načrtovanje, projektiranje in izvedbeni inženiring | …akropola, družba za inženiring,...
TRANSCRIPT
W W W. E E - H I G H R I S E . E U
PROJECT IS PARTLY FINANCED BY THE EUROPEAN UNION
UP TO 95% AIR HEAT RECOVERY
RAINWATER STORAGE
SOLAR POWERPLANTWASTE AIR
HIGH INSULATEDGREEN ROOF
HIGH INSULATED FACADE LAYER
INDEPENDENT RESIDENTIAL UNIT
10 kWh/m2afor heating
Passive standard
33kW solar power plant
4 - 16 charging points
Rain water collection
Constant exchange of air
with at least 85% recupperation
Intelligent socket
Intelligent controlled
blinds
Weatherstation
Digital telecommu-
nications
Smart light control
Biometric door openers
ENERGY EFFICIENT DEMO MULTIRESIDENTIAL HIGH RISE BUILDINGGrant agreement no:285209
EeB.ENERGY.2011.8.1-1Demonstration of very low energy new buildings
Starting date: 1st of January 2013Project duration: 3 years
Coordinator: Akropola, d.o.o. Dunajska 21, 1000 Ljubljana, [email protected], tel.: +386 1 280 66 80
LEGAL NOTICE: Neither the European Commission, nor any other person actiong on behalf on the Com-mission, is responsible for the use which might be made of the information contained in this publi-cation. The views given in this publication do not represent the views on the European Commission.
© European communities, 2012
Reproduction is authorised, provided the source is acknowledged. Printed in Slovenia.
The overall objective of the project is to demonstrate and validate new technologies, concepts and systems used in EE-HIGHRISE project, in order to test and assess the technological and economical feasibility of innovative en-ergy solutions in high rise demo building Eco Silver House.
Chilling Alarm system
embedded
Smart counters
Weatherstation
Automatic mode
Energy efficient
mode
THE OVERALL AIM
OF THE EE HIGHRISE ECO SILVER HOUSE PROJECT, SUPPORTED BY THE EUROPEAN COMMISSION (FP7-2011-NMP-
ENV-ENERGY-ICT-EEB), is dissemination of new technologies,
concepts and systems for sustainable, low-energy building to im-
plement the concept of Demo Eco Silver House energy solutions.
The fundamental principles of sustainable development of a
highrise building are reflected in EE-highrise through compre-
hensive planning of the energy efficiency project savings, among
other with renewable energy sources, perfect thermal insulation,
wall soundproofing, high-quality air conditioning system with a
recuperator, sun protection, extremely rational air-condition-
ing appliances, intelligent control and management of electric
and mechanical devices, machinery and tools, ecological ma-
terials, use of rainwater, micro solar power station on the roof,
green roof etc. and therefore it fulfils the requirement for: the
passive standard (PHPP07) with the consumption of 10 kWh/
m2 energy for heating per year. The most important innova-
tions of the EE-highrise are the integration of the building en-
velope – HVAC system, intelligent integrated control system and
renewable energy sources, fulfilment of the passive standard
for a highrise building with 11 floors and 128 residential units.
HEATINGHOT WATER HEATING
VENTILATION SYSTEMCHILLINGCOOLING
EXTERNAL BLINDSLIGHTS CONTROL
SOCKET CONTROLIP VIDEODOMOFON
BIOMETRICS DOOR OPENERSCHARGING POINTS FOR ELECTRIC VEHICLES
SMART COUNTERSRAINWATER HARVESTING/ COLLECTING
ALARM / TECHNICAL SECURITYWEATHER STATION
DIGITAL TELECOMMUNICATIONS
ICC control / intelligent control center for systems managementControl devices and systems in the apartment:
- HVAC (heating, ventilation and cooling)- shades control- lights and sockets control- video intercom and access control - alarm- plant watering- weather station- calling elevator before leaving the apartment / as an option- consumption control by smart counters- electric vehicle charged energy data control- solar plant energy production control- application such as Skype, etc / optional- apartment video surveillance / optional- internal building notes - shared bulletin board / optional- multimedia / optional-temperature, pressure, humidity, wind, solar radiation / displeyed on ICCImplemented scenario for the ICC automatic control of all devices and systems in the apartments / scenarios: auto, indoor, out, ...
