Evodens Pro Amc 300034277 en
Evodens Pro Amc 300034277 en
Evodens Pro Amc 300034277 en
• AMC 45 • AMC 90
9.1 to 42.4 kW, for heating only 15.8 to 89.5 kW, for heating only
• AMC 65 • AMC 115
13.5 to 65.0 kW, for heating only 21.2 to 109.7 kW, for heating only
Condensing
EVODENS PRO are delivered with a choice of one of the following two
OPERATING CONDITIONS control panels:
Max. working pressure: 4 bar •D
IEMATIC EVOLUTION: according to the options connected, this enables
Max. working temperature: 90 °C command and control of up to 3 heating circuits according to the outdoor
Safety thermostat; 110 °C temperature + 1 DHW circuit. It also allows optimised management of
Power supply: 230 V/50 Hz combined systems and the control of 2 to 8 boilers in cascade configuration
International Protection marking: IP X4D
(see page 5) when combined with boilers with the IniControl 2 panel (or
homologations DIEMATIC EVOLUTION).
B23P - B33 - C13(x) - C33(x) - C93(x) - C63(x) - C53 • IniControl 2: for operation via a 0-10V input; supplied as standard with this
panel. It is used as a slave boiler as part of an installation in cascade confi-
Gas category guration, actuated by a boiler equipped with the DIEMATIC EVOLUTION
II2ESi3B/P panel or in a cascade system where each boiler is controlled via a 0-10V
NOx class: 6 input.
Different air/flue gas connection configurations are possible; we offer
connection solutions using a horizontal or vertical forced flue, on a chimney
or bi-flow.
Complete hydraulic systems for connection of a cascade of 2 to 8 boilers
are also available; versions with 2 to 4 boilers are presented in this brochure.
Identification no.:
0063CS3928
SUSTAINABLE COMFORT®
PRESENTATION OF THE RANGE
AMC (ALL MODELS)
STRENGTHS
EASY MAINTENANCE
• full access to the boiler from the front
COMPACT
• Dimensions: width 500 mm, depth 500 mm
• Max weight 68 kg
CASCADE (2 TO 8 BOILERS)
• With connection kit and mounting
bracket
MODBUS COMMUNICATION
FLUE GAS SYSTEM
• B23P, C13(x), C33(x), C93(x),
C63(x), C53
• Integrated cascade flue gas valve
HYDRAULIC CONNECTION
• Identical to MCA
PERFORMANCE • Can be replaced without the need
• 45 to 115 kW output to modify the pipework
• Condensing
• 108.0 to 110.6% efficiency
• NOx class 6
• Flow rate proportional to output BURNER
• ∆T 40 K with AMC 45 – 65 – 90 and • S tainless steel premix
∆T 35 K with AMC 115
MODELS AVAILABLE
PROJECT
CONTROL PANEL EVODENS PRO MODEL NOMINAL OUTPUT RANGE ENERGY CLASS REF. NO.
