VIESMANN VITOCELL 300-V Vertical DHW cylinder 130to500litrecapacity Datasheet Part numbers and prices: see pricelist File in: Vitotec folder, register 17 VITOCELL 300-V Type EVA and EVI Vertical DHW cylinder made from stainless steel 4/2007
Product information Hygienic, convenient and economic DHW heating with DHW cylinders made from stainless steel vertical version. Benefits at a glance & Long service life through corrosion-resistant DHW cylinder made from high-grade stainless steel. & Hygienic and made to food hygiene standard through high surface quality. & No protective anode required for additional corrosion protection, therefore no additional running costs. & Indirect coils right down to the cylinder floor heat the entire water content. & High DHW convenience through rapid, even heat-up via generously sized heating surfaces. & Low heat losses through highly effective all-round CFC-free thermal insulation. & Easy handling because of low weight and favourable dimensions. & Universal application larger DHW demands can be covered by combining several Vitocell 300-V DHW cylinders into cylinder banks using manifolds. & The Vitocell 300-V (500 litre) is fitted with removable flexible PUR foam thermal insulation for easier handling. & DHW cylinders with 160 and 200 litre capacity are also available in white. Vitocell 300-V, type EVA, peripheral indirect coil A Inspection and cleaning aperture B Highly effective all-round CFC-free thermal insulation made from rigid polyurethane foam C External indirect coil made from stainless steel right to the cylinder floor this heats the DHW cylinder completely and hygienically 2 VIESMANN VITOCELL 300-V
Benefits at a glance (cont.) Vitocell 300-V, type EVI, internal indirect coil A Inspection and cleaning aperture B Highly effective all-round CFC-free thermal insulation made from rigid polyurethane foam C Indirect coil made from stainless steel right to the cylinder floor this heats the DHW cylinder completely and hygienically D Flange opening as additional cleaning aperture or for the installation of an electric immersion heater VITOCELL 300-V VIESMANN 3
Specification Vitocell 300-V (type EVA) Specification For DHW heating in conjunction with boilers, peripheral indirect coils Suitable for systems with & heating water flow temperature up to 110 C & operating pressure on the heating water side up to 3bar & operating pressure on the DHW side up to 10 bar Capacity l 130 160 200 DIN register number 0166/04 10MC Continuous output* 1 90 C kw 37 40 62 for DHW heating from 10 to 45 C and a l/h 909 982 1523 heating water flow temperature of... at the 80 C kw 30 32 49 heating water throughput stated below l/h 737 786 1024 70 C kw 22 24 38 l/h 540 589 933 60 C kw 13 15 25 l/h 319 368 614 50 C kw 9 10 12 l/h 221 245 294 Continuous output* 1 90 C kw 32 36 57 for DHW heating from 10 to 60 C and a l/h 550 619 980 heating water flow temperature of... at the 80 C kw 25 28 43 heating water throughput stated below l/h 430 481 739 70 C kw 16 19 25 l/h 275 326 430 Heating water flow rate m 3 /h 3.0 3.0 3.0 for the stated continuous outputs Standby heat loss* 2 kwh/24 h 1.30 1.40 1.60 q BS at 45 K temp. differential Dimensions Length (7) a mm 633 633 633 Width b mm 667 667 667 Height c mm 1111 1203 1423 Height of unit when tilted mm 1217 1297 1493 Weight kg 77 84 98 DHW cylinder with thermal insulation Heating water content l 25 28 35 Heating surface m 2 1.1 1.3 1.6 Connections Heating water flow and return R 1" 1" 1" Cold water, DHW R ¾" ¾" ¾" DHW circulation R ½" ½" ½" *1 For continuous output at an alternative heating water throughput, see the Vitocell technical guide. When designing the system for continuous output as stated or calculated, allow for the corresponding circulation pump. The stated continuous output is only achieved when the rated boiler output is continuous output. *2 Actual values to DIN 4753-8. 4 VIESMANN VITOCELL 300-V
