize the difference between hot fluid and coldfluid up to 1ºC and less.
05
PLATE TYPEPLATES FOR HISAKA PLATE TYPE HEAT EXCHANGERS
The plates are specially selected from various patterns so as to achieve optimum area andcost effective heat exchanger for each unit. These plates can be classified into three maintypes, namely.1. "Herringbone pattern" such as LX-···, UX-···, RX-···, and SX-···2. "Wash board pattern "such as EX-···, and FX-···3. "Special wave pattern" such as GX-···, and YX-···
1. Herringbone patternThe herringbone design in the LX series had corrugations with pitch which are rough and deep. In SX series, the pitch are thefine and shallow, hence LX series are used in application where low NTU is required, and SX series are best suited for highNTU application. UX/RX-type is in between LX type and SX type.
NTU of 1.5 and less is generally referred to as low NTU, and 3.0 and above is considered as high NTU
Hot temp in-Hot temp outNTU = —————————————————
LMTD
2. Wash board patternThis type of plate has less metal to metal contact and is nor-mally applied to fluid containing fibers or sludge, FX seriesare mainly used in the food industry, whereas EX series areused more conventional application, the sterilizer serieswould be referred to later.
3. Special patternGX series was developed for the transfer of fluid containingmuch slurry, YX series is used exclusively for vapor con-densation. Please refer to the other section of specific de-tails.
Even in the same series, the heat transfer characteristics of plate differs depending on angle. Shallow angle is suited to highNTU, while steep angle to low NTU. When the plates corrugated in shallow and steep angles are arranged together in a unit,intermediate thermal characteristics can be achieved.
LX series UX / RX series SX series
Shallow Angle Steep Angle Mixed Arrengement
06
FeaturesGASKET FOR HISAKA PLATE TYPE HEAT EXCHANGERS
FRAME FOR PLATE TYPE HEAT EXCHANGER
1. Universal gasketsPlate Heat Exchangers are used in almost all process industry, assuch the gaskets are specifically selected based on the operatingcondition of the fluid. A wide range of gaskets are available forHJSAKA Plate Heat Exchangers, such as NBR, EPDM, IIR,FPM, Silicon, etc.●Special Hisaka (S-1) glue shall be applied for bonding
2. Slit-In gasketsThese plate gaskets do not need adhesive. The slit-in gasket isnormally recommended for those applications where frequent re-placement of the gasket is required. Further, without the adhe-sives, odor is reduced. there is no adhesives odor for Food appli-cation.
3. PTFE cushion gasket (T.C.G)Though our own development, HISAKA pioneered the use ofPTFE cushion gaskets for the Plate Heat Exchanger. It is normal-ly used in applications where conventional synthetic rubberwould have limitations due to the corrosiveness of the fluid beinghandled. With this new development, the Plate Heat Exchangerscan be applied in much wider field than before due to the chemi-cal resistance and the durability of PTFE.●Special double adhesive tape shall be applied for bonding
Features1. Excellent chemical resistance against most chemical especially organic solvent.2. Due to the elastic center core of the T.C.G gasket, it does not require strong
tightening torque during the assembly of the unit. Thus reducing the chances ofplate deformation due to over tightening.
3. T.C.G gasket can be used for one side only, if the non-corrosive fluid is runningin the other side where conventional gasket can be used.
