SistemiIntegati_INGLESE_0310_Lowres_
description
Transcript of SistemiIntegati_INGLESE_0310_Lowres_
Integrated system solutions
Integrated Systems
2
20/20/20: The Legislation context in Europe
It’s commonly known that half the energy consumption
in Europe comes from fossil fuels, and that the energy
produced in this way causes high emissions of CO2, that
is the greenhouse gas known as the main responsible of
our planet climatic change.
Since 1997 the CEE, with the Kyoto Protocol, engaged to
reduce the energy demand and, as a consequence, the
greenhouse gas emissions, putting in use measures to
motivate energy saving and efficiency optimization in all
sectors interested in energy consumption.
The European Commission launched a new campaign for
the energy efficiency use with the proposal to reduce of
the 20% the annual primary energy consumption, and so
enhancing the renewable energies use up to the 20%.
These target shall be archived within the year 2020.
At present the European Commission is working to
implement the 2005/32/CE EUP Directive about
products that use energy. We will have the products
labelling in the different system configurations, to set the
best global efficiency of the heating systems.
There measures will be in place starting from 1st January
2010.
2000
1500
1000
500
0
Development of primary energy demand in Europe (A 25)From 1927 to 2005 (in Millions tonnes of oil equivalent, Mtoe)
Biomass
Electricity oth.
Nuclear
Gas
Petrol
Coal
3
Integrated Systems
The Heating and DHW system evolution
The law evolution in Europe, matched to the
technological product innovation, pushes designers
and installers to think system solutions more and more
innovative and highly efficient.
In this catalogue Baxi presents some cases describing
the installation evolution for buildings with one, two or
more living units.
The fast market evolution is drawing to a growing complexity
and to more competitive scenarios. The market request is
evolving from a product to a system demand for an efficient
heating of the building. Baxi pays attention to the market
trends and proposes some solutions, according to a system
approach, adding a service value for the customer.
Mar
ket
com
plex
ity
1995 2005 2008 2010
Product System Service
The growing market complexity
New at MCE 2010
4
Baxi is now able to present a wide offer of integrated solutions for heating and DHW production considering the most innovative trend and aiming to provide complete systems for any comfort need.
An efficient solution for any comfort need
Page 6 7 8 9 10 11 12 13
Syst
em t
ype
Autonomous • • • • • •
Centralized • •
Livi
ng t
ype
Single house • • • •Row house •Flat in apartment building • • •Commercial / sporting
Prim
ary
gene
rato
r Single • • • • •
Cascade • • •
Sola
r in
tegr
atio
n Heating + DHW • • • •
DHW • • • •
Mul
ti-en
ergy
in
tegr
atio
n
+ Heat pump •
+ Biomass •
+ Cogeneration •
Page 6 7 8 9 10 11 12 13
5
Integrated Systems
14 15 16 17 18 19 20 21 22 23 24 25
• • • • • • •
• • • • •
• •• • •
• • • •• • •
• • • • • • • • •
• • •
• • • • • • • • • • •
•
14 15 16 17 18 19 20 21 22 23 24 25
6
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer. You can download the above scheme in *.dwg format for CAD uses through Baxi Tech Area on baxi.it.
New at MCE 2010
Integrated system consisting of condensing boiler with integration of heat pump and solar (vacuum tube collector) for heating and DHW production with puffer
High seasonal average efficiency solution with photovoltaic system for indirect heat • pump supply Wide modulation ratio of the boiler (1:6) to meet different seasonal needs with the • maximum comfortCovering 13% of annual heating requirement and 51% of DHW, thanks to solar • integration (installation site case: Istanbul - Turkey)
Vacuum tubes collector SVB 26Collector with nr 14 tubes (each)Absorption capacity: 96%High insulation
Integration with heat pump 7 kWHeat output: 7,2 kWCOP: 3,3%Maximum flow temperature: 55 °C
Heating plant with vacuum tubes collector for DHW
production and boiler for heating.
A - vacuum tubes solar collector
B - Luna Platinum CSI provided
with solar differential controller,
solar expansion vessel,
thermostatic mixing valve, mixed
system
C - external sensor
D - thermoregulation
E - air vent
F - photovoltaic system
G - heat pump
Large residential house
Photovoltaic systemOutput: 225 Wp60 polycrystalline cellsAllowance on output 3%Glass thickness 4 mm
Luna Platinum CSI MSRemovable control panel with wide text display, encoder and backlight. Wide modulation ratio (1:6), higher efficiency and noiselessness. Circulating pump totally modulating. Operation and control of: heat pump 7 kW; puffer tank; solar thermal; mixed system (1 high temperature; 2 low temperatures).