Specification Vitocell 300-V (type EVA) (cont.) BÖ E HR HV KW Inspection and cleaning aperture Drain Heating water return Heating water flow Cold water SPR Sensor well for cylinder temperature sensor or control thermostat WW DHW Z DHW circulation Dimensions Capacity l 130 160 200 a mm 633 633 633 b mm 667 667 667 c mm 1111 1203 1423 d mm 975 1067 1287 e mm 892 984 1204 f mm 785 877 1097 g mm 155 155 155 h mm 77 77 77 Performance factor N L to DIN 4708 Cylinder storage temperature* 1 = cold water inlet temperature + +5 K/-0 K 50 K Capacity l 130 160 200 Performance factor N L* 1 90 C 2.4 3.3 6.8 80 C 1.9 2.9 5.2 70 C 1.4 2.0 3.2 *1 TheperformancefactorN L varies according to the cylinder storage temperature Tcyl. Standard values: Tcyl = 60 C 1.0 N L,Tcyl=55 C 0.75 N L,Tcyl=50 C 0.55 N L,Tcyl=45 C 0.3 N L. VITOCELL 300-V VIESMANN 5
Specification Vitocell 300-V (type EVA) (cont.) Peak output (during 10 minutes) Based on performance factor N L DHW heating from 10 to 45 C Capacity l 130 160 200 Peak output (l/10 min) 90 C 207 240 340 80 C 186 226 298 70 C 164 190 236 Max. draw-off rate (over 10 minutes) Based on performance factor N L With re-heating DHW heating from 10 to 45 C Capacity l 130 160 200 Max. draw-off rate (l/min) 90 C 21 24 34 80 C 19 23 30 70 C 16 19 24 Available water volume Cylinder volume heated to 60 C Without re-heating Capacity l 130 160 200 Draw-off rate l/min 10 10 10 Available water volume Water with t = 60 C (constant) l 103 120 150 Heat-up time The quoted heat-up times will be achieved, if the max. constant output of the DHW cylinder is made available at the respective flow temperature and when heating the DHW from 10 to 60 C. Capacity l 130 160 200 Heat-up time (min) 90 C 15 15 12 80 C 19 19 26 70 C 29 29 24 6 VIESMANN VITOCELL 300-V
Specification Vitocell 300-V (type EVA) (cont.) Pressure drop Pressure drop on the heating water side Pressure drop on the DHW side Delivered condition Vitocell 300-V, type EVA, peripheral indirect coil 130 to 200 litre capacity The DHW side of the DHW cylinder is made from high-alloy stainless steel with fitted rigid PUR foam thermal insulation. & Integral welded sensor well for cylinder temperature sensor or control thermostat & Integral thermometer & Threaded adjustable feet Colour of the epoxy-coated sheet steel casing: Vitosilver. DHW cylinders with 160 and 200 litre capacity are also available in white. VITOCELL 300-V VIESMANN 7
Specification Vitocell 300-V (type EVI) Specification For DHW heating in conjunction with boilers, district heating systems and low temperature heating systems, optionally with electric immersion heater, internal indirect coils Suitable for systems with & heating water flow temperature up to 200 C & operating pressure on the heating water side up to 25 bar & operating pressure on the DHW side up to 10 bar Capacity l 200 300 500 DIN register number 0071/06-10 MC/E Continuous output* 1 90 C kw 71 93 96 for DHW heating from 10 to 45 C and a l/h 1745 2285 2358 heating water flow temperature of at 80 C kw 56 72 73 the heating water throughput stated below l/h 1376 1769 1793 70 C kw 44 52 56 l/h 1081 1277 1376 60 C kw 24 30 37 l/h 590 737 909 50 C kw 13 15 18 l/h 319 368 442 Continuous output* 1 90 C kw 63 82 81 for DHW heating from 