Danish District Heating

Transkrypt

Danish District Heating
Policies & Regulations
Poland – Mazurian Region - 8-12 April 2013
Lars Gullev
Chairman – DBDH
Pia Zimmermann
Export manager - DBDH
www.dbdh.dk
1897 - 1903
Impossible to find areas for landfills
inside the boundaries of the municipality
of Frederiksberg.
Construction of a new hospital.
1903
Crisis in 1973 and 1979
Oil supplies to Denmark were reduced.
About 92% (75%) of the energy consumption in
Denmark was at that time based on imported oil.
Early Heat Planning
1980 - 1990
Intensive period –
main driver was
reduction of
expensive oil for
heating.
Early Heat Planning
1980 - 1990
Planning closely connected to development
of domestic NG grid.
Conversion of existing heat plants to CHP.
Expansion of existing DH systems.
Government issued guidelines to be
followed by municipalities.
Municipalities responsible for
implementation of projects.
Early Heat Planning
Combined Heat and Power - CHP
Early Heat Planning
1980 - 1990
Government support
CHP being promoted by generation
subsidy from state budget of 1.5
€cent/kWh (on top of feed-in tariff).
Significant subsidies for expansion
of district heating grids.
Subsidies for connection of certain
new customers (pensioners).
Heating installations in dwellings
66 %
Fuel used for district heating
Development 1990 - 2011
56 %
RE
District heating production
Type of production plant
15 %
20 %
20 %
45 %
CHP share of thermal power and
district heating production
Heat planning today
Heat planning had low focus for many
years. Now 2nd round has begun
District Heating is again the key.
Flexibility tool for large amounts of
wind power and in the electricity
system.
District heating enables large scale
use of renewables, e.g. biomass
and solar heating.
Heat planning today
DH – Local driver
Local driver:
Green cities – strong interest in
many municipalities
Heat planning today
DH - National driver
District heating and wind power
Large scale heat pumps
foreseen to be introduced
will keep efficiency high and will
operate during longer periods
Substitution of CHP with
electricity boilers has double
effect
Reduces power generation at
CHP plants.
Introduces new demand.
Summary
Heat Planning
Expansion of district heating
reduced dependence of oil
Conversion to CHP was
important element in
development of domestic
natural gas
Summary
Integrated heat and power
production (CHP)
Very high overall thermal
efficiency.
Flexibility and economic
efficiency.
Summary
A new role for district heating
Important flexibility to wind integration.
Possibility to use more solar heating, biomass
and other renewables.
Summary
Partners of the Danish DH success
Thank you
For further information:
www.dbdh.dk
[email protected]
[email protected]
Paweł Bargieł, Martin Petersen
ABB Systemy dla Energetyki, DBDH Distrcit Heating Road Show, kwiecień 2013
Rozwiązania ABB dla ciepłownictwa
Globalna wiedza, lokalne zasoby
© ABB Group
May 14, 2013 | Slide 22
Przedstawiamy ABB
Dostawca systemów i produktów dla ciepłownictwa

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Międzynarodowy koncern zatrudniający ponad 150.000 pracowników
w ponad 100 krajach
Lider technologii na rynku energetyki i automatyki
DKABB jest globalnym centrum kompetencji ABB w zakresie
ciepłownictwa
PLABB to ponad 3.000 pracowników, 7 fabryk oraz Korporacyjne
Centrum Badawcze
DKABB wspiera PLABB w projektach związanych z ciepłownictwem
© ABB Group
May 14, 2013 | Slide 23
Rozwiązania systemowe ABB dla ciepłownictwa
Wsparcie ABB w pełnym cyklu projektu
Konsulting
Nadzory i Zarządzanie Projektem
Doradztwo finansowe
© ABB Group
May 14, 2013 | Slide 24
Koncepcja, projekt i
inżyniering
Montaż urządzeń
Uruchomienie
Szkolenie
Serwis gwarancyjny i
pogwarancyjny
3 zakresy – w odpowiedzi na wymagania rynkowe
Zakres 1: Rozwiązanie systemowe
Zakres 2: AKPiA i SCADA
Zakres 3: SCADA i EE
Ciepłownictwo - Portfolio
SCADA oraz rozwiązania EE
Kontrola
Procesu
& optymalizacja
PLC, AKPiA
Silniki, napędy, pompy
oraz HEU (i rury)
Rury i roboty budowlane
© ABB Group
May 14, 2013 | Slide 25
Zdalne Automatyka
sterowanie procesu
Produkty i
Projekt & rozwiązania
inżyniering
EE
Wykopy
Pozwolenia
Efektywna
produkcja
Budowa
Lokalna
obecność i
wiedza
Wartość dodana ABB – korzyści dla działalności
Klienta