°C+-
iAUTO
°C+-
iAUTO
High temperature zoneSecond low temperature zone
First low temperature zoneDHW
inverter Energygenerated
KWh
Energygiven
Energy intake
To the point of use
To the grid
F
N
From the grid
Photo
voltaic
syste
m
Photo
voltaic
syste
m
7
+
- KWh KWh
89
A
B
C
D
D
EF
G
D
7
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer. You can download the above scheme in *.dwg format for CAD uses through Baxi Tech Area on baxi.it.
New at MCE 2010
Integrated system consisting of built in condensing boiler with stratification cylinder integrated for autonomous solar system.
Solution with integration with solar for built in installations•
Efficient operation of a mixed system (high – low temperature)•
Covering 57% of annual DHW requirement, thanks to solar integration (installation •
site case: Rome - Italy)
Built-in solar collector SB 13 IN
Gross surface 1,25 m² Absorption capacity: 95%Clear glass
Heating plant with solar collectors and boiler
with all solar accessories included
A - solar collector
B - Luna3 Comfort IN HT Solar
provided with solar differential
controller, solar expansion
vessel, thermostatic mixing
valve, mixed system
C - external sensor
D - thermoregulation
E - air vent
Luna3 Comfort IN HT Solar B 150 MSCompact built-in solution integrating a condensing boiler (modulation ratio 1:6), solar cylinder 120 or 150 lt with integration via plate exchanger, controller, expansion vessel, circulating group and thermostatic mixing valve. Remote control with LCD display, heating timer and climatic regulation included.
Mid dimension dwelling in block
of flats
°C+-
iAUTO
°C+-
iAUTO
High temperature zone
Second low temperature zone
First low temperature zoneDHW
A
B
C
D
D
E
D
8
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer. You can download the above scheme in *.dwg format for CAD uses through Baxi Tech Area on baxi.it.
New at MCE 2010
Heating plant with solar collectors and boiler with all
solar accessories included
A - solar collector
B - Luna3 Comfort HT Solar
provided with solar differential
controller, solar expansion vessel,
thermostatic mixing valve, mixed
system
C - external sensor
D - thermoregulation
E - air vent
Pitched roof solar collector SB 25+VGross surface 2,5 m² Meander structure insideStagnation temperature: 217 °CNon-reflecting glass
Mid dimensiondwelling in rowhouses context
Integrated system consisting of condensing boiler with stratification cylinder integrated for autonomous solar system.
Solution with integration with solar •
Efficient operation of a mixed system (high – low temperature)•
Covering 55% of annual DHW requirement, thanks to solar integration (installation site case: • Istanbul - Turkey)
Luna3 Comfort HT Solar 120 MS
Compact solution integrating a condensing boiler (modulation ratio 1:6), solar cylinder 200 lt. Remote control with LCD display, heating timer and climatic regulation included.
°C+-
iAUTO
°C+-
iAUTO
High temperature zone
DHW
First Low temperature zone
Second Low temperature zone
A
B
C
D
D
E
D
9
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer. You can download the above scheme in *.dwg format for CAD uses through Baxi Tech Area on baxi.it.
New at MCE 2010
High seasonal average efficiency solution • Wide modulation ratio of the boiler (over 1:7) to meet different seasonal • needs with the maximum comfortCovering 72% of annual requirement thanks to solar integration (installation • site case: Prague - Czech Rep)
Heating centralised low temperature plant and
DHW production with solar integration and heat boxes.
A - solar collector
B - double coil cylinder
C - differential controller
D - controller
E - solar expansion vessel
F - heat boxes
G - thermostatic mixing valve
H - boiler
I - safety group
L - hydraulic separator
M - external sensor
N - photovoltaic system
Integrated centralised system consisting of a condensing heating only boiler combined with a solar system for DHW production and heat boxes for each dwelling; energy production with photovoltaic system
Photovoltaic systemOutput: 225 Wp60 polycrystalline cellsAllowance on output 3%Glass thickness 4 mm
Baxi storage tank (UB 800 DC)Double coil cylinder 800 ltDHW centralised production
Built in solar collector SB 20Gross surface 2 sqmMeander structure Stagnation temperature: 199 °C
Luna Duo-tecRemovable control panel with wide LCD and backlight. Wide modulation ratio (1:7), higher efficiency and noiselessness. Built in modulating circulation pump.Frontal easy access for diagnostics.