district heating / radiators30% energy savings for DHW heatingconstant exchange of air in the apartmentsair duct integrated into the ventilation systemintegrated systems for automatic mode to ensure the comfort and pleasantness in the apartmentsautomated external blinds / solar gains in winter and shading in the summerliving rooms / other rooms as an optionselected socket in the apartmentremote control for residents, vehicles acess to the garage and other entrancesindependent biometric reader for accesing into building4-16 charging points in garage / charged energy data on ICCelectricity, district heating, water, energy obtained from SErainwater collecting system on the roof for flush toilet’s tanksindipendent alarm in each apartment / entrances, common areas and garagemeasuring current weather data/ on the roof, using of measured weather data on ICCfiber optic connection to apartments
TECHNIQUE IN THE APARTMENTS Systems and equipments in the apartments related to the ICC (Intelligent control centre)
- Local authorities, regional and national public bodies
- Municipalities associations and networks
- Public and private promotors
- Clients and users, investors and financial institutions
- Standardization bodies
- Architects’ associations
- Federations and associations of construction organisations
- Networks of cities
- European and national sustainable building related platforms
- Building industry providers and installers
- Other European building related organisations
- Energy management agencies
- Local authorities, regional and national public bodies
- Research community
STAKEHOLDERS
REMTY-R, podjetje za inženiring in trgovino d.o.o., Slovenia
Robotina, podjetje za inženiring, marketing, trgovino in proizvodnjo d.o.o., Slovenia
Elektron društvo sa ograničenom odgovornošću za proizvodnju trgovinu i građevinarstvo, Croatia
R.E.D. SRL, Italy
UMEA Universitet, Sweden
Gradbeni inštitut ZRMK d.o.o., Slovenia
Univerza v Ljubljani, Slovenia
Slovenski gradbeni grozd - GIZ (Construction Cluster of Slovenia), Slovenia
Cybrotech Limited, United Kingdom
Akropola, družba za inženiring, projektiranje, trgovino in proizvodnjo, d.o.o.PROJECT PARTNERS
WW
W.E
E-H
IGH
RIS
E.E
U
A - ESH (Eco Silver House):Our building, with a heating energy use of 10kWh/m2a, as determined by PHPP calculation,including energy use for water heating and electricity for cooling, air conditioning, technicaldevices and lighting. Electricity for domestic use is presented separately. (It is anticipated thatproper automatic shading will render cooling unnecessary.) Gains from the solar power plantare included.
B- comparative construction:The same building as the ESH, built in accordance with current standards and with a heatingenergy use of approx. 55kWh/m2a
C - classic construction:An average multi-residential building of compact shape from the 80s, with isolated facade,double thermopane glazing and an estimated heating energy use of approx. 105 kWh/m2a.The calculated net living area inside the envelope (excluding balconies and terraces) is12,870 m2.
sources: ZRMK, PHPP calculation
25.11.2010
1.1 Table of Comparisonwith estimated energy expenses in the passive part of the ESH
0
200
400
600
800
1000
1200
1600
annu
al u
se o
f ene
rgy
(MW
h/ye
ar)
1400
Cclassic construction
Bcomparativeconstruction
AESH
10
20
30
40
50
60
70
80
90
100
110
120
annu
al u
se o
f ene
rgy
(kW
h/m
2yea
r)
-space heating
-el. technical devices
-water heating
0
-cooling/air cond.-lighting
-electr. domestic
+solar power plant
2000
1800
130
140
150
160
1190493
129
270
10 kWh/m2a
21 kWh/m2a
48 4 kWh/m2a3 kWh/m2a
0.5 kWh/m2a
38.5 kWh/m2a
-34,5
197 15.3 kWh/m2a
38.5
354
126
710 55 kWh/m2a
-2.7 kWh/m2a
27.5 kWh/m2a
10 kWh/m2a
∑=690 MWh/y=54 kWh/m2a
54
231 18 kWh/m2a
92.5 kWh/m2a
1350 105 kWh/m2a
1421 110.5 kWh/m2a
354
126
27.5 kWh/m2a
10 kWh/m2a
231 18 kWh/m2a
∑=1421MWh/y=110.5kWh/m2a
∑=2061MWh/y =160.5kWh/m2a
92.5
110.5
39 7
- electricity / domestic
- electricity / devices, lighting, cooling
- district heating / water heating
- district heating / space heating
+ electricity / solar power plant
0
250
500
750
1000
1250
1500
annu
al p
rimar
y en
ergy
use
(MW
h/ye
ar)
1750
2000
2250
2500
2750
3000
Cclassic construction
Bcomparativeconstruction
AESH
1.3 Comparison tableannual primary energy use in the passive part of the ESH
electricity / devices, lighting, cooling
district heating
53
114
electricity / domestic
166
423
254
532
33 kWh/m2a
41 kWh/m2a
677 53 kWh/m2a
20 kWh/m2a
∑=1209 MWh=94 kWh/m2a
114 kWh/m2a1468
340
624 49 kWh/m2a
26 kWh/m2a
∑=2092 MWh=163
88 kWh/m2a
140 kWh/m2a
340
624 49 kWh/m2a
26 kWh/m2a
∑=2770 MWh=215 kWh/m2a
166 kWh/m2a2146
1128
1806