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Automatyka i sterowanie procesem produkcyjnym
System SCADA rozwiązujący codzienne trudności
Optymalizacja produkcji
1. Sterowanie pompami
2. Detekcja i rozwiązywanie
sytuacji kryzysowych
i alarmowych
3. Autostart układów
rezerwowych
4. Automatyczna zmiana trybu
pracy lato/zima
5. Zarządzanie sieciami
(poranne szczyty)
6. Detekcja wycieków
7. Inne…
© ABB Group
May 14, 2013 | Slide 26
ABB realizuje różnorodne projekty
10 stacji pomp w Mongolii
SCADA sieci cieplnej w Białymstoku
Kompletna modernizacja systemu ciepłowniczego w
 Chinach
SCADA/DCS wytwarzania i dystrybucji ciepła w Toruniu
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© ABB Group
May 14, 2013 | Slide 27
SCADA, sterowanie lokalne i system komunikacji dla
całego systemu ciepłowniczego Kopenhagi (Dania)
Systemy raportowe dla wszelkich sieci na całym świecie
© ABB Group
May 14, 2013 | Slide 28
ARCON
SOLAR
LARGE SCALE SOLAR HEATING
2013
OBJECTIVES
• Brief introduction VKR, SolarCap
and ARCON and large scale solar
heating in general
• Demands and opportunities
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VKR Group
The VKR Group has more than 15,000 employees in more than 40
countries and activities in the following business areas:
–
–
–
–
Roof windows & skylights
Vertical windows
Thermal solar energy
Ventilation & indoor climate
VKR Holding's Mission as an industrial investor is to own and develop a
number of companies that bring daylight, fresh air and a better environment
into people's everyday lives.
VKR Holding's Objective is to create value through active ownership of a
number of model companies.
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VKR Group
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THE WORLD’S
BEST ENERGY IS
FREE AND YELLOW
Solar heating grants fix low energy
expenses for many future years.
That is why there is solid growth in
establishing large-scale solar
heating
There are so many advantages that
it is mainly about finding the best
possible solar-heating solution
GAIN A SIGNIFICANT
SAVING ON HEATING
PRICE
STABILISE THE PRICE OF
YOUR HEATING
REDUCE GLOBAL WARMING
THE WORLD’S
LARGEST ENERGY
RESSOURCE
SHINES A LOT
AROUND EUROPE
The sun has risen every
day for 4,57 million
years and delivers far
away more energy daily
that the annual
consumption in the
whole world
Even in central and
northern Europe there
are quite a few hours of
sunshine, especially
during February until
November
Solar radiation on a south-facing roof
tilted 45˚
THE WORLD’S LEADING
MANUFACTURER OF
LARGE-SCALE SOLAR
HEATING
Nobody knows more about large-scale solar
heating than ARCON Solar. Our first installed
large-scale solar heating system celebrates its
25th anniversary in operation 2013. This grants
a unique history by documentation as well as
results and measurements of effectivity.
FLEXIBLE
APPROACH
EXPERIENCE
,
COMPETENC
E AND
KNOW-HOW
BEST
PERFORMIN
G PRODUCT
35
ARCON SOLAR IS BEHIND THE
MAJORITY OF EUROPE’S LARGEST
PLANTS
ARCON Solar is behind 15 of the 25 largest
large-scale (>1.000m2) solar thermal plants
established in Europe. In 2011 we installed
new plants with 48.000 m2 absorber surface
area.
36
36
WE CAN BE THERE FROM THE FIRST
CONSIDERATION ALL THE WAY
THROUGH TO FULL SCALE
OPERATIONS
Our experience from more than 35 years with solar and from installation of more
square metres absorbersurface in large scale systems than any other company
means a unique knowledge not only from solar collectors, but also in every step
from the first consideration and decision to the system design, the mounting and
the commissioning.
This experience is the best guarantee for a safe investment.
37
WHY NOT USE THE WORLD’S MOST
EFFICIENT SOLAR COLLECTOR?
The collectors of ARCON are designed and
developed for optimum performance in largescale installations. Combining 40 years’
experience with the latest technology, we offer
high-performance solar collectors capable of
operating perfectly at high temperatures for
many years (ideal for district heating plants
e.g)
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THE TECHNOLOGY IS UNIQUE
The high performance of the
ARCON collector is made
possible by the isolating foil, the
anti-reflection treated glass, the
laser-welded absorber and a
solid layer of mineral wool
among others. It provides
exceptional carachteristics.
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PERFORMANCE GUARANTEE
INCL
.. fulfills the task. Performance is
Our collector
guaranteed. But that is not the only
advantage.
EXCEPTIONAL DURABILITY
LOW INSTALLATION COST
OPTIMISED DESIGN
FLEXIBLE PRODUCT
RANGE
MANUFACTURED BY ARCON
SOLAR
PERFORMANCE
GUARANTEE
40
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OUR SOLAR COLLECTORS PROVIDE
UNLIMITED EFFICIENCY FOR
LARGE- SCALE HEATING
SOLUTIONS
District heating
Care centres, holiday
centres and housing
complexes
Industrial process heat
41
DISTRICT HEATING
Lower heatprice
Stabile heatprice
Full flexibility
Saving
targets/obligations
Establishing
Durability
Dziękuję!
43
MAKING MODERN LIVING POSSIBLE
30 %
ENERGY SAVING
Shortest pay-back
time by using
Danfoss ball valves
due to low pressure
drop.
Danfoss JIP™ Ball Valves For Building
installation
Danfoss District Energy Division
| 44
Danfoss JIP™ ball valves
 Optimize your flow and
save on energy
 Optimum ball valve design
 Widest range for district
heating and cooling
30 %
ENERGY
SAVINGpay-back time
Shortest
by using Danfoss ball
valves due to low
pressure drop.
 Guarantee for long lifetime
 Competent partner
| 45
Danfoss JIP™ ball valves for Building
Installation
| 46
Danfoss JIP™ ball valves for Underground
Installation
| 47
Danfoss JIP™ Standard valves (1/2)
TYPE
Flange (FF)
Worm Gear /
Actuator
L - Handle
Worm Gear /
Actuator
OPERATION
L - Handle
Welding (WW)
DN
1550
PN
40
65-200
16
25
65-600
16
25
1550
65-200
65-600
40
25
25
Medium temperature: 0-180°C
| 48
Danfoss JIP™ Value propositions
 Lower operating costs because of an
optimum flow design (Low pump
power consumption – up to 30% energy
saving)
 External tightness for lifetime even
at high and changing temperatures
because of a unique PTFE/carbon stem
packing box (External leakage)
 Optimum internal tightness,
controlled pressure against the ball and
controlled operating torque due to a
sophisticated spring construction
(Internal leakage)
| 49
Lower Operating Costs Because of
Optimum Flow Design