A+
at 50/30 °C (kW) at 80/60 °C (kW)
DIEMATIC EVOLUTION
AMC_Q0013
DESCRIPTION
DETAIL OF THE BOILER INTERNAL
LIGHTING
AMC_Q0011
G
B
C H
D
J
K
E
D
A
3
TECHNICAL SPECIFICATIONS
FOR AMC (ALL MODELS)
BOILER DATA
Generator type: heating only Energy used: natural gas or propane Operating temperature:
Boiler type: condensing Combustion evacuation: chimney or sealed • Max.: 85 °C
NOx class: 6 “CE certificate” ref.: CE 0063CS3928 • Min.: 25 °C
Burner: premix burner
MODELAMC 45 65 90 115
• nominal determined at Qnom (1)
kW 40.8 61 .5 84.2 103.9
Useful output
• intermediate at 30% Qnom (1) kW 13.7 20.5 27.9 34.7
Useful output at 50/30 °C Pn (heating mode) kW 42.4 65 89.5 109.7
Efficiency in % LCV at …% load Pn • 100% Pn at av. temp. 70 °C % 99.1 99.2 97.9 97.1
and water temp…°C • 30% Pn at return temp. 30 °C % 110.6 110.4 108.1 108.0
Seasonal energy efficiency: Product Etas (without control system) % 94 94 - -
Seasonal energy efficiency: AMC EVOLUTION Etas (with control system) % 96 96 - -
Useful efficiency at …% • at 30 % Eta 1 % - - 97.4 97.3
of the nominal heat output • at 100% Eta 4 % - - 88.2 87.5
Nominal water flow rate at Pn and ∆T = 20 K m3/h 1 .72 2.62 3.62 4.60
Stand by losses at ∆t = 30 K W 101 110 123 123
Electrical output of auxiliaries at Qnom (1) W 79 89 114 182
Electrical output of auxiliaries in standby W 6 7 7 6
Useful output at 50/30°C min./max. kW 9.1-42.4 13.5-65.0 15.8-89.5 21 .2-109.7
Useful output at 80/60°C min./max. kW 8-40.8 12-61 .5 14.1-84.2 18.9-103.9
Flue gas mass flow rate min./max. kg/h 14/69 21/104 28/138 36/178
Pressure available at boiler outlet Pa 150 100 160 220
Water content l 4.3 6.4 9.4 9.4
Minimum water flow rate required if operating above 75 °C m3/h 0.195 0.290 0.340 0.455
Water side pressure drop at ∆T = 20 K mbar 114 163 153 250
• natural gas H/L m3/h 4.4/5.1 6.6/7.6 9.1/10.6 11 .3/13.6
Max. gas flow rate (15 °C-1013 mbar)
• propane m3/h 1 .7 2.5 3.5 4.4
Weight (empty) kg 53 60 67 68
(1) Qnom = nominal heat output
100
80 340 80
750
KEY
eating flow R 1" 1/4
H
Gas inlet R 3/4"
Heating return R 1" 1/4
Condensate discharge (siphon and Ø 25 mm ribbed flow hose for
2 outside use supplied)
6 2 4
4 Air-gas connection:
295
AMC_F0020
50
6 • Ø 80/125 mm for AMC 45
130 • Ø 100/150 mm for AMC 65, 90 and 115
8 191 50
365 75
8
4
CONTROL PANELS
FOR AMC (ALL MODELS)
IniControl 2
or
• For zone controlling:
M M M M M M M M M M M MM MM M M M
MM M M
M M
M M M
M MM M M M M
M MM M M MM
M MM
M
M M M
MM M M
M M MM
MM M M
MM M
M M MM
M M
M M M M M
M M M
0-10 V
AMC 45/115 AMC 45/115 AMC 45/115
IniControl 2 IniControl 2 IniControl 2
WITH DIEMATIC EVOLUTION CONTROL PANEL FOR THE 1ST BOILER IN THE CASCADE (MASTER BOILER)
AND 1 INICONTROL 2 PANEL FOR EACH OF THE SLAVE BOILERS
• For zone controlling:
DIEMATIC Evolution
M M M M M M M M M M M MM MM M M M
MM M M
M M
M M M
M MM M M M M
M MM M M MM
M MM
M
M M M
MM M M
M M MM
MM M M
MM M
M M MM
M M
M M M M M
M M M
5
CONTROL PANELS
FOR AMC (ALL MODELS)
WITH A DIEMATIC EVOLUTION CONTROL PANEL FOR THE FIRST BOILER IN THE CASCADE (MASTER
BOILER) AND 1 OR SEVERAL DIEMATIC EVOLUTION PANELS FOR EACH OF THE SLAVE BOILERS
DIEMATIC Evolution
M M M M M M M M M M M MM MM M M M
MMM M M
M M
M M M
M M MM M MM
M MM M M MM
M M
MM
MMM M
MM M M
MM M M
MMM M M
MM M
M M MM
M MM
M M M M M
M M M MM
DIEMATIC Evolution
Boiler 2
AMC 45/115 DIEMATIC EVOLUTION
(slaves)
Boilers 3 to 8 • 1 or several DIEMATIC EVOLUTION panels according to the number of circuits to be managed
AMC 45/115 IniControl 2 or
AMC 45/115 DIEMATIC EVOLUTION
if necessary (slaves)
6
CONTROL PANEL
DIEMATIC EVOLUTION
AMC_Q0012
Status indicator LED:
- continuous green = normal
operation
Rotary/push button:
- flashing green = warning
- turn to select a menu or
- red = blockage
parameter
- continuous red = locked
- press to confirm the
selection
control panel.