Plate
PTFE
NBRCaution:Do not destroy gasket by fire, since the gas is poisonous
Frame
Plate
Gasket
Flange
Stud Bolt
HEX. PIPE
RubberNozzle
Frame
Plate
Gasket
Flange
Stud Bo
Packing
HEX. PIPE
MetalNozzleNJ TYPE NP TYPE
07
PLATE TYPE HEAT EXCHANGERS VARIATION
UX-
005�
UX-
01�
UX-
10�
UX-
20�
UX-
30�
UX-
40�
UX-
90�
UX-
100/130
UX�Series
Herringbone pattern SpecificationHeight & WidthNJ-Type
Standard FrameNp-Type
UX-005
UX-01
UX-12UX-11
UX-22UX-21
UX-32UX-31
UX-42UX-41
UX-92UX-91
UX-102 UX-103 UX-104
850
300 300/675
1080
390 645~1310385
1540
550 362 788~1998
3590~
1570
2500~10000
1891
610 598~2798
2829~
1300 1760~5760
2135
760 1002~3322
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
0.018m2
15m3/h
20mm
0.087m2
50m3/h
25/50mm
0.2m2
100m3/h
50mm
0.375m2
200m3/h
100mm
0.49m2
2853/h
100mm
0.76m2
715m3/h
200mm
1.82m2
2500m3/h
350mm
2.67m2~
5000m3/h
500mm
290160
331
08
RX-
00�
RX-
10�
RX-
30�
RX-
70�
UX�Series
Herringbone pattern SpecificationStandard Frame
Height & WidthNJ-Type Np-Type
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia
0.043m2�
20m3/h�
35mm�
0.26m2�
200m3/h�
100mm�
0.62m2�
445m3/h�
150mm�
1.1m2�
1300m3/h�
250mm
Upper column : Length (mm) Lower column : Weight(kg)
All figures are apprFor detaile, please Dimension & Weight Table
UX-005�
UX-01�
UX-10�
UX-20�
UX-30�
UX-40�
UX-90�
UX- �100/130
331�
850�
1080�
1540�
1891�
2135�
2829~�
3590~
160�
300�
390�
550�
610�
760�
1300�
1570
290�
23�
300�
110�
383�
180�
362�
460
675�
157�
383�
220�
362�
500
645�
260�
362�
560
645�
320�
788�
650�
598�
800
975�
450�
988�
820�
798�
960
1588�
1190�
998�
1290
1398�
1740�
1602�
2540
2398�
2870�
2602�
3830
3300�
7100�
2900�
11000
4600�
10000�
3800�
13000
6300�
14000�
5100�
16000
6300�
19000
7260�
24400
Model Heat Transfer Surface AreaHeight(mm)
Width(mm) 1m2 5m2 10m2 15m2 30m2 60m2 100m2 200m2 500m2 800m2 1200m2 1600m2 2500m2
RX-00�
RX-10�
RX-30�
RX-70
488�
1080�
1850�
2490~
242�
450�
650�
985
500�
65�
400�
180
�
�
400�
220
�
�
790�
260
�
�
790�
320�
600�
750
�
�
995�
450�
700�
960
�
�
1000�
1200
�
�
1400�
1600�
1760�
2830
�
�
2400�
2670�
2510�
3390
�
�
4760�
5210
RX-32RX-31
RX-14RX-13
RX-02RX-01
RX-72RX-71
1850
606~2806
2490~
985 1760~5760
450
1080
400 729~1337
650
488
242 402
09
LX-
00�
LX-
10�
LX-
20�
LX-
30�
LX-
40�
LX-
50�
LX-
50�
LX�Series
Herringbone pattern SpecificationHeight & WidthNJ-Type Np-Type
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
Surface Area
Max. Flow Rate
Connection Dia
0.12m2
70m3/h
50mm
0.2m2
200m3/h
100mm
0.4m2
260m3/h
100mm
0.45m2
480m3/h
150mm
0.75m2
775m3/h
200mm
0.83m2
8003/h
200mm
Standard Frame
EX-
15�
EX-
11�
LX�Series
Herringbone pattern SpecificationHeight & WidthNJ-Type Np-Type
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia
0.314m2�
200m3/h�
100mm�
0.71m2�
640m3/h�
200mm
Standard Frame
LX-02LX-01
LX-12LX-11
LX-02
LX-12
LX-22LX-21
LX-32LX-31
LX-42LX-41
LX-52LX-51
933~2133
1593
580
1002~4402
2075
790
606~42041575~1675
650
488~688
713~3313
1995
810
787
350 392/492
460
1066
396 826~1336
1445
550788~2188
362
760
2100
1210~3410
10
SX-
70�
SX-
40�
SX-
90�
LX�Series
Herringbone pattern SpecificationHeight & Width Np-Type
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia�
Surface Area�
Max. Flow Rate�
Connection Dia
0.9m2�
940m3/h�
200mm�
0.84m2�
940m3/h�
200mm�
1.47m2�
1300m3/h�
250mm�
1.6~2.6m2�
2600m3/h�
350mm
Standard Frame
Upper column : Length (mm) Lower column : Weight(kg)
All figures are approximatFor detaile, please contacDimension & Weight Table
LX-00�
LX-10�
LX-20�
LX-30�
LX-40�
LX-50
787�
1066�
1593�
1575�
2075�
1995
350�
460�
580�
650�
790�
810
495�
130�
400�
210�
�
495�
171�
400�
270�
488�
560
792�
350�
488�
630
992�
430�
668�
700
1133�
980�
1016�
1040�
1202�
1790
1733�
1450�
1816�
1300�
1602�
2330�
1113�
1510
2616�
1610�
2002�
3020�
2313�
2350
3202�
4880