Luna SAT RPEHydraulic connections assembled on the frame. Low consumption circulating pump UPS 25/70. Inspectional filter on heating circuit.
Mid dimension dwelling in block
of flats
N A
BC D
E
F
G
H I L
M
Manometro
mmH2O
mbar
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
Manometro bar
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
ECO
DN 65
DN 65
10
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer. You can download the above scheme in *.dwg format for CAD uses through Baxi Tech Area on baxi.it.
New at MCE 2010
Comfort
QAD
RVA 47
M/B1
0
Q1
M/B3
Q3 MB/D
B
M/H1
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
M/B70
MB/DB
DN 65
QAD
OCI 600
Null Modem
60
0 120
20
40 80
100
TERMOMETRO
°C
RVA 46
MB/DB
M/B1
Q2 Y1/Y2
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
QAD
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
RS-232
PC with ACS7.. Local Printer
Remote Office
El. Power
Integrated system for heating and energy production, provided with built in automation system consisting of condensing boilers in cascade combined with mCHP system. Heat box for each dwelling and DHW production with solar system.
Very high seasonal average efficiency solution • Wide modulation ratio of the cascade (over 1:12) to meet different seasonal • needs with the maximum comfortCovering 18% of annual heating requirement and 55% of DHW thanks to • solar integration (installation site case: Istanbul - Turkey)
Solar collector SB 25+HGross surface 2,5 m² Meander structure insideStagnation temperature: 218 °CNon-reflecting glass
Built in automation systemThis system ensures higher efficiency of the heating plant.
Heating centralised system for combined production of
heating, energy and DHW consisting of condensing
boilers, mCHP system, solar thermal collectors.
A - solar collector
B - double coil cylinder
C - differential controller
D - controller
E - solar expansion vessel
F - heat boxes
G - puffer tank
H - boilers in cascade
I - mCHP Dachs
L - hydraulic separator
M - external sensor
N - built in automation system
Luna Duo-tecRemovable control panel with wide LCD and backlight. Wide modulation ratio (1:7), higher efficiency and noiselessness. Built in modulating circulation pump.Frontal easy access for diagnostics.
Luna SAT RCEasy consumption recording and fair costs sharing.
mCHP DachsInternal combustion enginePerformance data: 5,5 kWel, 12,5 kWth (CHP)CO2 reduction
A
B
C
DE
F
G
H
I
LM
N
Mid dimension dwelling in block
of flats
11
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer. You can download the above scheme in *.dwg format for CAD uses through Baxi Tech Area on baxi.it.
New at MCE 2010
UBTT 1000
60
0 120
20
40 80
100
TERMOMETRO
°C 60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
ECO
QAD QAD
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
Allo scarico
Alle Utenze
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
Allo scarico
60
0120
20
4080
100
TERMOMETRO
°C
60
0120
20
4080
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
60
0 120
20
40 80
100
TERMOMETRO
°C
QAD
Caldaia a biomassa
zona alta temperatura zona miscelata zona miscelata
Solar collector SB 25+VGross surface 2,5 m² Meander structure insideStagnation temperature: 218 °CNon-reflecting glass
Solution for a modern heating plant with low environmental impact• Auxiliary boiler to ensure maximum comfort even in case of solid fuel lack• Covering 20% of annual heating requirement and 60% of DHW thanks to • solar integration (installation site case: Istanbul - Turkey)
Autonomous system for DHW and boiler for integration for
2 zones heating
A - solar collector
B - tank in tank cylinder
C - differential controller
D - controller
E - solar expansion vessel
F - air vent
G - thermostatic mixing valve
H - biomass boiler
I - auxiliary boiler
L - safety group
M - sanitary expansion vessel
N - heating expansion vessel
O - thermoregulation
Integrated system consisting of a biomass boiler and a condensing one for heating and DHW production with solar integration for heating and DHW.
Large residential house
Baxi storage tank (UBTT 1000)Tank in tank cylinder 1.000 ltDHW centralised productio
Luna PlatinumRemovable control panel with text display, encoder and backlight. Wide modulation ratio (1:6), higher efficiency and noiselessness. Circulation pump totally modulating.