It is used to control a mixing valve with an electromechanical or electrothermal motor. The PCB is inserted in the DIEMATIC
EVOLUTION panel and is connected using plug-in connectors. DIEMATIC EVOLUTION can house 1 “PCB + sensor” option,
enabling it to control 1 additional mixing valve.
7
CONTROL PANEL
DIEMATIC EVOLUTION
AD140
8666Q120A + 8801Q003
AD321
our communication gateways that transform our proprietary buses into standard ModBus RTU RS485 have adjustable
parameters such as speed, parity and stop bit.
If the SMART TC° can operate as a classic remote control, without Wifi or application, it is recommended to connect it to
the internet to benefit from the latest updates.
8
CONTROL PANEL
INICONTROL 2
Digital display
(large format)
On/Off
Socket for the PC
switch
connection
C140_Q0011
Keys:
• access to the various menus or parameters,
• setting, manual reset variant according to the selections
9
BOILER OPTIONS
HR42
PRIMARY PUMP FOR AMC 45 - PACKAGE HC147
(supplied with two “1/2 union” 1” 1/2 - 1” connectors)
HR43
This pump can also function as an injection pump in cascade installations.
Caractéristiques de la pompe Alpha2 L 25-60 180
(HC147 - HC142)
Specifications for the GRUNDFOS ALPHA2 L 25-60 180 pump
kPa m
kPa mCE
(water column)
7
60 6
Fixed speed
Vitesse fixe
manométrique
50 5
Availabledisponible
Pression constante
head
40 4 Pression proportionnelle
Proportional pressure
Dynamic
DY868 HR45
Hauteur
20 2
MCA_F0015
10 1
MCA_Q0034
MCA_F0168
0 Perte de charge
0,0 0,5 1,0 1,5 2,0 2,5 3,0
Flow
Débitrate
en min3/h
m3/h 1 MCA 45
DTG 130-45
100
manométrique
10
disponible
pressure
80 Pressionpressure
Constant constante
head
8
Proportional pressure
Pression proportionnelle
Dynamic
60
Available
6 InEn
"AutoAdapt" position
position “AutoAdapt”
Pression
Hauteur
40 4
1 a AMCPerte
65 pressure
de charge drop
20 2 1
2
AMCMCA
90 65
and 115 pressure
DTG 130-65
drop
MCA_Q0038
0 0
MCA_F0169
0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0 4,5 5,0 5,5 6,0 2 MCA 90-115
DTG 130-90/115
Débit en m
Flow rate in3/h
m3/h
MCA_F0169_FR
The De Dietrich independent tanks in the B… series, with a capacity of 150 to 3000 litres, enable production of domestic hot
water for individual and collective housing, and industrial and commercial premises. They are protected internally by food
safety quality high-quartz vitrified enamel, and by a magnesium anode. The specifications and performance of these tanks
is given in the price catalogue and respective technical brochures.
10
BOILER OPTIONS
10
0
ma mm
CONNECTION KIT FOR AMC 45, 65, 90 AND 115 BOILERS/INDEPENDENT OR
xi
SOLAR TANKS - PACKAGE EA121
This kit also includes the booster pump, 1 non-return valve, 1 manual vent, stainless connection hoses… allowing 1 AMC
boiler to be connected to an independent DHW or solar tank, on the right- or left-hand side of the boiler.
