the energy generation · 10 intergen / cogeneration 11 cogeneration plants in buildings intergen...
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THE ENERGY GENERATION
Cogeneration
Business Units
Companies
SalesDivisions
After Sales
BU engines
IML Motori srl(Italy)
IML Motoriindustrialengines
Service Italian market Service Worldwide
IML Powermarineengines
IML Crosstekcomponents
Intergen cogeneration
Intergen generating sets& power plants
IML Motoare srl(Romania)
IML Service srl(Italy)
IML Impianti srl(Italy)
BU power plants
ISO 9001:2008 ISO 14001:2004
intergen / cogeneration 3
installed power
1400+ MWe
years of history
70 years
turnover
100+ mln euros
people
160+employees
customers
1000+all over the world
industrial area
33,000square meters
sole distributor
in Italy for
since 1987
gas units range
from 100 to 4300 kWe
Intergen, a long history
Since 2004 Intergen
holds quality certification:
We are members of:
GROUP STRUCTURE
2
Intergen has been operating in the energy market for almost 70 years. The Hotel Gallia
in Milan was one of its first customers, purchasing a generating set in 1945. Intergen has
also been designing and building cogeneration and trigeneration plants for prestigious
customers for 25 years. A team of skilled engineers manages the whole process, from the
analysis of the customer requirements to the preliminary design, building, testing and final
commissioning of the plant. The quality of all the assembled components is ensured under
commercial agreements with important partners worldwide. Intergen also offers a qualified
aftersales service, technical assistance and full-time maintenance service aimed at minimizing
plant lifecycle costs.
Mission vision and values
Intergen is a leading player in the construction of Combined Heat & Power plants. Continuous
upgrading of employees’ technical skills and attention to customer’s needs guarantee the
product’s quality and reliability. Intergen is the synthesis of experience, tradition, forward
lookingness and innovation.
Intergen adopts the principle that companies are first and foremost men, women and ideas.
People with long experience, enthusiastic, creative young people and high-level specialists
united by a passion for their work and the vision of a more liveable, advanced and informed
world. The ongoing commitment of everyone in the company guarantees that excellence, the
key to continuity and market growth, is achieved. Intergen adopts operating policies that fully
respect the person, the territory, the environment and safety at work.
IML GROUP AT A GLANCE
ATTU
ALE
IMP
LEM
EN
TATO
FUTU
RO
40%
35%
25%
10%8%
17%
65%
25%
15%
10%
50%
VA
LOR
E D
EL
SER
VIZ
IO
SERVIZIO QUALITÀ
ricambi
manutenzione piani�cata di 1° livello
manutenzione piani�cata di 2° livello
full service
piani�cata
correttivapiani�cata
correttivaurgente
previsionale
43% ENERGIA ELETTRICA
44% ENERGIA TERMICA
13% PERDITE
intergen / cogeneration4 5
Cogeneration enables the simultaneous production of electricity and heat in a single system
from a single source of fuel, whether fossil or renewable. The production of electricity and heat
in separate processes does not generally allow the heat produced by the combustion process
to be used, and it is therefore dissipated into the environment. Cogeneration, on the other
hand, allows the heat produced by the combustion process to be recovered and used, ensuring
a more efficient use of the raw fuel source. A good example of cogeneration is the production
of electricity using a generating set with an endothermic engine coupled to an alternator.
The heat generated by the endothermic engine’s combustion process is recovered by means
of heat exchangers to produce thermal energy such as:
The use of the recovered heat allows systems to be called “cogeneration” if only heat and
power are generated, and “trigeneration” if cooling, heat and power are generated; in general
an overall increase in the system’s performance is achieved.
Cogeneration
Energy efficiency
Using a cogeneration plant for industrial or residential applications results in savings in raw
energy up to 30% compared to the separate generation of electricity and heat, which can
be fully used in many different processes. Combined production of electricity and heat cuts
significantly the electricity bill, allowing companies to gain a real competitive edge; another
important effect is the considerable reduction in gas emissions which contributes greatly
to environmental protection. Intergen provides turnkey design and installation of systems
using high efficiency engines with a total efficiency that can exceed 87%; this translates
into higher cost savings, thus guaranteeing a fast return on investment.
Service network
know-howOne of the few Italian
companies to have a structured
organization with a team of 30
in-house engineers.