10 to 60 C and a l/h 1084 1410 1393 heating water flow temperature of at 80 C kw 48 59 62 the heating water throughput stated below l/h 826 1014 1066 70 C kw 29 41 43 l/h 499 705 739 Heating water flow rate m 3 /h 5.0 5.0 6.5 for the stated continuous outputs Standby heat loss* 2 kwh/24 h 1.60 2.00 3.00 q BS at 45 K temp. differential Dimensions Length (Ø) a incl. thermal insulation mm 581 633 923 excl. thermal insulation mm 715 Width b incl. thermal insulation mm 649 704 974 excl. thermal insulation mm 914 Height d incl. thermal insulation mm 1420 1779 1740 excl. thermal insulation mm 1667 Height of unit when tilted incl. thermal insulation mm 1471 1821 excl. thermal insulation mm 1690 Weight kg 76 100 111 DHW cylinder with thermal insulation Heating water content l 10 11 15 Heating surface m 2 1.3 1.5 1.9 Connections Heating water flow and return R 1" 1" 1¼" Cold water, DHW R 1" 1" 1¼" DHW circulation R 1" 1" 1¼" *1 For continuous output at an alternative heating water throughput, see the Vitocell technical guide. When designing the system for continuous output as stated or calculated, allow for the corresponding circulation pump. The stated continuous output is only achieved when the rated boiler output is continuous output. *2 Actual values to DIN 4753-8. 8 VIESMANN VITOCELL 300-V
Specification Vitocell 300-V (type EVI) (cont.) Vitocell 300-V, with 200 and 300 litre capacity with rigid PUR foam thermal insulation BÖ E HR HV KW R Inspection and cleaning aperture Drain Heating water return Heating water flow Cold water Flange opening as additional cleaning aperture or for the installation of an electric immersion heater SPR Connector R 1" with female reducer to R ½" for cylinder temperature sensor or thermostat (at the same height as connector HV) WW DHW Z DHW circulation Dimensions Capacity l 200 300 a mm 581 633 b mm 649 704 c mm 614 665 d mm 1420 1779 e mm 1286 1640 f mm 897 951 g mm 697 751 h mm 297 301 i mm 87 87 k mm 317 343 l mm 353 357 VITOCELL 300-V VIESMANN 9
Specification Vitocell 300-V (type EVI) (cont.) Vitocell 300-V, with 500 litre capacity with flexible PUR foam thermal insulation BÖ E HR HV KW R Inspection and cleaning aperture Drain Heating water return Heating water flow Cold water Flange opening as additional cleaning aperture or for the installation of an electric immersion heater SPR Connector R 1" with female reducer to R ½" for cylinder temperature sensor or thermostat (at the same height as connector HV) WW DHW Z DHW circulation Dimensions Capacity l 500 a mm 923 b mm 974 d mm 1740 Performance factor N L to DIN 4708 Cylinder storage temperature* 1 = cold water inlet temperature + +5 K/-0 K 50 K Capacity l 200 300 500 Performance factor N L* 1 90 C 6.8 13.0 21.5 80 C 6.0 10.0 21.5 70 C 3.1 8.3 18.0 Peak output (during 10 minutes) Based on performance factor N L DHW heating from 10 to 45 C Capacity l 200 300 500 Peak output (l/10 min) 90 C 340 475 627 80 C 319 414 627 70 C 233 375 566 *1 TheperformancefactorN L varies according to the cylinder storage temperature Tcyl. Standard values: Tcyl = 60 C 1.0 N L,Tcyl=55 C 0.75 N L,Tcyl=50 C 0.55 N L,Tcyl=45 C 0.3 N L. 10 VIESMANN VITOCELL 300-V
Specification Vitocell 300-V (type EVI) (cont.) Max. draw-off rate (over 10 minutes) Based on performance factor N L With re-heating DHW heating from 10 to 45 C Capacity l 200 300 500 Max. draw-off rate (l/min) 90 C 34 48 63 80 C 32 42 63 70 C 23 38 57 Available water volume Cylinder volume heated to 60 C Without re-heating Capacity l 200 300 500 Draw-off rate l/min 10 15 15 Available water volume Water with t = 60 C (constant) l 139 272 460 Heat-up time The quoted heat-up times will be achieved, if the max. continuous output of the DHW cylinder is made available at the respective flow temperature and when heating the DHW from 10 to 60 C. Capacity l 200 300 500 Heat-up time (min) 90 C 14.4 15.5 20.0 80 C 15.0 21.5 24.0 70 C 23.5 32.5 35.0 VITOCELL 300-V VIESMANN 11