MCA_F0057A
H
MCA_F0057A
LOW-LOSS HEADER:
• 60/60 - 1” FOR AMC 45 AND AMC 65 - PACKAGE GV45
• 80/60 - 1” 1/4 FOR AMC 90 AND AMC 115 - PACKAGE GV46
kit de liaison EA121
pour MCA 45-115 sur BP/BL UNO/2, DUO/2, TRIO
1080 mm 800 mm
H en mm
maxi mini
recommended.
The headers are provided with insulation and fitted with a wall-mounting bracket and an accessories kit comprising a
plug, an air vent and a 1/2" drain valve.
PRINCIPLE
Acid condensates are conveyed via a reservoir filled with granulates before being sent to the wastewater network.
SA9
DU13
Condensates
Station de
DU15 neutralisation
neutralisation
des condensats
station
Min.
Mini
150 mm
150 mm Condensate
Evacuation
AMC_F0026
desdischarge
condensats
This support is used to attach the SA1 neutralisation tray to the wall.
DN1_Q0002
An annual inspection of the system is required, including a check of the effectiveness of the granulates via a pH
measurement. If necessary, the granulates must be replaced.
11
BOILER OPTIONS
BI-FLOW ADAPTER:
• Ø 80/125 mm ON 2 X Ø 80 mm - PACKAGE DY906
• Ø 100/150 mm ON 2 X Ø 100 mm - PACKAGE DY907
MCA_F0015
CONDENSATE COLLECTOR:
• Ø 80/125 mm - PACKAGE DY916
• Ø 110/150 mm - PACKAGE DY918
DY868 HR45
FUMI_DY916
MCA_F0015
12
CASCADE SYSTEMS
500
AMC 45 to 115 cascade systems are available in 3 versions: • LW: pour for wall-mounted alignment 30 of the constituent boilers,
• LV: for floor-mounted alignment of the constituent boilers.
• RG: back to back alignment
100
These systems comprise:
• the low-loss header: 1 header model up to 350 kW, 1 other model for outputs > 350 kW,
• the boiler connection manifold comprising the heating return and flow connecting pipes (Ø 65 mm), the gas connecting pipes (Ø 50 mm) welded onto the manifold (as
per the requirements of DTU 61 .1), and the flanges,
• the class A modulating primary injection pumps (EEI < 0.23),
1576 gate valve, non-return valve, safety valve and port for connecting
• the boiler connection kits with the multifunction flow valve, return valve (with the filling and drain valve,
to an expansion vessel), and the gas valve
• the wall mounting rail for the LW versions or the support uprights for LV versions, with the boiler mounting frames,
• the flow sensor + pocket sensor and the BUS cables to connect the boilers. B
NOTE: the boilers must be ordered separately.
0
• “LW” WALL-MOUNTED • “LV” FLOOR-MOUNTED43 • “ RG” BACK TO BACK
ALIGNMENT OF BOILERS ALIGNMENT OF BOILERS ALIGNMENT
500 500 30 55
30
1362
C
100
C
912
D
A A 1576
1576
D E
B B
B
B
AMC_F0028
AMC_F0028
AMC_F0027
0
30 48
4
(1)
1008
912
A Low-loss header C Wall mounting rail A Low-loss header D Support upright
B Manifold D Boiler connection kit B Manifold E Boiler connection kit 1362
C Assembly frame AMC_F0028
1679(1)
500 5
TABLE WITH EXAMPLES
30 5
OF “CASCADE” COMBINATIONS FROM 80 TO 856 KW AMC_F0027
13
CASCADE SYSTEMS
OPTIONS
MCA_Q0101
NOTE: for a “back-to-back” installation, this only needs to be ordered for the boilers at the front.