Multi HeatHigh efficiency: up to 91%Adjustable output: 30-100%Electronic regulation of the fuel and of the airSafety device for non return flame
N
A
F
B
CD
E
G
HI
L
M
O
12
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Integrated system consisting of heat only condensing boilers in cascade with solar integration (vacuum tubes collector) for heating and DHW production with a “pipe in tank” indirect cylinder.
Solution with high average seasonal efficiency• Central heating in cascade with wide modulation ratio (over 1:8) to satisfy • different seasonal operating period with highest comfortCovering 15% of annual heating requirements and 74% of DHW thanks to • the solar integration (installation site case: Istanbul - Turkey)
Vacuum tubes collector SVB 26Gross surface 2,57 m² Absorption capacity: 96%Nr 14 tubes collector
Baxi “Pipe in Tank” UBPT 10001000 lt pipe in tankStainless steel AISI 316L coilAnti - legionella
Autonomous heating system with vacuum tubes collectors
for DHW production and boiler integration for heating.
A - vacuum tubes collector
B - pipe in tank
C - circulating group
D - differential controller
E - solar expansion vessel
F - air vent
G - thermostatic mixing valve
H - boiler
I - safety group
L - hydraulic separator
M - external sensor
N - controllers
Large residential house
Luna3 System HT MPDigital control panel with heating and DHW timersBuilt-in climatic regulation (external sensor as optional)Modulating circulation pump
C E
cold water inlet
H
BAXI
M
M
230 V
D
DHWG
L
MN
low temperature circuit
high temperature circuit
solar circuit
AF
B
13
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Solution with high average seasonal efficiency• Central heating system in cascade with wide modulation ratio (more than 1:8) • to satisfy different seasonal working period with maximum comfortCovering 72% of annual DHW requirement, thanks to solar integration • (installation site case: Istanbul - Turkey)
C E
B
S2
cold water inlet
S2
H
I
BAXI
M
M
230 V
D
F
DHWG
L
MN
low temperature circuit
high temperature circuit
solar circuit
A
S1
Independent heatingsystem with solar collectors
to supply DHW, boilerintegration and two zones
heating management
A - pitched roof solar collector
B – solar storage tank
C – solar circulation device
D – solar controller
E – expansion vessel
F – air vent
G – thermostatic mixing valve
H – heat generator
I – safety group
L – hydraulic separator
M – external sensor
N – controllers
Integrated System composed by heating only condensing boilers in cascade,combined with a autonomous solar system for DHW production
Large residentialhouse
Pitched roof solar collector SB20 SR (serial)Absorber surface: 1.9 m2Absorption capacity: 95%Prismatic surface
Baxi storage tank (UB 300 DC)300 litres double coil storage tankMagnesium anodePolyurethane insulation
Luna3 System HT MPDigital control panel with heating and DHW timersBuilt-in climatic regulation (external sensor as optional)Modulating circulation pump
14
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Integrated System composed by a combi condensing boiler with integratedstratification storage tank arranged for the connection to a solar system
Mid dimensiondwelling in rowhouses context
Solution with integration and control of solar system for installation in narrow spaces•
Efficient operation of a mixed system (high-low temperature)•
Covering 65% of annual DHW requirement, thanks to solar integration (installation site case: Budapest - Hungary)•
Pitched roof solar collector SB25Superficie 2,5 m²
Capacità di assorbimento 95%Vetro altamente trasparente
Mixed systemWall hung or built in installation, to handledifferent temperature zones (high/low).The kit is electronically interfaced with the boiler to handle directly a mixed zone
BAXI
primary circuit
(solar)
cold water inlet
A
B
S1
M
high temperaturecircuit
low temperaturecircuit
G
H
DHW
I
L
CDEF
Independent heating systemwith solar collectors and
Luna3 Comfort HT Solar forDHW integration and central
heating
A – pitched roof solar collector
B – Luna3 Comfort HT SolarC – solar circulation device
D – solar controllerE – expansion vessel
F – thermostatic mixing valveG – mixed system
H – external sensorI – controllers
L – air vent
Luna3 Comfort HT SolarCompact appliance including condensingboiler (modulation ratio 1:6), solar tankwith integration through a plates exchanger, solar controller, solar expansion vessel, solar circulation device and thermostatic mixing valve.Remote control with modulatingthermoregulation included.
15
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Mid dimension dwelling in row houses context
Pitched roof solar collector SB 25Gross surface 2,5 m² Absorption capacity: 95%Clear glass
Luna3 Comfort IN HT SolarCompact solution integrating a condensing boiler (modulation ratio 1:6), solar cylinder 120 or 150 lt with integration via plate exchanger, controller, expansion vessel, circulating group and thermostatic mixing valve. Remote control with LCD display, heating timer and climatic regulation included. Automatic filling of central heating. One high temperature zone and 2 low temperature.