Specification Vitocell 300-V (type EVI) (cont.) Pressure drop Pressure drop on the DHW side Pressure drop on the heating water side A 300 and 500 litre capacity B 200 litre cylinder capacity Delivered condition Vitocell 300-V, type EVI, internal indirect coil 200 and 300 litre capacity DHW cylinder made from high-alloy stainless steel with fitted PUR rigid foam thermal insulation. & Connectors for cylinder temperature sensor or control thermostat & Integral thermometer & Threaded adjustable feet Packed separately and fitted to the crate are the following components: & Female reducer R 1" ½" & Sensor well & Thermal insulation piece for the sensor well Colour of the epoxy-coated sheet steel casing: Vitosilver. Vitocell 300-V, type EVI, internal indirect coil 500 litre capacity DHW cylinder made from high-alloy stainless steel with separately packed flexible PUR foam thermal insulation. & Connectors for cylinder temperature sensor or control thermostat & Threaded adjustable feet Packed separately and fitted to the crate are the following components: & Thermometer & Female reducer R 1" ½" & Sensor well & Thermal insulation piece for the sensor well The colour of the plastic-coated thermal insulation is Vitosilver. Specification cylinder bank (type EVI) The DHW cylinders Vitocell 300-V, type EVI with 300 and 500 litre capacity can be combined into banks of up to 2 or 3 cylinders. The heating water and DHW headers are available from the factory. Order these headers separately. Cylinder banks consisting of more than 3 cylinders can be assembled from several 12 VIESMANN VITOCELL 300-V
Specification cylinder bank (type EVI) (cont.) cylinder banks of up to 3 cylinders each. The connection of these cylinder banks on the heating water and DHW side forms part of the installation work for which the customer is responsible. Specification For DHW heating in conjunction with boilers, district heating systems and low temperature heating systems; optionally with electric immersion heater Suitable for systems with & a heating water flow temperature/on the heating water side operating pressure up to 120 C/ 18 bar, 160 C/ 16 bar and 180 C/ 15 bar & operating pressure on the DHW side up to 10 bar Capacity l 300 500 Total cylinder bank capacity l 600 1000 1500 Number of cylinders 2 2 3 Layout \\ \\ \\\ Continuous output* 1 for DHW heating from 10 to 45 C and a heating water flow temperature of at the heating water throughput stated below Continuous output for DHW heating from 10 to 60 C and a heating water flow temperature of at the heating water throughput stated below 90 C kw 186 192 288 l/h 4570 4716 7074 80 C kw 144 146 219 l/h 3538 3586 5379 70 C kw 104 112 168 l/h 2554 2752 4128 60 C kw 60 74 111 l/h 1474 1818 2727 50 C kw 30 36 54 l/h 736 884 1326 90 C kw 164 162 243 l/h 2820 2786 4179 80 C kw 118 124 186 l/h 2028 2132 3198 70 C kw 82 86 129 l/h 1410 1478 2217 Heating water throughput m 3 /h 10 13 19.5 for the stated continuous outputs Dimensions incl. thermal insulation Length (Ø) a mm 1461 1926 2914 Width b mm 1109 1278 1278 Height d mm 1779 1740 1740 Weight kg 250 270 410 DHW cylinders with thermal insulation and headers Heating water content l 30 37 58 incl. headers Heating surface m 2 2.8 3.6 5.4 Connections Heating water flow and return DN 50 50 50 Cold water, DHW R 1¼" 1¼" 1½" DHW circulation R 1¼" 1¼" 1¼" *1 When designing the system for continuous output as stated or calculated, allow for the corresponding circulation pump. The stated continuous output is only achieved when the rated boiler output is continuous output. VITOCELL 300-V VIESMANN 13