50
GUIDING PIPES
Cylindrical inlets and
outlets ensure smooth
transition of the flow into
and out from the ball valve
OPTIMUM FLOW DESIGN
BALL WITH PIPE INSERT
Ball design with pipe insert
ensures smooth flow
trough the ball and
eliminates cavitation
| 50
Lower Operating Costs Because of
Optimum Flow Design
JIP™ ball valve
Design details:
• DN15-50 massive ball design
• DN65 guiding pipe in the ball
Conventional valve
JIP™ ball with
cylindrical tube
insert
Conventional
hollow ball
| 51
Optimized and unique flow design
Low CO2
emissions
up to 30%
energy saving
Optimum and
unique
Flow Design
Low Pressure
drop
Low Pump power
consumption
Lower operating
costs
| 52
Calculation of Energy and CO2 Savings
53
| 53
Optimized flow design
SUM UP:
 JIP™ valves have cylindrical tube
insert inside the ball that eliminates
turbulence and thereby minimizes
pressure drop.
 JIP™ valves have guiding pipes for
optimum inlet and outlet which
ensure the lowest possible
pressure drop.
 Optimized flow design enables low
pressure drop and higher kv values
resulting low pump energy
consumption that leads to reduced
operating costs and energy
savings up to 30%.
| 54
External Tightness for lifetime:
Unique Packing box
Adjustable packing screw.
Uniform PTFE+C rings
| 55
Unique Packing box
SUM UP:
 In order to secure complete tightness,
we have developed a stem construction
called a packing box. The seal consists
of compressed PTFE and carbon
 Sealing is ensured only with carbon
reinforced Teflon (PTFE+C) that will
not deteriorate over the years even at
high temperatures and temperature
variations as opposed to O-rings. This
ensures
 Adjustable packing screw enables that
sealings are always tight.
 The expected lifetime of the packing
box with PTFE+C rings and the
ensured tightness are therefore
unlimited
| 56
Optimum Internal Tightness:
Sophisticated spring construction
Spring construction
Stainless steel seat ring
PTFE+C rings
Illustration is valid from DN 200 and up
DN15-50 PTFE/Carbon seals, NO spring
DN65-150 PTFE/Carbon seals, Loose plate spring
| 57
Optimum internal tightness
SUM UP:

A sophisticated spring construction ensures
that the seals always will be pressed against the
ball with a controlled operating force,
independent of the axial forces.

To ensure complete tightness we recommend to
use seat rings of carbon reinforced PTFE.

There are no movable seal faces as the entire
spring and sealing system as well as the ball are
moving together. Thereby the seat rings will
be protected against sediments and dirt
(also when the valve is open).

At closed ball and low differential pressure
the valve is double sealed. High differential
pressure the valve is closing tight by virtue of
the floating ball and the water pressure towards
the back seat ring
| 58
Department (slide master)
Optional text
Date | 59
Quality standards and certificates
 Danfoss A/S is certified according to ISO
9001/14001 and fulfil CE-PED.
 100% quality inspection.
 Each valve is tested according to EN 12266 part 1 &
2 and ISO 5208.
 All ball valves are tested according to EN 12266 part
1 & 2 and ISO 5208:

Test of the shut-off function (ball/seat) with air
at 6 bar.