Solution with solar integration for built in installations•
Efficient operation of a mixed system (high-low temperature)•
Covering 60% of annual requirements thanks to the solar integration (installation site case: Budapest - Hungary)•
Autonomous heating system with solar collector and boiler with built-in solar integration.
A - solar collector
B - Luna3 Comfort IN HT Solar
C - circulating group
D - differential controller
E - solar expansion vessel
F - thermostatic mixing valve
G - mixed system
H - external sensor
I - thermoregulation
L - air vent
Integrated system consisting of condensing built-in boiler with stratification storage for the control of an autonomous solar system.
PRIMARY CIRCUIT (solar)
Cold water inlet
A
S1
First low temperature circuit
H
DHW
L
Second low temperature circuit
High temperature circuitCDEF
I
G
B
16
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Large residential house
Pitched roof solar collector SB 20 SR (serial)Gross surface 1,9 m² Absorption capacity: 95%Prismatic surface
Luna3 Comfort HT SolarCompact solution integrating a condensing boiler (modulation ratio 1:6), 200 lt solar cylinder with integration via plate exchanger, controller, expansion vessel, circulating group and thermostatic mixing valve. Remote control with LCD display, heating timer and climatic regulation included. Automatic filling of central heating.
Integrated system for the control of an autonomous solar system, consisting of a condensing boiler with stratification storage
Solution with solar integration for installations in narrows spaces (garret, understairs)•
Efficient operation of a mixed system (high-low temperature)•
Covering 52% of annual requirements thanks to the solar integration (installation case: • Prague - Czech Rep)
BAXI
PRIMARY CIRCUIT (solar)
Cold water inlet
A
B
S1
M
High temperature circuit
Low temperature circuit
G
H
DHW
L
CDEF
I
Autonomous heating system with solar collector and boiler
with solar connection
A - solar collectorB - Luna3 Comfort HT Solar
C - circulating groupD - differential controller
E - solar expansion vesselF - thermostatic mixing valve
G - mixed system (on request)H - external sensor
I - thermoregulationL - air vent
Mixed systemWall hung or built-in installation for managing mixed system (high – low temperatures). The device communicates electronically with the boiler (for Luna3 Comfort HT Solar MS models the mixed system kit is integrated in the boiler).
17
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Solution with integration and control of solar system for installation in extremely narrow spaces:• solar tank on the roof and compact wall hung boiler• Advanced handing of DHW comfort with solar kit to optimize the integration between solar system and boiler• Covering 77% of annual requirement, due to solar integration (installation site case:Thessaloniki - Greece)•
BAXI
E
I
D
DHW
cold water inlet
primary circuit (solar)
A
G
C
B
secondary circuit (radiators)
Solar by-pass
D
FH
MIndependent heating M
system with natural draftsolar collectors and combistandard efficiency boiler
A – natural draft solar collectors
B – solar kit
C – expansion vessel
D – safety valve
E – combi boiler
F – external sensor
G – solar tank
H – air vent
I – controller
Integrated System composed by a combi standard efficiency boiler and asolar kit to integrate boiler with solar system
Two panels solar collector SB20 natural draftAbsorber surface: 2x2.02m²300 litres storage tankClear glass
Luna3 ComfortRemote control with LCD display, heating timer andthermoregulation function includedEnhanced heat exchangerBuilt-in climatic regulation(external sensor as optional)
Solar kitWall hung or built in installation, to integrateefficiently the solar DHW production withthe boiler
Mid dimensiondwelling in rowhouses context
18
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Solution with independent heating system for each dwelling• Centralized DHW production with solar integration to optimize efficiency and • consumption.Covering 75% of annual DHW requirement, thanks to solar integration• (installation site case: Rome - Italy)•
Integrated system composed by heating only condensing boilers for eachsingle dwelling and centralized domestic hot water system (with countersystem) composed by solar system supported by a gas boiler
Mid dimensiondwelling in
apartment buildingcontext