Number of boilers 2 3 4 5 6 7
Number of feet required 5 6 8 9 11 12
14
INFORMATION REQUIRED
FOR INSTALLATION
POSITIONING
• AMC 45 AND 65
AMC 45 and 65 boilers can be installed anywhere within the home, provided that this location is not at risk 53
min0
i
of frost and can be well-ventilated; under no circumstances may it be installed on top of a heat source or
cooking appliance. Thanks to their IP X4D International Protection marking, they may be installed in kitchens and
bathrooms, although not in protection areas classified as 1 or 2. The wall on which the boiler is to be attached
must be able to bear the weight of the boiler when filled with water. 40
min0
To ensure sufficient access around the boiler, we recommend respecting the minimum dimensions detailed i
opposite.
S1
ventilation (with chimney connection - type B23P, only): 750
The room ventilation section must comply with the prevailing standards S1
15
min
NOTE : For boilers connected to a concentric forced flue (type C13x or C33x connections) the installation room 00 i
i 10
min
does not need to be ventilated, unless the gas supply includes one or more mechanical connections.
(cf. prevailing standards) 35
min0
i
outside of inhabited areas, in a dedicated room. The installation rules for the terminals (horizontal or vertical)
must also be observed.
00
i 15
min
ventilation:
AMC_F0029
S2
Direct air supply as per the prevailing standards. S2
In order to avoid damage to the boilers, it is necessary to prevent the contamination of combustion air by chlorine and/or fluorine compounds,
which are particularly corrosive.
These compounds are present, for example, in aerosol sprays, paints, solvents, cleaning products, washing products, detergents, glues, road grit, etc.
The following must therefore be ensured:
- Prevent the intake of air expelled by premises using such products: hairdressing salons, dry cleaners, industrial premises (solvents), premises
containing refrigeration systems (risk of refrigerant leakage), etc.
- Avoid storing such products close to boilers.
We would like to underline that, should the boiler and/or peripheral equipment be corroded by chlorine and/or fluorine compounds, the contractual
guarantee will be invalidated.
GAS CONNECTION
The applicable regulations and provisions must be complied with. In all cases, a shut-off valve must be placed as close to the boiler as possible. This valve is supplied in
the hydraulic connection kits supplied as an option (see p. 9). A gas filter must be fitted at the boiler inlet.
The diameters of the pipes must be defined in accordance with the prevailing standards.
Gas supply pressure:
• 20 mbar with H natural gas
• 25 mbar with L natural gas,
• 37 mbar with propane.
CERTIFICATE OF CONFORMITY
The installer is required to draw up a certificate of conformity approved by the ministries responsible for construction and gas safety.
ELECTRICAL CONNECTION
This must comply with the prevailing standards.
The boiler must be supplied via an electrical circuit which includes an omnipolar switch with an opening gap distance of > 3 mm. Protect the network connection using
a 6A fuse.
NOTE:
• The sensor cables must be separated from the 230 V circuits by at least 10 cm,
• To help maintain the frost protection and anti-blocking functions of the pumps, we recommend that the boiler is not powered off using the mains switch.
15
INFORMATION REQUIRED
FOR INSTALLATION
CLASSIFICATION
Key
� CONFIGURATION C13(x): Air-flue gas
Lmax = L1+L2 Lmax
connection via concentric ducts to a
horizontal terminal ("forced flue")
L1 Lmax
Max. L
� CONFIGURATION C33(x): Air-flue gas
C43x connection via concentric ducts to a vertical
C33x terminal (roof outlet)
Lmax
Lmax L2 Lmax � CONFIGURATION C93(x): Air-flue gas
12 2 connection via concentric ducts in boiler
1m(1) room, single ducts in flue (combustion air in
counter-current in flue)
L2 Lmax
Lmax or
C13x C33x
C43x B23P � CONFIGURATION C93(x): Air-flue gas
B33
connection via concentric ducts in boiler
room, single “flexi” ducts in flue (combustion
6 air in counter-current in flue).