Strength testing of the ball valve with water
pressure 1,5 times the nominal pressure.

Test of the operating function.
| 60
Hints from the instruction (1/2)

Always weld the valve to the system in open position, to
avoid weld spatter damaging the ball

If the valve is used as an end stop valve, we recommend to
close with an end plate until a later expansion of the system
and leave the valve in open position.

If mounted un-insulated, and subjected to weather/water, the
valve must be insulated to avoid rust

The valve may not be used to throttle or balance a system, it
is an on off valve, leaving in semi open position may damage
the seals.
| 61
Hints from the instruction (2/2)
 Store the valve dry
 Leave the protection cap on until mounted
 Can be mounted in any position
 When commissioning:
 Flush the system to protect gasket from particles
 Operate the valve several times, to ensure free from air, and
wetted gaskets
 Pressure test of station or plant
 Avoid pressure test of the hole system/station against closed
ball valves.
 If cannot be avoided build up pressure slowly, no pressure
shock.
 After pressure test
 No frost
 Exercise valve again
 When operating.
 Apply moderate torque to the handle, await breaking loose,
increase torque..
 Operate slowly to avoid water hammer
| 62
Innowacyjne rozwiązania
pomiarowe zużycia energii
i wody
Stabilna i ambitna firma
 Założona w 1946 przez Olafa Kamstrupa
 Należąca do Olieselskabet Danmark (OK) od 1990r.
 800 pracowników
 160 mln EUR obrotu
Oddziały w 19 krajach
Dystrybutorzy w 40 krajach
Centra serwisowe w 10 krajach
Nowoczesne i innowacyjne produkty
Kamstrup
•
•
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Ciepłomierze
Wodomierze
Liczniki chłodu
Systemy odczytu
3 milliony punktów pomiarowych
– mówi samo za siebie ...
Kamstrup w Polsce

Na polskim rynku od 1991 roku

Wiodący dostawca liczników
ultradźwiękowych

Biuro i magazyn w Warszawie

Sprzedaż (ponad 20 mln zł rocznie)