Flat roof solar collectors SB25Absorber surface: 2,5 m2Absorption capacity: 95%Clear glass
Luna3 Comfort IN HTBuilt-in model with wide modulation ratio (1:6)Remote control with LCD display, heating timerand thermoregulation function includedAutomatic filling of central heating
D
B
G
M
ingresso acqua da acquedotto
S4
S3
S5
M
L
F
BAXI
BAXI
C
E
A
S1 S2
acqua fredda sanitaria
acqua calda sanitaria
acqua fredda sanitaria
acqua calda sanitaria
acqua fredda sanitaria
acqua calda sanitaria
acqua fredda sanitaria
acqua calda sanitaria
CIRCUITO DI RICIRCOLO
CIRCUITO ACS
CIRCUITO ACQUAFREDDASANITARIA
sifone consigliato per evitare la circ. naturale
BAXI
BAXI
BAXI
circuito di riscaldamento
circuito di riscaldamento circuito di riscaldamento
circuito di riscaldamento
230 V
H
Heating plant with solarstorage tank for DHW
production – independentheating systems with heating
only boilers
A – solar collectors
B – double coil storage tank
C – heating only boiler
D – solar circulation device
E – solar controller
F – thermostatic mixing valve
G – expansion vessel
H – air vent
L – safety device
M – auxiliary boiler for DHW
Luna3 Comfort HTWide modulation ratio (1:6)Remote control with LCD display,heating timer and thermoregulationfunction includedStainless steel water/flue heat exchanger:reliability and long life
Baxi storage tank (UB 1500 DC)Double coil storage tankCentralized production of DHW
19
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Centralized heating solution with WIRELESS counter to individually handle each • apartmentCentral heating in cascade (cabinet) with solar integration for each apartment• Covering 60% of annual DHW requirement, • thanks to solar integration (installation site case: Prague - Czech Rep)
Solar system withcondensing modulatinggenerator for external
installation and built-in heatcounter for each apartment
A – solar collectors
B – double coil storage tank
C – solar circulation device
D – solar controller
E – thermostatic mixing valve
F – expansion vessel
G – air vent
H – condensing modulating
generator
L – Luna SAT R/1
Integrated system composed by heating only condensing boilers in cascade(with counter system for each single dwelling), combined with a centralizedsolar system (with counter system for each single dwelling) to supply domestichot water
Baxi storage tank (UB 1500 DC)Double coil storage tankCentralized production of DHW
Flat roof solar collector SB100Absorber surface: 2x10,05 m²Absorption capacity: 95%Clear glass
Mid dimensiondwelling in
apartment buildingcontext
Condensing boilers with cabinets (GMC) BAXIModels 2 or 3 doors suitable for Luna HT series, availablewith inlet and outlet hydraulic connections on both right andleft partEasy to install and quick to connect
Heat counter Luna SAT R/1To count domestic water (hot/cold) and CH consumptionData reading and transmit via WIRELESSCopper hydraulic group with automatic by-pass and integratedhydraulic connections
M
E
C
B
F
S2
D
DHW
cold water inlet
230 V
AS1
G
B
I
20
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Solution for centralised heating with heat boxes (wireless) for each dwelling • Centralised DHW production with solar integration• Covering 54% of annual requirements thanks to the solar integration •
(installation site case: Budapest - Hungary)
Integrated system consisting of heat only condensing boiler for each apartment and centralised DHW (with counter system) made by solar.
Mid dimension dwelling in block
of flats
Pitched roof solar collector SB 25Gross surface 2,5 m² Absorption capacity: 95%Clear glass
Luna SAT R2ZBuilt in model with 1 DHW volumetric meter and 1 for cold water. Wireless data transmission. Easy interface with Baxi software for data recording.
Heating plant with DHW production (solar) and built
in heat boxes
A - solar collector
B - double coil cylinder (solar)
C - double coil cylinder (boiler)
D - differential controller
E - external sensor
F - controller
G - solar expansion vessel
H - boiler
I - safety group
L - hydraulic separator
M - air vent
N - tanks recirculation
O - circulating pump (sanitary)
P - circulating pump (heating)
Q - heat box
R - thermostatic mixing valve
Luna HT (commercial applications)Stainless steel double chamber exchanger: high output in compact size, reliability and long life.Digital control panel “advanced CPS system” with push buttons and wide LCD display with text and symbols. Wide range: from 35 to 100 kW.