1 2 12
L1 (1) (1) � CONFIGURATION C53: Separate air and
1m (1)
1m 1m
Lmax flue gas connection, single ducts (combustion
air taken from outside)
Lmax =
B23P B23P C43x C93x C93x C33x
L1+L2 C53 � CONFIGURATION B23P/B33: Connection to
a chimney (combustion air taken from within
the boiler room).
8531F291C
5 7 7 12 3 4 2
� CONFIGURATION B23P: for cascade
installations
TABLE OF MAXIMUM
(1) Pour chaque PERMISSIBLE
mètre de conduit horizontal
tableau ci-dessous.
supplémentaire, retirerAIR-FLUE
1,20 m à la longueur GAS DUCT
verticale Lmax LENGTHS
indiquée dans le
IMPORTANT
flue gas configuration has to comply with prevailing standards
In flue (rigid or flexi) (combustion air taken from within the Ø 80 mm (flexi) 21 - - -
B23P/B33
premises) (PPs) Ø 110 mm (rigid) - 40 40 40
Ø 110 mm (flexi) - 29.5 (1) 24 17.5
(1) : The max. height in the flue gas pipe (Configuration C93X, B23P/B33) of the support elbow at the outlet must not exceed 25 m for the flexi PPS.
If lengths used do exceed this, mounting brackets must be added every 25 metres.
IMPORTANT
• Reminder: For type B23 and B23P configurations, mixed use of materials is prohibited.
• Please be reminded that the following page gives the installation rules for sealed appliance terminals (type C) with a total output of 70 kW installed in a boiler room and
using gas type fuels
16
INFORMATION REQUIRED
FOR INSTALLATION
WATER CONNECTIONS
IMPORTANT
Condensing boilers are based on the principle of recovering the energy contained in the steam from the flue gases (latent heat of vaporisation). As a result, to achieve
an annual operating efficiency of around 108%, the heating surfaces must be sized so as to obtain low return temperatures, below the dewpoint (for example, underfloor
heating, low temperature radiators, etc.). This must be ensured throughout the heating period.
CONDENSATE DISCHARGE
The installation must be connected to the wastewater drainage system. The connector must be removable, and the flow of condensates must be visible. The connectors
and pipes must be made from corrosion-resistant material. A condensate neutralisation system is available as an option.
WATER TREATMENT
If, however, it is necessary to have the water treated to ensure it respects the filling water quality requirements, please consult: contact a water treatment specialist who
should be able to ensure that the water quality complies with the mix of materials present in the installation, taking all of its components into account.
17
INSTALLATION EXAMPLES
A
The examples shown opposite cannot include all of the possible installation scenarios that may be encountered. They are intended to draw attention to the basic rules to
be respected. A number of safety and control components (including some built into the boilers as standard) are shown, though ultimate responsibility for providing the
final safety and control components in the boiler room, based on its individual requirements, lies with the installers, consultant engineers and design offices. In every case,
it isA+important to comply with the applicable regulations and adhere to good industrial practice.
NB: When connecting on the domestic hot water side, if the distribution pipes are made from copper, a sleeve made from steel, cast iron or any other insulating material
must be placed between the hot water outlet and these pipes in order to prevent any corrosion phenomena on the connections.