Szkolenia

Serwis

Stacja legalizacyjna ciepłomierzy
Kamstrup Sp. z o.o
ul. Kurzawska 9, 02-296 Warszawa
Tel. (022) 577 11 00, Fax. (022) 577 11 11
www.kamstrup.pl
Kamstrup w ciepłownictwie
•
Grupa Dalkia (Warszawa, Łódź, Poznań, spółki
Dalkiaterm)
•
Grupa Fortum (Wrocław, Płock, Częstochowa)
– ciepłomierze i automatyczny odczyt radiowy
•
SEC Szczecin – ciepłomierze i automatyczny
odczyt radiowy
•
PEC Siedlce – ciepłomierze i odczyt radiowy do
terminali ręcznych
•
PEC Suwałki – ciepłomierze i Wireless M-Bus
•
Mniejsze przedsiębiorstwa ciepłownicze –
Kętrzyn, Giżycko, Ełk, Pisz, Kolno, Radzyń
Podlaski, Lubartów, Świdnik, Poniatowa –
ciepłomierze i odczyty radiowe do terminali
ręcznych
Nowoczesne i efektywne linie produkcyjne
Wysoko wyspecjalizowane zakłady
produkcyjne w Danii
Elastyczne możliwości produkcyjne i
szybkie dostawy
W pełni zintegrowany system jakości i
ochrony środowiska
ISO 9001, ISO 14001, akredytacja ISO 17025;MID:
Moduł D, OHSAS 18001
Certyfikat bezpieczeństwa IT i informacji
DS/ISO/IEC 27001
Liczniki Kamstrup - zdalny odczyt
•
•
•
•
Wireless M-Bus
najnowocześniejszy system
komunikacji bezprzewodowej
Norma EN 13757-4
Szeroka gama innych modułów
komunikacyjnych
Bezpieczeństwo i spokój dostawcy ciepła
Rozbudowane rejestry pamięci – prosta i
szybka diagnostyka w sytuacjach
spornych
Szczegółowe warunki, jakie muszą zostać spełnione przy wykazaniu
dochowania standardów jakościowych dostawy ciepła określa
Rozporządzenie Ministra Gospodarki z dnia 17 września 2010r. w
sprawie szczegółowych zasad kształtowania i kalkulacji taryf oraz
rozliczeń z tytułu zaopatrzenia w ciepło (Dz. U. Nr 194, Poz.1291).
W rozporządzeniu określono jednoznacznie, że: ”sprawdzenie
dotrzymania przez przedsiębiorstwo energetyczne standardów
jakościowych obsługi odbiorców i dotrzymania odbiorcy warunków
umowy sprzedaży ciepła…” „jest dokonywane, jeżeli umowy te nie
stanowią inaczej, na podstawie średniego natężenia przepływu i
temperatury nośnika w okresie doby – gdy nośnikiem ciepła jest
woda”
Ciepłomierze Kamstrup = 460 rejestrów średnich
wartości dobowych
PYTANIA?
Egon Erlandsen, Technical advisor
Peter Daugbjerg Sørensen, Project manager
District heating and energy efficiency
… at Frederiksberg Energy
Week 1.
Operation
• About district
heating
• Customer
relations
• SCADA
• Smart Meters
• Plant
operations
Week 2.
Strategy
• Strategy and
planning design
• Advanced data
gathering
• Environment &
innovation
Week 3.
Technology
• Casework
• Technology
available
• Visit technical
suppliers
Week 4.
Implementation
• Implementation
tools
• Follow-up
• Evaluation
Focus on individual needs and solutions
Case work offers the opportunity for trainees to present
realistic or potential issues.
•We will assist in solving the problem together
•We will develop supplier relations
•Recommend tools for implantation
•Draft follow up and evaluation strategies
The Greater Copenhagen DH system
District heating supplier since 1903
Frederiksberg
•
8,8 square km
•
102000 inhabitants
•
6 heat exchanging stations
•
87 km main pipes
•
63 km consumers pipes
•
700 cored holes for valves
•
4000 custom stations
•
Buy 800.000 MWh
•
Sell 750.000 MWh
Design Concept
Efficient District heating system
Base load production
CHP up to 93 % efficiency
Transmission system
1 – 2 % heat loss
Frederiksberg
distribution system
6 - 6,5 % heat loss
Efficient District heating system
Summary
Program:
 individual program
 Operation, technology, implantation and strategy
 Best practice approach
 Efficiency strategy
 Sightseeing in Copenhagen and Frederiksberg
 Networking
 Visit technical suppliers
Come and visit us
….CTR, DBDH and Frederiksberg Utility
SPX FLOW TECHNOLOGY
May 14, 2013
COMPANY CONFIDENTIAL
SPX Corporation At-A-Glance
• A global multi-industry manufacturer
based in Charlotte, North Carolina
• Established in 1912
• A Fortune-500 company
• Employs over 17,000 people in more than
40 countries
• Trades on the New York Stock Exchange
under the symbol SPW
• 2008 total revenue: US$5.85 Billion
• #5 on the “Most Admired” list in
Electronics by Fortune in 2008
86
Four Business Segments
INDUSTRIAL
PRODUCTS &
SERVICES
FLOW
TECHNOLOGY
SPX Process
Equipment
APV
SPX Flow Control
SPX Dehydration &
Filtration
SPX Hydraulic Technologies
Thermal Product Solutions
SPX Filtran
THERMAL
EQUIPMENT &
SERVICES
SPX Cooling
Technologies
Balcke-Dürr
TEST &
MEASUREMENT
SPX Service Solutions
Radiodetection
GFI Genfare
Waukesha
SPX Precision Components
Dielectric
Flash Technology
TCI
87
APV Heat Transfer – Product Portfolio