Baxi storage tank (UB 1000 DC)Double coil cylinder 1000 ltDHW centralised production
AS1
M
circuito alta temperatura
circuito bassa temperatura
M
R
G
C
H
BAXI
I
E
B
S2L
ND
230 V
F
A
O
P
Q
21
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Solution for centralised heating with heat boxes (wireless) for each dwelling • Centralised DHW production with solar integration• Covering 52% of annual requirements thanks to the solar integration (installation •
site case: Budapest - Hungary)
Heating plant with DHW production (solar) and built
in heat boxes
A - solar collector
B - double coil cylinder (solar)
C - differential controller
D - controller
E - thermostatic mixing valve
F - solar expansion vessel
G - air vent
H - boiler
I - heat box
Integrated system consisting of floor standing condensing boiler in cascade for centralised heating and heat box for each dwelling and centralised DHW production with solar and counter system.
Pitched roof solar collector SB 25Gross surface 2,5 m² Absorption capacity: 95%
Baxi storage tank (UB 1500 DC)Double coil cylinder 1500 ltDHW centralised production
Mid dimension dwelling in block
of flats
Power HT Stainless steel double chamber exchanger: high output in compact size, reliability and long life.Digital control panel “advanced CPS system” with push buttons and wide LCD display with text and symbols. Wide range: from 45 to 150 kW.
Luna SAT RHHydraulic connections with bottom inlet with rotation possibility. Brass components with automatic by-pass and integrated hydraulic connections.
ACS
S1 S2
A
S4
M
230 V
B
C
D E
G
F
H
I
22
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
One heating boiler for constant energy requests • Solar “Comfort” controller• Covering 80% of annual DHW requirement, thanks •
to solar integration (installation site case:
Budapest - Hungary)
Integrated system consisting of condensing boiler for heating and DHW production of sport facility and dressing room, with solar integration for DHW production and swimming pool.
Mid or big dimension of
commercial and social buildings
Pitched roof solar collector SB 25Gross surface 2,5 m² Absorption capacity: 95%Clear glass
Luna HT (commercial applications)Stainless steel double chamber exchanger: high output in compact size, reliability and long life.Digital control panel “advanced CPS system” with push buttons and wide LCD display with text and symbols. Wide range: from 35 to 100 kW.
Heating plant with DHW production (solar)
A - solar collector
B - single coil cylinder
C - single coil cylinder
D - differential controller
E - controller
F - solar expansion vessel
G - air vent
H - thermostatic mixing valve
I - plates exchanger
L - diverter valve
M - boiler
N - controller
O - circulating pump
P - external sensor
Q - safety group
R - hydraulic separator
Baxi storage tank (UB 1000 SC)Single coil cylinder 1000 lt
M
Cold water inlet
H
230 V
F
C
E
M
BAXI
Q
P
B
S2
DHW at point of use
R
0
A
S1
G
D
Swimming poolI
M
D
H
L
N
23
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
Modern heating solution with biomass boiler and no fuel need• Solar “Comfort” controller• Covering 70% of annual DHW requirement, thanks to solar •
integration (installation site case: Budapest - Hungary)
Heating plant with renewables and integration
for heating.
A - solar collector
B - tank in tank cylinder
C - differential controller
D - controller
E - solar expansion vessel
F - air vent
G - thermostatic mixing valve
H - plates exchanger
I - diverter valve
L - boiler
M - controller
P - external sensor
Integrated system consisting of biomass boiler for heating and DHW production with solar integration for the swimming pool.
Baxi storage tank (UBTT 1000)Tank in tank cylinder 1000 ltDHW centralised production
Built-in solar collector SB 13 INGross surface 1,25 m² Absorption capacity: 95%
Solo InnovaFloor standing steel boiler operating with wood. Copper heat exchanger
C E
B
S2
Cold water inlet
S2
M
230 V
D
DHWG
A
S1
F
High temperature circuit
M
Low temperature circuit
D
L
H
I
D
M
I
Swimming pool
100% renewables
Large residential house
24
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
More than one water heater to have a higher modulating output• Acquatech gas water heaters to satisfy large DHW demands• Covering 53% of annual DHW requirement, thanks to solar integration •
(installation site case: Budapest - Hungary)
Integrated system consisting of condensing boilers for heating only and DHW with solar and gas water heater.
Mid large commercial application
Pitched roof solar collector SB 25Gross surface 2,5 m² Absorption capacity: 95%Clear glass
Luna HT (commercial applications)Stainless steel double chamber exchanger: high output in compact size, reliability and long life.Digital control panel “advanced CPS system” with push buttons and wide LCD display with text and symbols. Wide range: from 35 to 100 kW.
Solar plant with cascade of water heaters.