Model Heat Transfer Surface AreaHeight(mm)
Width(mm) 1m2 5m2 10m2 15m2 30m2 60m2 100m2 200m2 500m2 800m2 1200m2 1600m2
SX-40�
SX-70�
SX-90
2165~�
2692~�
3270~
805�
1070�
1290
960�
1850
1160�
2230
1760�
3240
3760�
6520�
2510�
6880�
3000�
8800
3510�
9780�
4000�
11200
5300�
15300
6300�
18700
EX-15�
EX-11�
1445�
2100
550�
760
362�
440
362�
530
788�
660
988�
770
1188�
1100�
1197�
1900
1988�
1600�
1397�
2230
1797�
2970
SX-41
SX-45SX-43
SX-42SX-44
SX-91 SX-92SX-94
SX-72SX-71
360~3760
1510~4250
2165~
805
2692~
1070
3270~
1290 1762~6262
11
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APPLICATIONAPPLICATION
CHEMICAL Sulfuric Acid cooling FOOD Skid mounted sterilizer
MARINE Engine cooler PULP&PAPER BLACK liquor heat exchanger
STEEL MILL Blast furnace cooling
APPLICATIONChemical Caustic Soda, Fertilizer, Petrochemical,
Oil Refinery, Oil & Fat, PharmaceuticalFood Milk, Beer, Soft Drink, Sauce, WineHVAC Air-conditioning, Tap water heatingSteel Mill Blast Furnace, Continuous Casting, C.O.G,
Plating & GalvanizingMetal Plating, Quenching, Anodizing, PaintingPulp & Paper Black Liquor, White Liquor, Digester,
Heat RecoveryTextile Synthetic Fiber, Spinning, Dyeing
Central Cooling (Sea water, River water), Power Station,Co-generation, Marine and many others.
12
POWER PLANT Turbine bearing cooling water cooler HVAC Air-conditioning
CO-GENERATION Hot water supply HEAT RECOVERY Dying house
CENTRAL COOLING Process cooling water cooler by sea water
APPLICATION
13
APPLICATIONHISAKA JUMBO PLATE HEAT EXCHANGER
5,000m3/h by single unit UX-100 Series
Recently, in Central Cooling System required capacity ofwater for cooling of process equipment is becoming very large.To cope with this trend, HISAKA has developed UX-l00series Plate Heat Exchangers having its connection nozzlediameter of 500mm, which is applicable for flowrate up to
5000 m3/h by single unit.The number of units to be connected in parallel in CentralCooling System can be reduced, thus installation space andcost can be saved.
Specifications (UX-100/130)
The below illustrated installation layout are examples for total flow rate of 32,000m3/h(Max.40,000m3/h)
30m18m
28m
840m2
l6units of Plate Heat Exchangers(350 mm nozzle diameter)
8units of UX-100 Plate Heat Exchangers(500 mm nozzle diameter)
32m
576m2
Connection Diameter : 500 mm (20")Max. flow rate : 5000 m3/h Overrall Dimension :
Height : 3,590 mm~Width : 1,570 mmLength : 4,000~10,000 mm
Plate material : 304SS, 316SS,Titanium etc.Gasket material : NBR, EPDM etc.
14
UX-100 Series Plates
HISAKA use one of the largest Press Machines in the world to manufacture the UX-100 series plates.The 40,000 tons giant press machine allows the UX-100 series Jumbo size plate to be manufactured withthe following unique features.
Flexible Design* Plate length, several lengths available.* Corrugation Angle, 30º, 45º, 60º and their mixed combi-
nation.Thermal length of UX-100 plates are adjustable by its di-mensional length and corrugation angles. By having corru-gation angle of 45º, more compact design can be achievedrather than mixed combination of 30º and 60º only. By ad-justing the plate thermal lengths to the required thermalcondition, the heat transfer surface area can be optimized,thus reducing the cost of the Plate Heat Exchanger.
Less Fouling* Flat area near port holes eliminate fouling at opposite cor-
ner of plates.Large flow goes through the flat area to the opposite cornerof heat transfer area. This provides even flow distribution atentire surface areas which brings efficient heat transfer andeliminate fouling deposit.
Unique Corrugation* Vertical corrugation also helps even flow distribution.* Horizontal corrugation eliminate plate's bending.
(Photo shows the very large plate still rigid when han-dled). This makes maintenance work easy.