A++
EXAMPLES OF INSTALLATIONS WITH A SINGLE BOILER:
A
DIEMATIC EVOLUTION CONTROL PANEL
A+++
Installation of an AMC DIEMATIC EVOLUTION with 1 direct circuit + 1 BPB/BLC type domestic hot water tank
A+
21
B AMC 45
DIEMATIC EVOLUTION
67
A++
C
A+++
64
D
9
230V
50Hz
B 32 230V
EA121 27 AD212 (b)
50Hz
E 27
9
C 3 GAZ
11
17
A 8 24
9 9 AD212
HC139 27
56
D 26
A+ 9 9 16
33 30
9
28
E 29
68 EA121 25
AMC_F0031
A++
A
Installation of an AMC DIEMATIC EVOLUTION with 1 direct circuit + 2 circuits with mixing valve + 1 BPB/BLC type domestic hot water
A+++all four behind a low-loss header
tank, AMC_F0031
A+
B 21 AMC 45
DIEMATIC EVOLUTION
A++
C
4 4
44 44
A+++ 2x AD199 65 65
23 23
9
D 27 27
32
230V 9
9 9 9 27
B 50Hz 7
17 9
E 11b 11b 24
HC139 16
AD212
9 9 10 10
9 9 33
C
SA17 26
AD212
30 29 9
SA24 33
D 28
9 27 25
68
AMC_F0023
B...
E
AMC_F0023
KEY: see page 21
18
INSTALLATION EXAMPLES
A
Installation of an AMC (any model) EVOLUTION with 1 radiator circuit + 1 circuit with mixing valve + 1 DHW circuit, all three behind a
low-loss
A header
A+
A+
21
A++ AMC 45
DIEMATIC EVOLUTION
A++ 9
32
9
A+++ 67 4
A+++ 64
65
44
1x AD199 109
23
52
27 27
B
230V 9 9 9 9
109
B 50Hz
3 17 11a 11b
10
C 9 9 HC139 7
8
AD212
C 9 9
16 HC147 34 33
35 26
D
SA34 9
AD212
D 68 13
9 50 20 18 30 29
33
AMC_F0033
29
28
E
FWS
E
AMC_F0033
19
INSTALLATION EXAMPLES
21
AMC 45 AMC 45 AMC 45 230V
Diematic Evolution IniControl 2 IniControl 2 50Hz
(b)
32 67
230V 230V 230V
1x AD199 50Hz 27 44 44
50Hz 50Hz 64
AD212 65 65
+
23 23
27 27 27
4 4 4 4 4 4
26 27
TS
XN
AU
9
L
BUS BUS 9 9 9 9 9
L
1x AD249 AD212
11a 11b 4 11b 4
9 10 10
9
B 1000
SA18
27 27 27
AMC_F0024
SA25 27
GAZ
30
Système Cascade 9 50 20 18
68 29 9
28
16
AMC_F0024
Specific case of a cascade installation with more than 2 secondary circuits with mixing valve:
installation of 2 AMC PRO...DIEMATIC EVOLUTION boilers in cascade with 4 circuits with mixing valve and one circuit with
convection fans. DHW is made by an FWPC instant DHW tank
21
67
64
23 65 65 149 65
44 44 9 9 44
52
23 23 27 23
4 4 4 4 4 4 4
9 9 9 9 9 9 9 9
27 11a
27 27 4 4 27
11b 11b 11b
4 4 4 9 9 4
10 10 10 10 7
26 9
TS
N
9 9 9 9 9 9 9 9 9
9 27
9 50 20 18
BUS
8
X
AU
123
L
1x AD249 39 39 M
230V/50Hz
3 3 AD199 AD212
9
SA34
27 27 32
9 9 9 9 27
AD212 9 30 29 9 28
GAZ
AMC_F0032
13 16
AMC_F0032
20
INSTALLATION EXAMPLES
Installation of AMC IniControl 2 boilers (any model) in cascade
0-10 V Armoire de
External
commande
controller
39 39 39 en chaufferie
3 3 3
7
8
27 27 27
9 9 9 9 9 9
35
GAZ
AMC_F0030
16
NOTE : F or a cascade installation with AMC IniControl 2 boilers only (any model), the BUS cables and the cascade flow sensor supplied with the system are not
used.