30 in-houseengineers
availabilityWe can intervene promptly,
24 hours a day, 365 days
a year, throughout Italy.
capillarityThe central warehouse
guarantees shipment of spare
parts to the decentralized
storerooms at the plants
within 24 hours.
availabilityThe display and monitoring
of all the operating parameters
both in running conditions
and in the case of a malfunction
maximizes the availability
of the plant.
24/7response
availabilityspare parts
remote controlof the plant
Intergen offers a maintenance service for both engines
and plants through an internal structure which can provide
the service 24 hours a day, 365 days a year.
Intergen currently manages the maintenance of more than
180 plants, thanks to 30 in-house engineers and a network
of authorized workshops throughout Italy, making it one
of the leading operators in this sector.
Accurate planning of on-site activities and continuous training
of the service personnel enable correct performance of all
operations required to optimize the plant’s performance
and maintain it in excellent operating conditions.
Intergen also offers a remote control system with installation
of a modem on site for web communication, enabling
the display and monitoring of all the operating parameters,
both in normal running conditions and in the event of plant
malfunction / shutdown.
› hot water and/or steam for residential or industrial applications;› refrigerated water by means of absorbtion type chillers.
30+%
87+%
savings in primary energy
total efficiency
- 20 fully-equipped vans- emergency response 24/7- spare parts within 24 hours
services offered
1st level programmed
maintenance 2nd level programmed
full service
service quality
va
lue o
f th
e s
er
vic
e
43.5% electrical energy
13.0% losses
43.5% thermal energy
energy introduced by the fuel
100% cogeneration plant
intergen / cogeneration6 7
Cogeneration plants in pre-fabricated sound proof canopies
A highlight of Intergen’s plants is the customized construction of cogeneration plants assembled
on site. The pre-fabricated panelled canopy significantly reduces noise while maintaining compactness
and accessibility for easy operation and maintenance. This construction method is used for large plants
installed outside factories and production sites.
1 Segregated transformer room
2 Command & control room
3 Medium voltage switchgear room
4 Ancillary panels (neutral point resistor,
control unit, MWM TEM engine control panel)
5 Air intake section
6 Air expulsion section fitted with ATEX fans
7 MWM engine-alternator unit
8 Access and maintenance platform
9 Radiator connection piping
and fluid circulation skid
10 Fluid circulation skid complete with pumps,
heat exchangers and regulation system
11 Compressed air motor starting system
12 Oxidizer catalyst
13 Exhaust gas line and silencer
14 Walkways and radiator and catalyst area access
15 Emergency air cooler
16 Sound proof enclosure with access and removable
panels for unscheduled maintenance activities12 3
4
5
6
8
79
13
10
14
11
15
12
16
1560 kWe cogeneration plant
prefabricated sound proof enclosure
4300 kWe cogeneration plant
prefabricated sound proof enclosure
intergen / cogeneration8 9
Cogeneration plants in containers
Intergen designs and installs cogeneration plants in containers, pre-assembling most of the components
in the factory; the modular composition of several containers covers any power need.
This solution guarantees maximum construction compactness and a reduction in the on-site installation
and commissioning time thanks to a final inspection test carried out in the factory.
1 Cogenerator and accessory container
2 Electrical container (command and control board /
transformer / medium voltage)
3 Emergency air coolers
4 Silencers
5 Heat recovery boiler
6 Walkways and access to boiler and radiator area
7 Waste and fresh oil storage system
8 Fluid circulation skid complete with pumps,
heat exchangers and regulation system
9 SCR system (selective catalytic reactor)
for NOX/ CO reduction
10 Command and control panel room
11 Transformer (low voltage/medium voltage)
12 Medium voltage switch gear
1560 kWe
cogeneration plant
in container
1
2
3
4
5
6
7
8
9
10 1112
2000 kWe
cogeneration plant
in container
intergen / cogeneration10 11
Cogeneration plants in buildings
Intergen designs and installs cogeneration plants inside existing or new buildings, assembling
all the components on site and designing a customized solution to optimize the available space.
This approach allows unused spaces to be exploited and minimizes the authorization process.
Intergen can offer consultancy at the estimate stage to find, together with the customer, the best
solution for the system (environmental impact, noise, etc.).