To expect long periods continuous operation for seawater cooling application, we recommend:1) Sea water filter with opening of 3mm or less (for UX-100 series) is recommended.2) Electrolysis / Chlorine dozing is recommendable to be free from clogging of mussels and marine
growth. If it were not available, we would advise alternative ways depending on site condition.3) Periodical CIP cleaning without disassemble heat exchanger, is recommendable.
Job References:Since the first installation of UX-100 series in 1996, more than 100 units have been installed in, USA, Japan, Brazil, Holland,India. Indonesia, Iran, Mexico, Philippines, Qatar, Saudi Arabia. Singapore, and many more being shipped in 2003.
UX-100 UX-130
15
WELD WELDED PLATE HEAT EXCHANGER(WHE)High heat transfer co-efficiency owing to uniform distribu-tion of flow to entire heat transfer is by special plate's pat-tern. A couple of plates is laser welded with o-ring at portholes between the Plates, thus WHE can be used for higherpressure by two times to conventional Plate Heat Exchanger(PHE).
Chemical resistance T.C.G. o-ring and synthetic rubber areselectively used.Nozzle pitch dimensions of WHE are same to those of fol-lowing PHEsWH-40 = SX-40WX-50 = UX-40WX-90 = UX-90Therefore, PHEs can be replaced to WHE without changinglocation of connection pipes for heat exchangers. If existingPHE of model SX-40, UX-40 and UX-90 are used for ag-gressive fluid against rubber gasket, we may suggest you forreplace to WHE
Laser welding work
SpecificationsMax flow rate : 820m3/h-2300m3/hOperating pressure :4.0 MPaGMax operating temperature :180ºCConnection Diameter :200mm(8")/350mm(14")Plate material :304SS, 316SS, Titanium, High Nickel alloy etc.Gasket material :EPDM, T.C.G, FPM etc.
WX-50 WX-90
16
SUPPLY EXAMPLE (Welded Plate Heat Exchanger)
EXAMPLE OF APPLICATION
●B.T.X Recovering Process in C.O.G plant●Sulfuric Acid Production Process●B.P.A Recovering Process in Poly-resin Plant●Quench Water Cooler In Ethylene Plant●Vacuumed Condensate Cooler In Synthetic Fiber Process●Refrigeration Cycle In Heat Pump System●Pure Water Cooler
17
CONDENSERPLATE TYPE CONDENSER
Plate Type CondenserHISAKA developed the plate for exclusive application tovapor condensing in large volume. HISAKA plate typecondenser of lightweight and compact construction has theheat transfer performance of 2 to 3 times as high as the con-ventional multi-tube type and, in addition, their required in-stallation space and weight are respectively 1/2 to 1/3 of themulti-tube type. Corrosion resistant metal such as stainlesssteel, titanium, High Nickel alloy, etc. are selectively avail-able as the plate material.
YX-80 SeriesAdvantages1. Heat transfer co-efficiency is about 2 times as high as that
of multi-tube type. The condensing surface is always se-cured and the heat transfer co-efficient is improved be-cause condensed drain is immediately discharged to out-side.
2. To reduce more vapor pressure drop than the convention-al plate type, special consideration is taken in combina-tion of the vapor line plates and the cooling water lineplates.
3. Cooling water consumption equivalent to about half ofthat in conventional type.
4. The use of T.C.G gasket on the vapor and cooling mediaexpands the application to wide field.
5. Easy cleaning and inspection of plates.
6. Easy change of the condensing capacity by increasing orreducing the number of plates.
7. Because of its inlet side passage holes and outlet sideholes which are located at same side, the vapor plate canbe applied to not only an total condenser but also tocooler condenser intended for vapor which contains non-condensive gas.
Water Vapor
Vapor
WaterDrain
Water
Vapor
SpecificationsMax. flow rate : 30,000m3/hOperating pressure :-0.097MPa ~ 0.6MPaGMax. operating temperature :180ºCPlate material :304SS, 316SS, 317LSS, Titanium etc.Gasket material :NBR, EPDM, IIR, T.C.G etc.
18
GX MULTI CAP PLATE
For Slurry Containing Liquids
GX-21 provide plates clearance of 10mm for both hot andcold sides, so that heat regeneration can be performed be-tween hot and cold slurry.
Mixed plate arrangement between GX-21 & GX-22 (calledGX-23), gives biggest plate clearance of 20 mm at one side,which is available for large size particle.
