Water heater NANO – N – is perfect as a reheater for long pipe runs, or for small hot water needs in bathrooms or in cabins and dormitories. The tapping capacity is 7 liters of 40 °C hot water – more than enough for hand washing, small dishes or the like. NANO has a full 3 kW of added power and is ready for use again in just 12 minutes after discharge. Capacity per hour is 75 L 40 °C hot water. NANO is only slightly larger than an A4 sheet, and is mounted upright (20 % higher capacity) or horizontally at the tapping point.
Water heater NANO is our smallest hot water series and is suitable for installation where the hot water is used. The series is constructed of acid-proof steel, and NANO can withstand most water qualities and can be mounted anywhere. Practical and space-saving design.
WHY CHOOSE NANO?
|Specifications||UNIT||N 5 – 2.8 kW/1x230V|
|Product no.||OSO||1 1 003 120|
|Product name||N 5 - 2.8 kW/1x230V|
|Placement||Floor or wall|
|Diameter — ⌀||mm||200 x 234|
|Height - H||mm||500|
|Packaging||mm||550 × 255 × 255|
|Heat-up time ΔT 65°C||hours||N/A|
|Thermostat set point||°C||60|
|Heat loss-EN 12897||watt||13|
|AEC (energy consumption)||kW/year||525|
MORE HOT WATER
Substantially higher temperature (70°C+), highly efficient mixing valve (no scolding), minimal heat loss and optimal design features gives up to 20 % more hot water and class leading capacity.
The use of NANOPUR™ with insulation values far surpassing Pentane, often in combination with VACUUM panels, ensures minimum heat loss and class leading energy efficiency.
EVERLAST™ titanium alloyed stainless steel in combination with OSO’s unique ULTRAWELD™ system and state-of-the-art passivation process equals class leading corrosion resistance.
EVERLAST™ titanium alloyed, high tensile strength, stainless steel equals lower weight and efficient use of resources. OSO products are more than 40 % lighter than enameled products.
BUILT TO LAST
INCOTEC™ el. immersion heaters with ultra high-grade Incoloy 825 stainless, DZR brass, zinc-free soldering and carefully calculated surface loads results in maximum durability in hard water.