AMC_F0030
KEY
1 Heating flow 23 Flow temperature sensor downstream of 44 65°C limiter thermostat with manual reset for
2 Heating return mixing valve underfloor heating
3 3-bar safety valve 24 DHW tank exchanger primary inlet (DTU 65.8, NFP 52-303-1)
4 Pressure gauge 25 DHW tank exchanger primary outlet 46 3-way directional valve with reversal motor
7 Automatic air vent 26 Cooling pump 56 DHW circulation loop return
8 Manual air vent 27 Non-return valve 64 Radiator circuit (e.g. gentle heating radiators)
9 Isolation valve 28 Domestic cold water inlet 65 Low temperature circuit (e.g. underfloor
10 Three-way mixing valve 29 Pressure reducer heating)
11 Electronic heating accelerator 30 Safety unit calibrated and sealed to 7 bar 67 Manual valve
11a Electronic heating accelerator for direct 32 DHW circulation loop pump (optional) 68 Condensate neutralisation system (optional)
circuit 33 DHW temperature sensor 81 Immersion heater
11b Heating accelerator for circuit with mixing 34 Primary pump 84 Stop valve with releasable non-return valve
valve 35 Low-loss header (can be supplied as an 87 Safety valve calibrated to 6 bar and sealed
13 Flush valve option - see page 11) 109 Thermostatic mixing valve
16 Expansion vessel 39 Injection pump 123 Cascade flow sensor (to be connected to the
17 Drain valve slave boiler)
21 Outdoor temperature sensor (b) External clock
21
DESCRIPTION
EVODENS PRO AMC ..
DESCRIPTION
Complies with the requirements of European directives.
Heating production will be provided by a sealed wall-hung gas-fired condensing boiler for heating only. Its exchanger will be a packaged aluminium-silicon alloy model
with high corrosion resistance and a large exchange surface, operating without minimum flow (flow T° < 75 °C), and able to manage a 40 K difference between the flow
and the return. The exchanger will have low hydraulic pressure loss and will be accessible via the front of the boiler. The entire flue gas circuit will be accessible. The
gas burner will be a total premix model with woven metal fibre surfaces and a silencer on the air intake. Ignition and flame monitoring will take place with an ionisation
electrode. The modulation range will be 18 to 100 %. A condensate collector will be integrated and equipped with a siphon as standard. The boiler will be equipped
with heating body flow/return sensors. A flue gas non-return valve will be integrated as standard in the boiler.
The boiler will be controlled via the Diematic EVOLUTION panel, which integrates a programmable electronic control system that can control up to 3 circuits with three-
way valves, 1 direct circuit and 1 DHW circuit. PWM control of the boiler pump speed based on the burner output and the heating body ∆T°. This control system will
communicate using Modbus RTU RS485 via our optional gateway.
The boiler will include a fault reporting output and a 0-10 V input.
SPECIFIC FEATURES
Cascades of up to 8 boilers:
• Diematic Evolution control system according to the outside temperature, enabling management of a direct circuit, DHW production and with an option of up to 2 valve
circuits. Including heat energy metering, high temperature zone control and swimming pool functions.
• IniControl 2 control system for slave boilers or boilers controlled by 0-10V contact entry.
BOILER OPTIONS
• Hydraulic connection kit
• Modulating primary pump
• Low-loss header (mandatory for cascade operation)
• Condensate neutralisation station
• Bracket for neutralisation station
• Granulate recharge (25 kg) for station
• Condensate neutralisation station with lift pump
• Granulate recharge (10 kg) for station
• Piping cover
• Gas tap
• Heating body cleaning tool
• Flue gas system accessory gas pressure regulator for assembly compliant with the prevailing standards
22
NOTES
23
ENERGY LABELLING
Each boiler is supplied with its energy label. This contains a host of information: installation and generate a
energy efficiency, annual energy consumption, name of manufacturer, noise level, "System" label corresponding to your installation: visit our site
etc. "www.ecodesign.dedietrich-heating.com"
By combining your boiler with a solar system, a DHW storage tank, a control
system or even another generator, you can improve the performance of your
09/19 – 300034277 – 347.555.559 RCS Strasbourg – Non-contractual document. - OTT Imprimeurs 67310 Wasselonne - 192707