1 - solar collector
2 - single coil cylinder
3 - differential controller
4 - controller
5 - gas instantaneous water
heater
6 - remote control
7 - circulating pump
8 - safety valve
9 - diverter valve
10 - thermostatic mixing valve
11 - expansion vessel
12 - pump relay
A - boiler
B - hydraulic separator
C - ISPESL
D - cascade controller
E - RT thermostat
F - high temperature pump
G - low temperature controller
H - thermostatic mixing valve
I - low temperature pump
L - external sensor
Acquatech gas water heatersRemote control for programming and diagnosticsDHW delivered at stable temperatureElectronic modulation
Baxi storage tank (UB 2000 SC)Single coil cylinder 2000 lt
B
L
M M
A
C
D E
F
G
H I
230 V
D
S1
M
Solar Circuit
DHW
1
2
3
4
5
6
7
8
9
10
Cold Water Inlet
gas
11
12
25
Integrated Systems
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
More than one water heater to have a higher modulating output•
High output for short demand or high DHW flow•
Autonomous operation of the heating plant•
A - gas instantaneous water
heater
B - remote control
C - circulating pump
D - expansion vessel
E - non return valve
F - filter
G - pump relay
H - safety valve
1 - Power HT
2 - hydraulic group ISPESL
3 - hydraulic separator
4 - external sensor
5 - circulating pump
6 - zone valve
7 - non return valve
Integrated system consisting of condensing boilers for heating only and DHW with gas water heaters.
Power HT Stainless steel double chamber exchanger: high output in compact size, reliability and long life.Digital control panel “advanced CPS system” with push buttons and wide LCD display with text and symbols. Wide range: from 45 to 150 kW.
Mid large commercial application
Acquatech WHX gas water heatersRemote control for programming and diagnosticsDHW delivered at stable temperatureUp to 192 lt/min (cascade installation)Outdoor installation without flue systemElectronic modulation
Cold water inlet
Gas
Recirculation circuit
DHW
A
B
F E
C HD
G
4
12
3
5
6
7
by-pass circuit
Low temperature circuit
Low temperature circuit
26
By accessing to the www.baxi.it, Reserved Area and then to the Tech Area, just after a quick registration it is possible to display and download the following documents:
Certifications•
Fault Finding List•
General Catalogues•
General informations catalogues of all Baxi products•
Instructions Manuals•
PCB Service Instructions•
Spare Parts Catalogues•
Technical Draw•
Technical INFO•
More details and information on the website
Integrated Systems dedicated areaIn the Baxi Tech Area, documents section, it is available a brand new category named Integrated Systems in which it is possible to:
Download installation schemes of the new portfolio of Baxi integrated systems in *.DWG format for CAD systemDownload new integrated systems images in JPG format (average resolution) Download solar computation report of the new integrated systemsDownload always the update version of the catalogueRegister to the newsletter dedicated to the Integrated Systems and receive constantly update and news
Schemes and drawings are just as way of examples: the project should be checked and confirmed by design engineer.
27
Integrated Systems
Free of charge software to design the proper integrated system
Baxi will shortly present a collection of software for the design and quotation evaluation related to solar systems, heating plant with high output in cascade and heat boxes.
The suite BaxiWizard, will be operative inside the reserved area in the baxi.it by selecting the icon - Tech Area -. The access to the Tech Area is free of charge: it is just required a quick registration.Registered users will receive a newsletter as soon as BaxiWizard will be available.
SolarWizard is the program for Baxi solar systems that allows to design the system and to easily understand the price for each component. By putting all the required parameters: installation site, installation scheme, boiler / tank, daily requirements, differential
controller, etc it is possible to get a precise evaluation provided with graphs and tender data. It is then possible to print the detailed quotation.I twill be also possible to send automatically the project to a Baxi engineer to have the necessary assistance and consultancy.
SystemWizard is the Baxi program that enables to deliver systems with high output boilers and heat boxes and get a detailed quotation to be printed.
QualitàAmbienteSicurezzaIS
O 9
001
- I
SO 14001 - OHSAS
18001
36061 BASSANO DEL GRAPPA (VI) ItalyVia Trozzetti, 20Tel. +39 0424 517111 - Fax: +39 0424 [email protected]
www.baxi.it
QualityEnvironment
Safetyare Baxi strategic aims and
the awarded certifications
ensure compliance with the
specific regulations
The Company assumes no responsibility for any possible contents mistakes, and reserves the right to make changes in products, due to technical or commercial demands, at any time without notice.
Baxi S.p.A. 03-10 (E)