Gasketed plate heat exchangers – hygienic and
industrial designs & applications
Brazed plate heat exchangers
Semi- and fully-welded plate heat exchangers
Units for installation: District heating units with PHEs
Water desalination units
Tubular heat exchangers (hygienic)
Scraped surface heat exchangers (hygienic)
Parabrazed HEs
APV ParaBrazed is a comprehensive range of
compact brazed plate heat exchangers for HVAC
applications. APV ParaBrazed is especially suited for
water heaters, district heating units,
gas boilers, and solar heating.
• More than 400 models
• Very compact
• Large temperature span
• Wide pressure range
• Good performance
May 14, 2013
89
Gasketed HEs
APV ParaFlow - Gasketed plate heat exchangers
Having one of the widest plate portfolio in the market the
large variety in Para Flow types offers solutions for almost
any HVAC application.
• New price competitive frame range
• Compact design
• Superior heat transfer efficiency
• Easy to clean
• Glue-free gaskets
May 14, 2013
90
New APV Hybrid range
Welded Plate Heat Exchangers
•
For improved heating, cooling,
condensing and evaporation
•
Compact and flexible designs
•
Highly efficient, small temperature
approach, high heat recovery rates
•
Superior performance – 3 plate
designs
•
Easy operation and maintenance
•
Fully accessible on each fluid side
•
Fully mechanically cleanable on one
side, chemically cleanable on the
other side
Compact, high performance design and easy to clean
May 14, 2013
91
New APV Hybrid range
Welded Plate Heat Exchangers
•
•
Standard range
6 different models, more than 1800
combinations
Mechanical data:
•
•
•
•
•
•
•
•
Design pressure: Full vacuum to
32 bar g
Design temperature: -40ºC to 350ºC
(PED)
Close temperature approach – down to
1 ºC possible
Max. area in one unit: Up to 436m²
Nozzle size: DN50 – DN500
3 plate designs for optimised flow
Several plate materials
Design codes: PED, ASME
Full utilization of pressure drop to maximise thermal efficiency
May 14, 2013
92
Customized DHU
Manufacturing of
compact heat units
(range of power : up to
20 MW)
Installation and
commissioning of
compact heat units
May 14, 2013
93
Customized DHU
May 14, 2013
94
Service & Maintenance
– optimize lifetime performance
Lifetime performance –
maximising efficiency and ROI
Global network of
Heat Exchanger Service Centres
combined with local service
capabilities
•
•
•
•
•
•
Rapid service and maintenance
assistance
Original spare parts and rapid
delivery all over the world
Maintenance agreements to guard
against unscheduled stoppages
Heat exchanger and plate pack
refurbishment or replacement
Optimum on-site spare parts
inventory, balancing risk against
capital outlay
On-site audits to help further reduce
your operating and maintenance
expenses
Improve the performance and profitability of
your heat transfer equipment and solutions throughout entire lifetime
14 May 2013
95
DBDH District Heating Road Show Poland
Head Office (1999)
Sister Company (2012)
Daughter Company (2001)
AAEN Consulting Engineers A/S
Nordre Strandvej 46 DK-8240 Risskov
Telephone +45 86 17 50 55
Telefax +45 86 17 33 52
www.aaenas.dk
Slide96
District Heating Road Show
The All-inclusiveness of District Heating
Telephone +45 86 17 50 55
Telefax +45 86 17 33 52
www.aaenas.dk
Slide97
District Heating
Energy Synergies in Logstor
Network supplying
2400 clients
15.000 m2 Thermal Solar Plant
5.000 m3 Heat Accumulation
1 MW NG Engine
3 MW NG Boiler
600 m3 Heat Accumulation
Booster Pump Plant
2x3000 m3 Heat Accumulation
7,2 km Transmission line
8,0 km Transmission line
500 kW District Cooling Plant
(Absorption on biomass heat)
8 MW Straw Boiler
8 MW Wood Pellet Boiler
2x4 MW NG Engines
10 MW NG Boiler
3,5 MW Bio-oil Boiler
Telephone +45 86 17 50 55
Telefax +45 86 17 33 52
www.aaenas.dk
Slide98
JI and other projects in Poland
Telephone +45 86 17 50 55
Telefax +45 86 17 33 52
www.aaenas.dk
Slide99
Current 2020 Project Potential + Focus areas
Solar Thermal
Energy
Production
BIOMASS
DH/CHP
Production
Biogas CHP
Production + DH
DH System
Expansion &
Renovation
Geothermal
Energy
Energy Efficiency
White Certificates
Industrial Heat
Pump Plant
Telephone +45 86 17 50 55
Telefax +45 86 17 33 52
www.aaenas.dk
Slide100
Company Presentation
General Information
Technology
References
“Aalborg Engineering has focus on
customised and high efficient solutions.
Our expertise are especially within
Combined Heat and Power Plants and
Cogeneration”
SteamGenTM
Product series:
SteamGenTM 4
SteamGenTM 6
SteamGenTM 8
SteamGenTM 10
Selected features:

Heat recovery, supplementary and fresh air fired.

Fully welded construction for cyclic serv.

Module build

Fast installation sequence

Natural circulation in steam circuits

Highest efficiency on the market

Fast start up, load change and shut down

Flexible operation characteristics
Reference Projects 2013
Norway
Russia
Sweden
United
Kingdom
Denmark Lithuania
Belarus
Netherland
Germany Poland
Belgium
Austria
Hungary
Switzerland
Bulgaria
Spain
Turkey
Israel
Jordan
Qatar
References
Energi E2 (DONG ENERGY), Copenhagen, Denmark
• Pressure:
16 bara
• Temperature:
300 ℃
• Performance:
190 t/h for DH
• Fuels :
Natural Gas
2 x SteamGenTM 4
References High fired HRSG – SteamgenTM 6
 2012- SAICA, Zaragoza ESP/Manchester UK– 1 x Siemens SGT 700 – 81/6 bara, 500/185 C, 95/5 t/h (FAF/SF)
 2009 - ORL, Haifa, Israel – Prepared for RR TRENT, LM 6000, SGT 800 – 36 bara, 360 C, 100/160 t/h (FAF/SF)
 2006 - Babcock Hitachi Europe, Nyiregyhaza, Hungary – 1 x H25 Ax – 95 bara, 542 C, 95 t/h + LP + DH (SF)
 2005 - Zorlu Enerji IPEK, Yalova, Turkey – 1 x SOLAR Taurus 70 + GE - 19 bara, 220 C, 25 t/h (SF)
 2004 - Dalkia Huddersfield, United Kingdom – Prepared for GT – 42 bara, 400 C, 60 t/h (FAF/SF)
 2001 - Huntsman Tioxide, United Kingdom – ALSTOM Cyclone - 60 bara, 420 C, 80 t/h (FAF/SF)
 2000 - STATOIL Karsto, Norway - 2 x LM 2500+ - 61 bara, 430 C, 110 t/h (FAF/SF)
 2000- Pfizer, Sandwich United Kingdom – EGT Tornado - 47 bara, 390 C, 75 t/h (FAF/SF)
 1998 - Toros Enerji, Turkey – EGT Typhoon - 40 bara, 400 C, 45 t/h (FAF/SF)
 1997 - Dow Corning, United Kingdom - 2 x EGT Typhoon + 1 x Aux. Fired - 60 bara, 450 C, 80 t/h (FAF/SF)
 1997 - Allied Colloids, United Kingdom – EGT Tempest - 50 bara, 420 C, 46 t/h (FAF/SF)
 1996 - Carlsberg, Denmark – EGT Tornado - 60 bara, 485 C, 46 t/h (FAF/SF)
1996 - Texmaco, Indonesia - 4 x Mitsubishi - 41 bara, 277 C, 50 t/h (FAF/SF)
 1995 - Scottish Hydro, United Kingdom - 2 x EGT Tempest - 45 bara, 430 C, 55 t/h (FAF/SF)
 1995 - Kemira, Denmark - 2 x Centrax - 1 x 46 bara, 425 C, 35 t/h (FAF/SF)
 1995 - Dead Sea Works, Israel - 2 x MAN Diesel Engines - 66 bara, 510 C, 140 (170) t/h (FAF/SF)
References
e-on, NYKCE - Nyíregyháza, Hungary
• Pressure:
95/ 7,8 bara
• Temperature:
430 / 320 ℃
• Performance:
95 / 4 t/h + DH
• Turbine:
Hitachi H-25AX
1 x SteamGenTM 6
SteamGen™ 8 HRSG’s
Work in Progress - KAM, Erfurt, Germany – Siemens SGT 700 – Sliding 81/41 bara, 505/410 C, 42/48 t/h + DH (No firing)
Work in Progress – E4 Group Borisov, Belarussia – Siemens SGT 800- 80/11 bara, 513/285 C, 58/12 t/h +DH (No firing)
Work in Progress – Tüpras Refinery Izmit, Turkey – GE Frame 6– 70 bara, 420 C, 165 t/h (SF, FAF)
Work in Progress – Tecnicas Reunidas, Tüpras Refinery Izmit, Turkey – GE Frame 6– 101 bara, 540 C, 165 t/h (SF, FAF)
Word in Progress – AGE Enerji Turkey – 3 x Siemens SGT 800- 80/6 bara, 510/209 C, 60/15 t/h (No firing)
Work in Progress - Siemens Belaruskali, 4.2 Belarussia – Siemens SGT 700 – 14 bara 210 C, 65 t/h + DH (No firing)
Work in Progress – Tüpras Refinery, Izmir, Turkey – Siemens SGT 600 – 60 bara, 510 C, 100 t/h + LP (SF, FAF)
Work in Progress - Siemens Belaruskali, 4.1 Belarussia – Siemens SGT 700 – 14 bara 210 C, 65 t/h + DH (No firing)
Work in Progress - PBG Poland – 4 x SOLAR TITAN 130 – 60/6 bara, 480/220 C, 25/5 t/h (SF)
Work in Progress - Palmet Ales CCPP, - GE LM 6000 PD – 58/4 bara, 437/225 C, 45/18 t/h (No firing)
2012 - Siemens SWE, Plovdiv, Bulgaria – Siemens SGT 700 – 82,5 bara, 511 C, 75 t/h + DH (SF)
2012 - Bosen Enerji, Turkey – 2 x LM 6000 PD - 55/5 bara, 425/220 C, 44/17 (No firing)
2010 - Cengiz, Turkey – 2 x GE LMS 100 – 50/4 bara, 406/220 C, 61/27 t/h (No firing)