1 Cogeneration plant
2 Absorption chiller unit
3 Silenced cooling tower
4 Refrigeration unit/cooling tower water pumps skid
5 Fresh and waste oil storage system
6 Sound proofed air intake and expulsion ducts
7 Fluid circulation skid complete with pumps,
heat exchangers and regulation system
8 Emergency air coolers
2000 kWe
cogeneration plant
in a building
1
2
3
4
5
6
87
1200 kWe trigeneration plant
in a building
electrical power COP according to ISO 8528-1
fuel consumption
fuel consumption
electrical e�ciency
thermal e�ciency
total e�ciency
400
950
93
42,1
45,4
87,5
[kW]
[kW]
Nm3/h
[%]
[%]
[%]
600
1.433
141
41,9
46,0
87,9
800
1.891
186
42,3
45,5
87,8
1.000
2.334
229
42,8
44,2
87,0
1.200
2.750
270
43,6
43,3
86,9
1.560
3.608
355
43,2
43,8
87,0
2.000
4.577
450
43,7
43,2
86,9
3.333
7.645
752
43,6
42,9
86,5
4.300
9.809
965
43,8
43,0
86,8
exhaust gas �ow rate (wet)
exhaust gas temperature
NOX (5%O
2)
CO (5%O2) with catalytic oxidizer
2.186
457
500
< 300
[kg/h]
[°C]
[mg/Nm3]
[mg/Nm3]
3.299
459
500
< 300
4.360
459
500
< 300
5.434
431
500
< 300
6.488
414
500
< 300
8.530
430
500
< 300
10.851
414
500
< 300
17.778
447
500
< 300
22.714
456
500
< 300
engine jacket waterand lube oil circuit heat
intercooler circuit heat
exhaust heat afterheat exchanger
saturated steam �ow rate, 8 bar
cold water production (from jacketwater and lube oil circuit heat)
cold water production (from jacket water, lube oil and exhaust gas heat)
205
25
226
310
139
293
[kW]
[kW]
[kW]
[kg/h]
KWf
KWf
315
41
343
490
214
447
407
56
454
660
277
585
517
82
516
730
352
702
609
106
582
810
414
810
774
134
806
1.130
526
1.074
1.005
178
972
1.360
683
1.344
1.499
297
1.779
2.370
1.019
ON REQUEST
1.879
359
2.341
3.200
1.278
ON REQUEST
con�guration / no. of cylinders
speed
lube oil consumption
starting system
alternator voltage
Marelli alternator model
genset dry weight
genset footprint [L x P]
genset height [H]
V08
1.500
0,2
400
MJB 355 MB4
5.340
3,1x1,6
2,2
rpm
g/kWh
V (+/- 10%)
[kg]
[m]
[m]
V12
1.500
0,2
400
MJB 400 LC4
7.000
3,7x1,6
2,2
V16
1.500
0,2
400
MJB 450 MB4
8.450
4,2x1,6
2,2
V12
1.500
0,2
400
MJB 500 MB4
11.700
4,8x1,8
2,2
V12
1.500
0,2
400
MJB 500 MB4
11.700
4,8x1,8
2,2
V16
1.500
0,2
400
MJB 500LA4
13.320
5,5x1,8
2,2
V20
1.500
0,2
400
MJB 560 LB4
17.900
6,2x1,7
2,2
V12
1.000
0,3
6,3 KV
MJH 800 MB6
43.100
7,9x2,6
3,4
V16
1.000
0,3
6,3 KV
MJH 800 MC6
51.200
9,4x2,6
3,4
maintenance interval
hours before major overhaul (TBO)
2.000
64.000
h
h
2.000
64.000
2.000
64.000
4.000
64.000
4.000
64.000
4.000
64.000
4.000
80.000
4.000
80.000
4.000
80.000
Electrical
PERFORMANCE TCG2016 TCG2020 TCG2032
VO8 C V12 C V16 C V12 V12 V16 V20 V12 V16
HEAT RECOVERY
EMISSIONS
MOTOR / ALTERNATOR DATA
MAINTENANCE
Pneumatic
NATURAL GAS
REFERENCE CONDITIONS
› methane number: 80
› PCI: 10 kWh/Nm3
› combustion air temperature: 25°C
› combustion air humidity: 60%
› installation altitude:100 m (slm)
› data sheets for di©erent environmental /
altitude conditions are available on request
NOTES
1 the 250 NOX version is available – 2 heat power data are subject to a tolerance of +/- 8% – 3 fuel consumption data are subject to a tolerance of +5%
– 4 data referred to 100% load (data for partial loads are available) – 5 exhaust heat after heat exchanger with cooling to 120°C – 6 heat power with
water/glycol solution at 35% – 7 steam production at 8 barg with economizer and water feeding at 80°C – 8 data for the production of cold water at
7-12°C with COP=0.68 – 9 for the 2032 series, the water/oil exchanger is not supplied assembled on the motor – 10 for the 2032 series, 11 kV alternators
are also available – 11 medium voltage alternators are available on request for the 2020 series – 12 data for 50 Hz alternators, 60 Hz also available
on request – 13 the 2032V12 cogenerator calibrated at 250 mg/Nm3 of NOX is rated to 3201 Kwe electrical power – 14 the maintenance plan for the 2016
motor requires only a valve clearance check at 2000 h.