GX plate provides excellent performance for particle con-taining liquid, such as slurry (PVC, latex.), sludge (quench-ing oil, plating solution, crystal (sodium hypo-chlorite, so-dium alminate, etc.)
GX series plates have bigger forming depth. Larger corruga-tion pitch and less metal to metal contact points, comparingto conventional plates, which are keys of better performancefor slurry, sludge and crystal containing liquid.
MULTI GAP
GX-20
GX-21 GX-23
GX-23 : Combination of GX-21 & GX-22
SpecificationsMax. flow rate : 200m3/hMax. operating pressure :0.7MPaGMax. operating temperature:180ºCHeat transfer area :0.32m2 per plateConnection(standard) :JIS10K (100A) /ANSI#150 (4")Plate material :304SS, 316SS, 317LSS, Titanium etc.Gasket material :A-NBR, A-EPDM etc.
19
FOODHISAKA FX SERIES PLATE HEAT EXCHANGERS FOR FOODAPPLICATION FIVE IDEA FOR EXCELLENT PERFORMANCE
Long And Slender Streamlined Plate1. Uniform flow and temperature distribution.2. Stable and long time operation.3. Excellent C.I.P effect.4. Low C.I.P cost by minimized chemical consumption
and C.I.P duration and frequency.
Notched port holes1. Air-venting from upper notch.2. Draining from lower notch.3. Preventing liquid stagnation at the bottom of port-holes.
Hanging structure1. Hangerless plate2. Easy plate's assembly and disassembly
Slit-in gasket1. Shorter gasket replacement time (1/5 of bonded type).2. Free from adhesive smell
Cleaning effect
FX-03 FX-05FX-01
Even flow distribution
Remained liquiddrainage
Hanging structure
Slit
Remained liquiddrainage
Air blow
Befor After
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FEATURES Of HISAKA PLATE HEAT EXCHANGERSFOR HVAC APPLICATIONHISAKA SX-Series Plateis especially well-suited for HYAC applications involving large temperature changes, coupled with close temperatureapproaches (HIGH NTU APPLICATION), by single pass plate's arrangement.
Recently, NTU designed for HVAC application is becoming higher and higher. By adopting large temperature changebetween inlet and outlet, circulating flow rate can be reduced. The following shows the difference in required circulatingsecondary flow rate for the duty of 1000RT.
Since the secondary water is transferred to long distance through pipes and fittings in the circulation loop between plate heatexchanger and air-handling units, smaller flow rate allows to use smaller size of pumps, pipes and fittings, which makes greatsaving on such initial cost, as well as pump running cost (lower electricity consumption).
Single Pass allows to arrange all inlet and outlet connection at fixed frame only.✩ Simple piping in plant room✩ Easy disassembling and assembling✩ Increasing or decreasing plate without
modification of piping.
1. HIGH PRESSURE RATING gives complete water tightness under high operating pressure. To prove water tightness,all the heat exchangers are tested before the shipment from our factory, at the specified test pressure in one side. The otherside is open to atmosphere so that it is tested under the biggest different pressure.
2. VARIOUS SIZES of plate are available to supply your particular thermal demands, from 0.018 m2 plate for your indi-vidual tap water heating, to Jumbo plate by for gigantic district heating & cooling system.
3. TRADITIONAL ADVANTAGES of plate heat exchangers against shell & tube heat exchangers have been develop-ing more and more, Less fouling, light weight, small installation space, flexible design, easy maintenance and less expenseare of course to your hand.
4. HEATING APPLICATION plate heat exchangers is also widely used for heating application, to hot water by meansof steam (max. 180ºC). Owing to very high heat transfer co-efficiency and small held up volume in the unit, hot water ofproper temperature can be made and fed to use in a very short time.
5. SHORTEST DELIVERY T[ME gives you a satisfaction on your schedule control. Standard components are kept inour shop for quickest delivery.
Single Pass
Multi Pass
14°C
13°C
7°C
6°C
NTU=(14-7)/1=7Required flow rate:432m3/h
12°C
11°C
7°C
6°C
NTU=(12-7)/1=5Required flow rate:605m3/h
EXCHANGE
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MAINTENANCEMAINTENANCE
CleaningIf the exchanging performance deteriorates, the plate surface must be cleaned.The performance decrement can be just judged by checking the operating temperature and pressure drop.It is recommended to predetermine a proper cleaning interval according to actual operating condition.