Specification cylinder bank (type EVI) (cont.) Example: 500 litre capacity Side view and plan view E EL HR Drain on the heating water side (female thread R ½") Air vent valve (female thread R ½") Heating water return HV Heating water flow KW/E Cold water and drain on the DHW side WW DHW Z DHW circulation Dimensions Capacity l 300 500 Total cylinder bank capacity l 600 1000 1500 Number of cylinders 2 2 3 a mm 1461 1926 2914 b mm 1109 1278 1278 c mm 206 359 359 d mm 1779 1740 1740 e mm 1640 1601 1601 f mm 751 802 802 g mm 301 453 453 h mm 87 102 102 i mm 237 217 217 k mm 127 130 135 l mm 343 498 498 Performance factor N L to DIN 4708 Cylinder storage temperature* 1 = cold water inlet temperature + +5 K/-0 K 50 K Capacity l 300 500 Total cylinder bank capacity l 600 1000 1500 Number of cylinders 2 2 3 Performance factor N L* 1 90 C 40 63 105 80 C 38 63 105 70 C 26 52 89 *1 TheperformancefactorN L varies according to the cylinder storage temperature Tcyl. Standard values: Tcyl = 60 C 1.0 N L,Tcyl=55 C 0.75 N L,Tcyl=50 C 0.55 N L,Tcyl=45 C 0.3 N L. 14 VIESMANN VITOCELL 300-V
Specification cylinder bank (type EVI) (cont.) Peak output (during a 10 minute period) Based on performance factor N L DHW heating from 10 to 45 C Capacity l 300 500 Total cylinder bank capacity l 600 1000 1500 Number of cylinders 2 2 3 Peak output (l/10 min) 90 C 898 1190 1600 80 C 870 1190 1600 70 C 698 1050 1470 Max. draw-off rate (over a 10 minute period) Based on performance factor N L With re-heating DHW heating from 10 to 45 C Capacity l 300 500 Total cylinder bank capacity l 600 1000 1500 Number of cylinders 2 2 3 Max. draw-off rate (l/min) 90 C 90 120 160 80 C 87 120 160 70 C 70 101 148 Available water volume Cylinder volume heated to 60 C Without re-heating Capacity l 300 500 Total cylinder bank capacity l 600 1000 1500 Number of cylinders 2 2 3 Draw-off rate l/min 30 30 45 Available water volume Water with t = 60 C (constant) l 544 920 1380 VITOCELL 300-V VIESMANN 15
Design information DHW connection Connection to DIN 1988 A DHW B DHW circulation line C DHW circulation pump D Spring-loaded check valve E Visible blow-off line outlet F Safety valve G Shut-off valve H Flow regulating valve (We recommend the installation and adjustment of the max. water throughput in accordance with 10 minute output of the DHW cylinder.) K Pressure gauge connection L Non-return valve M Drain N Cold water O Drinking water filter* 1 P Pressure reducer to DIN 1988-2 issue Dec.1988 R Non-return valve/pipe separator S Diaphragm expansion vessel, suitable for drinking water The safety valve must be installed. Recommendation: Install the safety valve higher than the top edge of the cylinder. This protects the valve against contamination, scaling and high temperatures. The DHW cylinder does not then need to be drained when working on the safety valve. Sensor well Vitocell 300-V, type EVA, peripheral indirect coil, 130 to 200 litre capacity The sensor well is welded into the DHW cylinder. Capacity l 130 160 200 a mm 550 650 650 *1 According to DIN 1988-2, a drinking water filter should be installed in systems with metal pipework. Viessmann and DIN 1988 also recommend the installation of a drinking water filter when using plastic pipes to prevent contaminants entering the DHW system. 16 VIESMANN VITOCELL 300-V