—
general note the heat recovery data shown are to be con�rmed during engineering stage
general note the technical data are subject to modi�cation by the manufacturer
(2, 9)
(2, 6)
(2, 5)
(10, 11, 12)
(3)
(3)
(4)
(7)
(8)
(8)
(1)
(14) (14) (14)
(13)
electrical power COP according to ISO 8528-1
fuel consumption
fuel consumption
electrical e�ciency
thermal e�ciency
total e�ciency
300
737
132
40,7
43,1
83,8
[kW]
[kW]
Nm3/h
[%]
[%]
[%]
400
948
170
42,2
41,0
83,2
600
1.425
253
42,1
41,2
83,3
800
1.895
341
42,2
41,2
83,4
1.000
2.435
438
41,1
42,8
83,9
1.200
2.833
509
41,6
42,4
84,0
1.560
3.780
679
41,3
42,5
83,8
2.000
4.700
845
42,5
41,8
84,3
engine jacket waterand lube oil circuit heat
exhaust heat after heat exchanger
153
165
204
184
308
279
414
366
525
517
635
587
836
771
1.048
917
[kW]
[kW]
PERFORMANCE TCG2016 TCG2020
VO8 C VO8 C V12 C V16 C V12 V12 V16 V20
HEAT RECOVERY
exhaust gas �ow (wet)
exhaust gas temperature
NOX (5%O
2)
CO (5%O2) with catalytic oxidizer
1.636
503
450
< 300
[kg/h]
[°C]
[mg/Nm3]
[mg/Nm3]
2.143
458
450
< 300
3.219
460
450
< 300
4.282
456
450
< 300
5.449
485
450
< 300
6.513
470
450
< 300
8.535
471
450
< 300
10.584
460
450
< 300
EMISSIONS
con�guration / no. of cylinders
speed
lube oil consumption
starting system
alternator voltage
Marelli alternator model
genset dry weight
genset dimensions [L x P]
genset height dimensions [H]
V08
1.500
0,2
400
MJB 355 MB4
5.340
3,1x1,6
2,2
rpm
g/kWh
V (+/- 10%)
[kg]
[m]
[m]
V08
1.500
0,2
400
MJB 355 MB4
5.340
3,1x1,6
2,2
V12
1.500
0,2
400
MJB 400 LC4
7.000
3,7x1,6
2,2
V16
1.500
0,2
400
MJB 450 MB4
8.450
4,2x1,6
2,2
V12
1.500
0,2
400
MJB 500 MB4
11.700
4,8x1,8
2,2
V12
1.500
0,2
400
MJB 500 MB4
11.700
4,8x1,8
2,2
V16
1.500
0,2
400
MJB 500 LA4
13.320
5,5x1,8
2,2
V20
1.500
0,2
400
MJB 560 LB4
17.900
6,2x1,7
2,2
MOTOR / ALTERNATOR DATA
Electrical
BIOGAS
(3)
(3)
(2)
(1)
(2, 5)
(4)
REFERENCE CONDITIONS
› data valid for biogas with 55% CH4
(data sheets available for biogas 65% CH4)
› methane number: 141
› PCI: 5.6 kWh/Nm3
› combustion air temperature: 25°C
› combustion air humidity: 60%
› installation altitude: 100 m asl
› data sheets for di¤erent environmental /
altitude conditions are available on request
NOTES
1 the 250 and 500 NOX versions are available – 2 heat power data are subject to a tolerance of +/- 8% – 3 fuel consumption data are subject
to a tolerance of +5% – 4 data referred to 100% load (data for partial loads are available in the o�cial data sheets) – 5 exhaust heat after heat
exchanger with cooling to 120°C.
