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 All
the advantages of the worlds most advanced hot water
storage technology in a NEW range of six models sized
to meet the critical demands of low, medium and high
volume applications.
At a time when consumers are demanding better and better
performance from their hot water installations, the
traditional coil-based cylinder is often hard pressed
to keep up with demand.
Fortunately there is an answer – and it comes
from ACV.
ACV Tank-in-tank technology represents a significant
advance in the science of hot water storage…so
much so, that in virtually every situation encountered,
the coil-based cylinder is completely out-classed.
There is no contest and the winner is invariably Tank-in-Tank.
For a start, a much larger heat transfer surface means
that Tank-in-Tank units recover much faster than any
other kind of hot water storage device.
ACV’s advanced implementation of thermal storage
tank is heated by primary water circulating through
a surrounding outer tank connected to the boiler in
the usual way.
The special design od the inner tank not only helps
ensure scale-free operation but also avoids the sediment
problems that plague conventional cylinders. Even after
years of use in vented or mains pressure systems –
the insides of ACV stainless steel tank are as clean
as a whistle. We know because we,ve had a look!
Now at last, a truly 21st century hot water storage
system can be specified on a broad range of projects.
ACV smartline – so clever, we call them ‘smart’!
TYPICAL APPLICATIONS
Smart
100
Single bedroom flat or house with bath or
shower |
Smart
130
2 bedroom house with bath or shower |
Smart
160
3 bedroom house with bath or shower |
Smart
210
4 Bedroom house with two baths and two showers |
Smart
240
5 Bedroom house with two baths and two showers |
Smart
320
For many kinds of commercial & Industrial
Situations requiring high flow rate hot water. |
* for guidance only |
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| DIMENSIONS |
100 |
130 |
160 |
210 |
240 |
320 |
| A mm |
800 |
960 |
1160 |
1435 |
1680 |
1550 |
| B mm |
365 |
525 |
725 |
997 |
1244 |
1030 |
| C mm |
555 |
555 |
555 |
555 |
555 |
660 |
| Weight when empty KG |
49 |
55 |
65 |
75 |
87 |
141 |
| CHARACTERISTICS |
100 |
130 |
160 |
210 |
240 |
320 |
| Total Capacity (litres) |
105 |
130 |
161 |
203 |
242 |
318 |
| Primary Capacity (Litres) |
30 |
31 |
35 |
39 |
42 |
55 |
| Primary Flow Rate (l/h) |
2100 |
2600 |
3500 |
4200 |
5500 |
6200 |
| Primary pressure drop (mbar) |
17 |
22 |
37 |
45 |
51 |
90 |
| Heat Transfer Area (m2) |
1.03 |
1.26 |
1.54 |
1.94 |
2.29 |
2.65 |
| PEFORMANCES |
100 |
130 |
160 |
210 |
240 |
320 |
Peak Flow 60 oC (l/10min)
|
117 |
161 |
209 |
272 |
337 |
504 |
| Constant flow 1h 60 oC (1/60mins) |
384 |
549 |
689 |
913 |
1165 |
1368 |
| Primary Flow Rate (l/h) |
320 |
465 |
576 |
769 |
994 |
1037 |
| Primary pressure drop (mbar) |
24 |
22 |
22 |
20 |
20 |
23 |
| A |
Stainless steel inner tank presents a large
heat transfer area, ensuring very rapid recovery.
A primary coil is not required and there are
no linings to crack or anode replacements
to worry about. |
| B |
Corrugaled walls increase the surface area
and by contracting and expanding as the tank
warms and cools, discourage the formation
of lime scale. |
| C |
Natrual turbulence across the concave base
keeps particals in suspension preventing formation
of sedment and – aided by high store
temperatures – helps to avoid growth
of legoneffae bacteria |
| D |
Inner hot water thermal store |
| E |
50mm insulation |
| F |
Primary outer tank |
| G |
Primary Return |
| H |
Cold water input |
| I |
Hot water take off |
| J |
Primary Flow |
| K |
Thermostat pocket |
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Also we can offer you support and advice on installation
of your product, just ask phil. |
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