Design information (cont.) Vitocell 300-V, type EVI, internal indirect coil, 200 to 500 litre capacity For maximum operational reliability, the stainless steel sensor well provided should be used for the sensor or probe of the regulating device. If the sensor to be used is too large or small for this sensor well, use a different stainless steel sensor well (1.4571 or 1.4435). Capacity l 200 300 500 a mm 220 220 330 b mm 200 200 310 Heating water flow temperatures in excess of 110 C For these operating conditions, DIN 4753 recommends the installation of a type-tested high limit safety cut-out into the cylinder that limits the temperature to 95 C. Warranty Our warranty for DHW cylinders requires that the water to be heated meets the DHW quality in accordance with current potable water regulations and that existing water treatment systems work correctly. Heat transfer surface The corrosion-resistant, protected heat transfer surface (DHW/ heat transfer medium) correspond to type C to DIN 1988-2. Electric immersion heater When using third party products, the threaded heater element must have an unheated length of at least 100 mm. Technical guide For further information on design and sizing, see the technical guide "Central DHW heating with Vitocell DHW cylinders". Accessories Electric immersion heater EHE for integration into the Vitocell 300-V (type EVI) Only for use with soft to medium hard drinking water up to 2.5 mol/ m 3 (hardness level 2) Current type and rated voltage 3/N/PE 400 V/50 Hz Protection: IP 54 Rated power consumption in standard operation/during kw 2 4 6 quick heat-up Rated current A 8.7 8.7 8.7 Heat-up time from 10 to 60 C 200 l h 4.7 2.4 1.57 300 l h 7.4 3.7 2.50 500 l h 11.4 5.7 3.80 DHW cylinder with an EHE electric immersion heater Capacity l 200 300 500 Available capacity to be heated with an electric l 162 256 390 immersion heater Dimensions Width b (incl. electric immersion heater) mm 841 887 1137 VITOCELL 300-V VIESMANN 17
Accessories (cont.) Capacity l 200 300 500 Minimum wall clearance for the installation of an mm 650 650 650 electric immersion heater EHE Weight Vitocell 300-V kg 76 100 111 Electric immersion heater EHE kg 2 2 2 Example: 300 litre capacity Vitocell 300-V with electric immersion heater B Total width incl. electric immersion heater EHE Cylinder primary pump Part no. 7339 467 7339 468 7339 469 Type of pump UP 25-40 VIRS 30/6-1 VI TOP-S 40/4 Voltage V~ 230 230 230 Power consumption W 55-65 110-140 155-195 Connection R 1" 1¼" DN 40 Connecting cable m 4.7 4.7 4.7 fortheboiler upto40kw from40to70kw from70kw Part no. 7339 467 and 7339 468 Part no. 7339 469 18 VIESMANN VITOCELL 300-V
Accessories (cont.) A Part no. 7339 469 B Part no. 7339 468 C Part no. 7339 467 Safety assembly to DIN 1988 Safety assembly, comprising: & Shut-off valve & Non-return valve and test nipples & Pressure gauge connector & Diaphragm safety valve For DHW cylinders: & up to 200 litre capacity: DN 15/R ¾" Max. heating load 75 kw 10 bar: Part no. 7219 722 from 300& to 1000 litre capacity: DN 20/R 1" Max. heating load 150 kw 10 bar: Part no. 7180 662 VITOCELL 300-V VIESMANN 19
Viessmann Werke GmbH&Co KG D-35107 Allendorf Telephone: +49 6452 70-0 Fax: +49 6452 70-2780 www.viessmann.com Subject to technical modifications. Viessmann Limited Hortonwood 30, Telford Shropshire, TF1 7YP, GB Telephone: +44 1952 675000 Fax: +44 1952 675040 E-mail: info-uk@viessmann.com Printed on environmentally friendly, chlorine-free bleached paper 20 VIESMANN VITOCELL 300-V