_
general note the heat recovery data shown are to be con�rmed during engineering stage
general note the technical data are subject to modi�cation by the manufacturer
_
The technical data sheets are available on request for gas of di¤erent composition (Biogas from Organic fraction of urban solid waste,
Biogas from Land�ll, other gases). Di¤erent gas are subject to veri�cation of MWM Technical Department.
intergen / cogeneration12 13
Cogenerator range with MWM motors
69
84
153
[kW]
[kW]
[kW]
79
95
174
104
125
229
119
143
262
165
200
365
HEAT RECOVERY
engine jacket water and lube oil circuit heat
exhaust heat after heat exchanger
total heat thermal power
electrical power COP according to ISO 8528-1
mechanical power at the motor shaft ICN [ISO 3046-1]
fuel consumption
fuel consumption
electrical e�ciency
thermal e�ciency
total e�ciency
[kW]
[kW]
KW
kg/h
[%]
[%]
[%]
134
145
345
26,0
38,8%
44,3%
83,1%
151
164
394
29,0
38,4%
44,2%
82,6%
201
216
517
39,0
38,9%
44,3%
83,2%
230
246
590
44,0
38,9%
44,4%
83,3%
323
344
824
62,0
39,2%
44,3%
83,5%
PERFORMANCE
G934 G944 G936 G946 G9508
exhaust gas �ow (wet)
exhaust gas temperature
NOX (5%O
2)
CO (5%O2) with catalytic oxidizer
[kg/h]
[°C]
[mg/Nm3]
[mg/Nm3]
766
473
500
< 300
875
452
500
< 300
1.149
473
500
< 300
1.311
452
500
< 300
1.830
475
500
< 300
EMISSIONS
con�guration / no. of cylinders
speed
lube oil consumption
starting system
rpm
g/h
L4
1.500
30
Electrical
L4
1.500
30
L6
1.500
40
L6
1.500
50
V08
1.500
70
MOTOR DATA
NATURAL GAS
(3)
(3)
(2, 6)
(2, 5)
(2)
(1)
(4)
REFERENCE CONDITIONS
› methane number: 80
› PCI: 9.8 kWh/Nm3
› combustion air temperature: 25°C
› combustion air humidity: 30%
› installation altitude: 100 m asl
NOTES
1 the 250 NOXversion is available – 2 heat power data subject to a tolerance of +/- 7% – 3 fuel consumption data are subject to a tolerance of +5%
– 4 performance referred to 100% load (data for partial loads are available in the o�cial data sheets) – 5 exhaust heat after heat exchanger
with cooling to 120°C – 6 heat power with water/glycol solution at 50%.
_
general note the heat recovery data shown are to be con�rmed during engineering stage
general note the technical data are subject to modi�cation by the manufacturer
electrical power COP according to ISO 8528-1
mechanical power at the motor shaft ICN [ISO 3046-1]
fuel consumption
fuel consumption
electrical e�ciency
thermal e�ciency
total e�ciency
[kW]
[kW]
KW
kg/h
[%]
[%]
[%]
134
145
351
70,0
38,1%
43,6%
81,7%
151
164
399
81,0
37,9%
43,6%
81,5%
201
216
531
106,0
37,8%
43,1%
80,9%
230
246
606
121,0
37,9%
43,2%
81,1%
323
344
846
168,0
38,2%
43,1%
81,3%
engine jacket water and lube oil circuit heat
exhaust heat after heat exchanger
total heat power
69
84
153
79
95
174
104
125
229
115
143
258
165
200
365
[kW]
[kW]
[kW]
PERFORMANCE
G934 G944 G936 G946 G9508
exhaust gas �ow (wet)
exhaust gas temperature
NOX (5%O
2)
CO (5%O2) with catalytic oxidizer
[kg/h]
[°C]
[mg/Nm3]
[mg/Nm3]
745
495
500
< 300
846
475
500
< 300
1.111
475
500
< 300
1.267
475
500
< 300
1.770
475
500
< 300
EMISSIONS
HEAT RECOVERY
Electrical
con�guration / no. of cylinders
speed
lube oil consumption
starting system
rpm
g/h
L4
1.500
30
L4
1.500
30
L6
1.500
40
L6
1.500
50
V08
1.500
70
MOTOR DATA
BIOGAS
(3)
(3)
(2, 6)
(2, 5)
(2)
(1)
(4)
REFERENCE CONDITIONS
› data valid for biogas with 50% CH4
› PCI: 5.0 kWh/Nm3
› combustion air temperature: 25°C
› combustion air humidity: 30%
› installation altitude: 100 m asl
NOTES
1 the 250 NOXversion is available – 2 heat power data are subject to a tolerance of +/- 7% – 3 fuel consumption data are subject to a tolerance of +5%
– 4 performance referred to 100% load (data for partial loads are available in the o�cial data sheets) – 5 exhaust heat after heat exchanger
with cooling at 120°C – 6 heat power with water/glycol solution at 50%.
