Article | BWV-T | BWV-ST | BWV-SST | BWE-T | BWE-ST | BWE-SST |
Maximum operating temperature 100 ° C | ||||||
Insulation | 530L rigid polyurethane | |||||
Protection | threaded magnesium anode | |||||
Pressure | 3 bar |
Application | Combined water heating system in the tank, using energy obtained from various sources, traditional and alternative, using heat exchangers inside the tank. The tank also acts as a collector. From the collector hot water enters all heating systems: hotter water & mdash; from the top of the tank, and less hot water is used for underfloor heating systems & mdash; from the bottom of the tank. The system for heating hot water supply consists of a buffer tank. |
Execution | Made of high quality S235JR EN10025 carbon steel, assembled and welded by automatic welding. Non-removable spiral heat exchangers made of S235JR EN10025 carbon steel welded to the tank. Has an inspection hatch for inspection and cleaning of the tank (built into the tank for hot water supply). BWE-T: AISI 316 L stainless steel hot water tank without heat exchangers. BWE-ST: AISI 316 L stainless steel hot water tank with one non-removable heat exchanger. BWE-SST: AISI 316 L stainless steel hot water tank with two non-removable heat exchangers. BWV-T: tank without heat exchangers, enamelled carbon steel internal hot water tank. BWV-ST: tank with one heat exchanger, internal hot water tank made of enamelled carbon steel BWV-SST: tank with two heat exchangers, internal hot water tank made of enamelled carbon steel |
Anti-corrosion coating | BWV Internal anti-corrosion coating (Enamel) obtained by high temperature treatment in an oven at 860 ° C. Fully meets the requirements for drinking water according to D.M. 174/2004 (Italian standards) and CEE directive 76/893. BWE Completed after welding: weld passivation and surface etching. |
Cathodic protection | Threaded magnesium anode. |
Insulation and type of outer covering | For mod. capacity from 500 to 700 liters & mdash; insulation made of rigid polyurethane, and for the rest & mdash; flexible polyurethane insulation, PVC outer sheath with zipper and thermal cover. |
Certificates | Complies with directive 97/23 / CE Art. 3 - Part 3. |
Model | 1000 | ||
Tank capacity (excluding DHW tank) | l | 940 | |
Actual volume of hot water in the tank (for models BWE-T and BWW-ST) | l | 320 | |
Actual volume of hot water in the tank (for mod. BWE-SST) | l | 190 | |
Actual volume of water in the tank (for models BW E-T and BWE-ST) | l | 620 | |
Actual volume of water in the tank (for model BWE-SST) | l | 750 | |
D | Insulated Diameter | mm | 990 |
d | Diameter without insulation | mm | 790 |
HT | Height | mm | 2170 |
Internal DHW tank (for models BWE-T and BWW-ST) | l | 320 | |
Internal hot water supply (for model BWE-SST) | l | 190 | |
Heating area of spiral heat exchanger (for models BW E-T and BWE-ST) | m2 | 3.0 | |
Heating area of spiral heat exchanger (for mod .. BW E-SST) | m2 | 2.0 | |
Bottom heat exchanger heating area | m2 | 3.0 | |
Upper heat exchanger heating area | m2 | 3.0 | |
Tank weight mod. BWE-T / BWV-T | kg | 185 | |
Tank weight mod. BWE-ST / BWV-ST | kg | 215 | |
Tank weight mod. BWE-SST / BWV-SST | kg | 230 | |
K | Maximum Tilt Height | mm | 2366 |
Connections | |||
E-U | Input & mdash; heated circuit output (DHW) | G1 & quot; | |
RC | Recirculation | G1 & quot; | |
So1 | Sensor (top flange) | G & frac12; & quot; | |
So2 | Sensor Connection | G & frac12; & quot; | |
Sf | Tank Air Valve | G & frac12; & quot; | |
A | Magnesium anode | G1 & quot; & frac14; | |
RE2 | Electric heating element for a circuit (DHW) | G1 & quot; & frac14; | |
M | Custom Tank Connections | G1 & quot; & frac14; | |
RE | Electric heating element of a tank | G1 & quot; & frac12; | |
S | Emptying the tank | G1 & quot; | |
SS1-SS2 | Inlet-outlet of the lower spiral heat exchanger | G1 & quot; | |
SS3-SS4 | Inlet-outlet of the upper spiral heat exchanger | G1 & quot; | |
So | Spiral heat exchanger sensor (casing) | G & frac12; & quot; | |
Technical data | |||
PE | Maximum working pressure of the internal DHW tank | bar | 6 |
PC | Test pressure of the internal DHW tank | bar | 9 |
TE | Max. working temperature | & deg; C | 100 |
PES | Maximum working pressure of the tank | bar | 3 |
PCS | Tank test pressure | bar | 4.5 |
To select the required storage volume, it is possible to combine several tanks into a cascade.
The storage tank is selected for the previously selected heat source and is calculated so that it can accumulate all the heat generated by this source, or for the consumer of which it should be provided with heat generated before the time of heat consumption by a low-power source.
The priority in the selection of the capacity will be the source if its capacity or the time of heat supply is limited.
The priority in the selection of the capacity will be the consumer, if it is required to cover the given heat load in a certain time. & nbsp; & nbsp; & nbsp; & nbsp;
The additional volume of water formed during heating to the maximum temperature is ~ 3.5% of the nominal volume of the container.
- vertical/horizontal placement;
- security group;
- level/temperature/pressure sensors;
- thermoelectric heater;
- heat exchanger;
- cold insulation;
- cathodic protection;
- service;
- inspection hatch; leather / fabric cover; & nbsp;
- development of individual equipment *
Delivery
- Pickup from a warehouse in Kiev - is free
- New Mail - at the rates of the delivery service, at the rates of the delivery service, at the rates of the delivery service
- SAT - at the rates of the delivery service
- Deliveri - at the rates of the delivery service
Payment
- Cashless payment with VAT
- Online Privat24, Visa / MasterCard