1. Open cleaning methodThe plates pack is disassembled and brushed.
Options
2. Portable C.I.P unitCleaning equipment cleaning machine with casters.
Special Hisaka(S-1)glue shallbe applied for bonding
Non glue use Gasket(slit-in type)
Disassembling & Regasketing
No gasket replacement is required every times
1. Short pipe used toattached instruments
2. Thermometer with well and case
3. Pressure gauge with cock
4. Automatic tightening device
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11
12
13
14
15
16
1
2
3
4
5
6
E-frame��
S-frameTightening length�
�
Tightening screw and nut
Rail��
Rail rear end��
1 11
2 12
3 13
4 14
5 15
6 16
(EX.)Model:UX-90(277m2)
Before starting the work!!The total required time is approximately 8 hours.The number of personnel required for this work is 6 persons.
Necessary tools and materials :ratchet spanner,hose,ragsbrush,grease and convex block (2m long minimum)
Pre-check items: 1) Fluid completely drained? 2) 0 pa on all pressure gauges?
( ) Please refer to each item in the table below for individual work
Work title Step procedure
Disassembly�
Required�
2 persons min.�
Time:1.5 hours
Cleaning:�
Required�
3 persons min.�
Time:2 hours
Checking:�
Required�
2 persons min.�
Time:2 hours
Assembly:�
Required�
2 persons min.�
Time:2.5 hours
Turn the nut and bolts ①⑯⑪⑥.�Loosen nut ②⑮ by 20 mm simultaneously.�Loosen nut ⑤⑫ by 20 mm simultaneously.�Loosen nut ③⑭ by 20 mm simultaneously.�Loosen nut ④⑬ by 20 mm simultaneously.�After loosening all of nuts ②③④⑤⑫⑬⑭⑮, remove the bolts ③④⑬⑭,wit⑫⑮ left.�Loosen nut ②⑮ by 20mm simultaneously.�Loosen nut ⑤⑫ by 20mm simultaneously.�Repeat step 7 and 8 until the bolts are completely removed.�
Thereafter,move E-frame to the rail rear end.�
*When E-plate is attached to E-frame, separate them from one another caE-plate and, thereafter, move E-frame to the rail rear end.�
Move one p[ate to E-flame side.�
Wash off foreign matters adhered to plate front and back.�
When difficult to completely remove foreign matter by washing, apply br
there until foreign matters are completely removed.�
Move the cleaned plate to E-frame side.�
Repeat step 1~4 until cleaning of all the plates is completed.�Move one plate to S-frame side.�
Check the gasket surface and the gasket sealing line. If any foreign ma
weed, sand, shellfish,etc. are one the line, wipethem off by a rag.�
When the gasket is separated from the plate, fix it to the gasket groov
Move the cleaned plate to S-frame.�
Repeat step 1~4 until all the plates are checked completely.�Apply rust preventative grease all to the bolts.�
Set the bolts ②⑤⑫⑮ on the Frames.�Turn the nuts ②⑤⑫⑮ to adjust the tightening dimension uniformly.�Tighten nuts ②⑮ by 5 mm simultaneously.�Tighten nuts ⑤⑫ by 5 mm simultaneously.�Repeat step 4 and 5 until further tightening gets hard.�
Set bolts ③④⑬⑭ on the frames.�Turn the nuts to adjust the tightening dimension so that it becomes equal at eac
Tighten nuts ③⑭ by 5 mm simultaneously.�Tighten nuts ④⑬ by 5 mm simultaneously.�Repeat step 9 and 10 until further tightening gets hard.�
Repeat step 4~11 until the required tightening dimension + 20 mm can beSet bolt①⑥⑪⑯ on the frames.�Tighten nuts ①⑯ by 5 mm simultaneously.�Tighten nuts ⑪⑯ by 5 mm simultaneously.�Turn the nuts until the required tightening dimension + 20 mm can be achieved at each
Repeat step 4~11 and step 14, 15 until the required tightening dimensio
*Loosen these nuts while adjusting thedifference in the tightening dimensiothe bolts is kept 20 mm or less.
*Loosen these nuts while adjusting thedifference in the tightening dimensiothe bolts is kept 20 mm or less.
*Tightening these nuts white adjusting the tightening dimenssional difference at each position among the bolts comes to
*Tightening these nuts white adjusting the tightening dimenssional difference at each position among the bolts comes to
*Tightening these nuts white adjusting the tightening dimenssional difference at each position among the bolts comes to
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17
OVERHAUL, CLEANING, REASSEMBLYMAINTENANCE