2009 - Achema, Lithuania – Siemens SGT 800 – 45 bara – 450 C – 65 t/h + DH (No firing)
2009 - Palmet, Delta CCPP, Turkey – GE LM 6000 PD – 58/4 bara, 437/225 C, 45/18 t/h (No firing)
2009 - KAM, Thermatel, Switzerland – Siemens SGT 800 – 65/8 bara, 525/230 C, 85/20 t/h (SF)
2007 - Zorlu Enerji Moscow, Russia – 6 x LM 6000 PC Sprint - 50/3 bara, 480/200 C, 80/10 t/h (SF)
2007 - Sappi Austria – Siemens SGT 800 – 120 bara, 520 C, 165 t/h + 240 t/h FWP (SF, FAF)
2005 - Bosen Enerji, Turkey – LM 6000 PC Sprint - 55/6 bara, 420/220 C, 43/17 t/h (No firing)
Page 1
SteamGen™ 8 HRSG’s
2005 - Zorlu Enerji Luleburgaz, Turkey – 2 x EGT Tempest - 50/11 bara, 400/185 C, 30/4 t/h (No firing)
2005 - Siemens NL, INESCO, Belgium – 2 x GTX 100 - 78/6 bara, 510/270 C, 115/10 t/h + FWP (SF)
2005 - CEBI Enerji Marmara, Turkey – Siemens GTX 100 - 80/6 bara, 510/209 C, 60/15 t/h (No firing)
2004 - Zorlu Enerji Kayseri, Turkey – 3 x LM 6000 PC Sprint - 50/3 bara, 400/200 C, 43/22 t/h + FWP V (No firing)
2004 - Ayen OSTIM CCPP Ankara, Turkey - LM 2500+ - 56/5,5 bara, 482/260 C, 34/7 t/h (No firing)
2003 - H.C. Orsted Vaerket, Denmark – GT-10B 25 bara, 250 C, 130 t/h + 5,5 MWt (SF)
2003 - Zorlu Enerji Ankara, Turkey - LM 6000 PC Sprint - 50/3 bara, 400/200 C, 43/22 t/h (No firing)
1999 - Zorlu Enerji Bursa , Turkey - LM 6000 PC Sprint - 50/3 bara, 400/200 C, 43/22 t/h (No firing)
2001 - Avedore Power Plant, Denmark - 2 x RR Trent - 400/52 bara, 400/250 C, 200/145 t/h (No firing)
2001 - Zorlu Enerji Bursa, Turkey - LM 6000 PC - 50/3 bara, 400/200 C, 43/20 t/h (No firing)
1997 – Danish Technical University , Denmark – LM2500+ - 59/8 bara, 498/226 C, 36/8 t/h (No firing)
1996 – Hjorring KKV, Denmark – MS 6001 B – 72/6 bara, 440/224 C, 66/15 t/h + DH (No firing)
1995 - Sonderborg KVV, Denmark – LM 6000 PC – 61/5 bara, 440/218 C, 46/15 t/h + DH (No firing)
1995 - Silkeborg KVV, Denmark – 2x LM 6000 PC – 63/6 bara, 451/233 C, 42/15 t/h + DH (No firing)
1995 – Naestved KVV, Denmark – GT-10B – 67 bara, 428 C, 40 t/h + DH (No firing)
1994 – Elsinor KVV, Denmark – Frame 6B – 65/6 bara, 482/197 C, 66/13 t/h + DH (SF)
1994 - FHKW Linz, Austria - 2 x Frame 6B - 70 bara, 500 C, 65 t/h +DH (No firing)
1993 - Belawan, Indonesia - 2 x Siemens V94.2 - 80/7 bara, 524/200 C, 230/40 t/h (No firing)
Page 2
References
H.C. Orsted Vaerket, Denmark
•
•
•
•
•
•
•
Pressure:
25 bara
Temperature:
250 ℃
Performance: 130 t/h
District Heat:
5,5 MWt
Turbine:
Alstom GT10B
Supplementary firing, Combustion temp. 1050 ℃
1 x SteamGenTM 8
References
Zorlu Enerji - Tereshkovo/Kojuhovo - Russia
•
•
•
•
•
Pressure:
49 / 4,5 bara
Temperature:
465 / 235℃
Performance: 88 / 14 t/h
Turbine:
GE LM6000
District heating, Supplementary firing
6 x SteamGenTM 8
References
Achema - Jonava, Lithuania
• Pressure:
44 bara
• Temperature:
450 ℃
• Performance:
67 t/h + DH
• Turbine:
Siemens SGT-800
1 x SteamGenTM 8
References
Siemens SWE, Plovdiv, Bulgaria
•
•
•
•
•
Pressure:
82,5 bara
Temperature: 511 ℃
Performance: 75 t/h
Turbine:
Siemens SGT-700
District heating, Supplementary firing
1 x SteamGenTM 8
References
PBG Poland, Glogow - Polkowice
•
•
•
•
Pressure:
Temperature:
Performance:
Turbine:
72 / 6,5 bara
493 / 269 ℃
25 /5 t/h
4 x Solar Titan 130
• District heating, Supplementary firing, DeNOx
4 x SteamGenTM 8
References
E4 Group Russia, Borisov Belarussia
•
•
•
•
•
Pressure:
Temperature:
Performance:
Turbine:
District heating
81/6 bara
511/290 ℃
60/12 t/h
Siemens SGT-800
1 x SteamGenTM 8
References
Kraftanlagen München – Stadtwerke Erfurt
•
•
•
•
•
Pressure:
Temperature:
Performance:
Turbine:
District heating
81/41 bara
510/410 ℃
42/48 t/h
Siemens SGT-700
1 x SteamGenTM 8
“Your lifetime partner ”

Danish District Heating

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