_
general note the heat recovery data shown are to be con�rmed during enigineering stage
general note the technical data are subject to modi�cation by the manufacturer
intergen / cogeneration14 15
Cogenerator range with Liebherr motors
intergen / cogeneration16 17
Control and monitoring systems
Command and control panels, panels for medium voltage connection and monitoring
systems. Intergen completes its supply of cogeneration plants with the development
and construction of command, control and power panels designed upon customers’ specific
requirements, both hardware and software. Same engineering for the PLC software, plant
monitoring graphics and the HMI interfaces.
The panel and monitoring functions can be accessed from remote by means of a modem
or cable interface and allow complete replication of the data and information in other user
locations as well as by Intergen, which is strategic in the after-sales and maintenance stages.
development for:› PLC software› monitoring graphics› HMI interfaces
remote functions:› via modem › cable interface
Production plantand test benches
› 3 6-axle trucks
for transport and handling
of 80 t load
› 1 fixed resistive bench
for power tests up to 2 MWe
› 1 6-axle truck
for transport and handling
of 40 t load
› 1 soundproof test room
for testing 3 units
for a total power of 2 MWe
› 2 soundproof test rooms
for testing units
up to 5 MWe each
› 2 mobile resistive benches
for power tests up to 6 MWe
› 2 mobile tanks, 6 m3,
complete with instruments
for consumption tests
Out of a total surface area of over 33000 m2, Intergen has a covered production space of 9000 m2 and an area
of 8000 m2 used for external assembly and tests. The plant disposes of:
The production facility has 2 overhead travelling cranes 30 t each,
for handling purposes. The current production capacity allows more
than 80 units to be built and tested per year.
intergen / cogeneration18 19
2
1
1
1
1
3
4
4
7
7
10
10
10
11
22
18
27
58
112
5
43
6
7
8
10
11
12
9
1
2
3
4
5 9
6
7
8
10
11
12
References
Cogeneration for ceramics industry, Modena
2 plants built with 1 engine each, 4300 kWe. Production
of hot water and direct use of the fumes in the process.
Cogeneration with biogas engine, Pavia
Plant built with 1 engine, 999 kWe. Production of hot
water recovered from both the cylinder jackets
and the fumes.
Cogeneration for food industry, Monza Brianza
Plant built with 2 engines, 2,000 kWe each.
Production of steam and hot water.
Cogeneration for engineering industry, Vicenza
Plant built with 1 engine 1,560 kWe.
Production of steam and hot water.
Cogeneration in hospitals, Milan
2 plants built with 3 and 4 engines, 4300 kWe each,
respectively. Production of steam and hot water for
heating / air conditioning use.
Cogeneration with biogas engine, Ferrara
Plant built with 1 engine, 999 kWe. Production of hot
water recovered from the cylinder jackets.
Cogeneration serving a remote heating
network, Rome
Plant built with 1 engine, 999 kWe. Production of hot
water recovered from the cylinder jackets.
Trigeneration for chemical/pharmaceutical
industry, Bergamo
Plant built with 1 engine, 1200 kWe.
Production of hot water, cold water and steam.
Cogeneration for paper industry, Lucca
Plant built with 1 engine, 1560 kWe.
Production of hot water and steam.
Cogeneration for plastics industry, Sondrio
Plant built with 1 engine, 2000 kWe.
Production of hot water and direct use
of the fumes in the process.
Cogeneration for building materials
production industry, Pisa
Plant built with 1 engine, 1560 kWe.
Production of hot water and direct use
of the fumes in the drying process.
Cogeneration for textile industry, Vercelli
Plant built with 1 engine, 1560 kWe.
Production of hot water and steam.
Plants built by region
Main plants built
Intergen authorized network
IML authorized network
Company headquarters
1400+ 200+ 180+ 70 1987MWe installed worldwide
plants installed in Italy
service contracts
years of history
sole distributor in Italy for
since
THE ENERGY GENERATION
2000
/3 IG
E 04
/16
headquartersvia Garçia Lorca, 25I-23871 Lomagna (LC)
sales departmentph: +39 039 5914800
service & maintenanceph: +39 039 5914435
administrationph: +39 039 5914469