Baxi Potterton BBU 15 HE Boiler User Manual


 
1.0 Introduction
© Baxi Heating UK Ltd 2009
1.1 Description
1. The Baxi Bermuda BBU 15 HE is a central heating
boiler designed for installation within a builders opening
in the living space of a dwelling.
2. The boiler is a fully automatic gas fired condensing
boiler. It is room sealed and fan assisted.
3. The boiler output will automatically modulate
between:
Max Min
15kW 4.6kW
15.7kW (condensing) 4.83kW (condensing)
According to system load
4. It must be fitted in conjunction with one of the
available electric firefront units as listed on page 2.
The separate electric firefront is intended for hearth
mounting. All instructions, fixings etc. needed to fit the
firefront are included in the firefront pack.
5. These instructions relate to the central heating boiler
section of the appliance (Fig. 1).
6. The appliance is designed for use on NATURAL
GAS (G20) only.
7. It can be used on sealed or open vented systems.
It must NOT be fitted on any type of gravity system.
The boiler is suitable for fully pumped systems ONLY.
8. The boiler is fitted with an integral pump unit for the
removal of condensate.
9. The boiler data badge gives details of the model,
serial number and Gas Council number and is situated
on the front case panel.
10. The boiler is intended to be installed in a residential
environment on a governed meter supply only.
11. The boiler must be installed with one of the
MULTIIFIT vertical concentric Flexi Flue kits available:-
10m kit 720101701 or 12.5m kit 720102001.
12. All systems must be thoroughly flushed and
treated with inhibitor (see section 4.2).
1.2 Contents
1. The boiler pack contains:
• Boiler Unit
• Plumbing Kit
• Condensate Pipe & Elbow
• Fixings Kit
• Literature Pack
2. The flue pack contains:
• Terminal Cap
• Flue Duct Adaptor (inc. seal)
• Air Cowl
• Air Duct Collar (inc. 4 screws)
• Air Duct Clamp
• Closure Plate
• Boiler Concentric
Adaptor (inc. 2 seals)
• 10m or 12.5m of Concentric
Flexible Duct
• 2 x 60mm grey Seals
• 1 x 100mm red Seal
Fig. 1
7
Fig. 2