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Thank you for your co-operation,The SOLAIR project team www.solair-project.eu

This area is to be completed by the SOLAIR project partnersProject reference number:Project Name:

Project Acronym:

CONTACT

Name Jaume Graupera i VilanovaFunction Admi nis trative respons ibl e

Organisation Patronat Municipal de Cultura de Matar

Address C/ Sant Josep, 9 (08302)

Cit Matar Barcelona

SP01 - MATARO1 Project reference & Contact information

SOLAIR - Increasing the market implementation of Solar air-conditioning systems

for small and m edium applications in residential and commercial buildings

Supported by the European Commission

DESICCANT COOLING SYSTEM WITH PV/SOLAR AIR

COLLECTORS IN THE MATARO LIBRARYSP01 - MATARO

Country Spaintel (national) 93 758 23 61fax (national) 93 758 23 62

tel (international) + 34 93 758 23 61fax (international) +34 93 758 23 62

e-mail

PROJECT LOCATION

Country Spain Latitude: North SouthTown Matar Longitude: East West

Region Catalunya Altitude: [m]Nearest main city Barcelona

PRESENT STATUS OF THE PROJECT

Done Corresponding date Expected dateBuilding readyProject studyPlanningSystem being installed march 2002In operation jul y 2002Stopped

Format completed by:

Name Marie-Catherine ProvilleFunction Technical

OrganisationAIGUASOL Enginyer ia

Address C/ Roger de Llr ia, 29, 3r-2a

City Barcelona (08009)Country Spain

tel (national) 93 342 47 55fax (national) 93 342 47 56

tel (international) +34 93 342 47 55fax (international) +34 93 342 47 56

e-mail marie.proville@aiguasol.coop

Date 28 june 2007

Version n 1

The data provided with this questionnaire may be used within the dissemination frameof the SOLAIR project

4134'25''226'30''

27,45

Yes No

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BUILDING

BUILDING CATEGORYResidential Office

Public Hotel

Commercial Sanitary, hospital

Other: Library

HEAT IS REQUIRED FOR1. Space cooling 4. Swimming pool

2. Space heating 5. Other:

3. Hot water

TYPICAL COOLING PERIOD System # jan feb mar apr may jun jul aug sep oct nov dec

1

2

3

Cooling demand during day and night Yes No n.a.

BUILDING DESCRIPTIONCooled floor area [m]

SP01 - MATARO2 Building

471

Total cooled volume [m]

Average number of floors [-]

Peak cooling load [kW]

no. of hours with cooling demand [h]

Peak heating load [kW]

no. of hours with heating demand [h]

Inertia category light heavy average n.a.

BUILDING VENTILATION

natural

mechanical centralized heat recovery

global A.C.

supply and return air

DISTRIBUTION SYSTEM

End device: fan coil Air duct

chilled ceiling Other:

concrete core activation

Distribution medium: water Nominal supply temp. [C]

Nominal return temp. [C]Nominal total water flow [m / h]

air Nominal supply temp. [C]

Nominal return temp. [C]

Nominal supply humid. [%]

Nominal return humid. [%]

Nominal total air flow [m / h]

COOLING STRATEGYfull air conditionning (strict conditions)

top cooling (no strict conditions with back up) Design outdoor temp. [C]

solar alone (no back up) Design outdoor humid. [%]

n.a.

20

54

25

82

1

12000

30

60

2120

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HEAT SOURCES

COLLECTORSCollector Array 1 Collector area refers to: Apert ure area

Total area [m] (preferred)

Tilt angle [] 0=horiz Absorber area

Orientation [] 0=south, 90=west, 270=east Gross area

n.a.

TYPE

Flat plate 2 glazing Model

Vacuum tube heat pipe Manufacturer Grammer

Other: air collector Country Germany

Collector Array 2 Collector area refers to: Apert ure areaTotal area [m] (preferred)

Tilt angle [] 0=horiz Absorber area

Orientation [] 0=south, 90=west, 270=east Gross area

n.a.

TYPEFlat plate 2 glazing Model

Vacuum tube heat pipe Manufacturer

Other: Country

Type of installation

Flat roof

Pergola

Tilt roof

SP01 - MATARO

20

5

3 Heat sources

88

Fully integrated

Other:

Heat transfer medium

Water Water + glycol Air Other

Flow control

low flow high flow variable

SOLAR HEAT STORAGETotal volume 0 [m]

Number of storage tanks 0 [-]

Storage medium

Water Other: No storage

AUXILIARY HEATING SYSTEMNone

Integrated in solar tank External direct type Auxiliary storage type

Auxiliary storage tank volume 0 [m]

Fuel

gas 350 [kW]

oil [kW]

biomass [kW]

electricity [kW]

other [kW] please, specify:

Other auxiliary heat sources

district heating [kW]

combined heat/power CHP [kW]

waste heat [kW]

other [kW] please, specify:

COMMENTS Indicate particular points, such as more details on the collector system, control items, ...Solar heating power ratio: 14%, under standard conditions (solar heating power / backup heater).

Auxiliary heating system is for the whole building.

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Cooling Equipment

CHILLER (heat dri ven)None

Working pair of Absorption chiller:

Absorption Water / Lithium-Bromide Ammonia / Water other AdsorptionOther please, specify: Desiccant (see above)

Model SSCR-L-1949 H2ManufacturerSeibu Giken (wheel)

Country

Nominal chilling capacity [kW][Tons]

Coefficient of Performance COP_thermal [-](chilling capacity / driving heat ratio)

Distributed chilled medium temperature [C]Nominal driving heat temperature [C]

Chiller is driven by: solar thermal heat (solar autonomous operation) n.a.solar thermal heat + auxiliary heat source

HEAT REJECTION (heat dr iven chill er)None

Dry cooling Open ModelWet cooling Closed Manufacturer

Hybrid n.a. Country

Thermal heat rejection capacity [kW]Nominal electricity consumption (fan) [kW]

Other re-cooling equipment:

DESICCANT EVAPORATIVE COOLING SYSTEM (DEC)None

SP01 - MATARO4 Cooling Equipment

30

81

230,6

16,8

sorption process: solid liquid

Sorption material: Silicagel Lithium-Chloride Other:

Manufacturer (sorption unit) Siegle+Epple (ATU) - Seibu Giken (w heel)Country Germany & Sweden

Nominal air volume flow rate: [m/hour]Minimum air volume flow rate: [m/hour]

DEC is driven by: solar thermal heat (solar autonomous operation) n.a.solar thermal heat + auxiliary heat source

BACKUP CHILLER (electrically driven vapour compression)None

Type: reciprocating centrifugal screw turbine Other: Compressor

chilling capacity [kW] Model WRA-1202Chilled fluid type Manufacturer Climaveneta S.P.A.

Coefficient of Performance COP_el [-] Country Italy(chilling capacity / electrical input ratio)

Chilled medium temperature [C]

Heat rejection of backup chillerWet coolingDry cooling

Electricity consumption is if not, nominal power of fan [kW]

included in COP_el

COLD STORAGENone

Total volume 0 [m]Number of storage tanks 0 [-]

Storage medium

Water Ice Other:

Storage tank capacity [kW h]Nominal exchange temp. [C]

COMMENTS Indicate particular points, such as typical thermally driven chiller operation temperatures, ...The Pompeu Fabra Library of Mataro has a PV facade and sheds. The total PV surface corresponds to 603 m2of ASE and PST (Germany). Photowatt (France) and BP Solar (Spain and UK) cells.

07-12

120006000

246water

3,5

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SCHEME OF THE SYSTEM

SP01 - MATARO5 System Scheme

Please, insert here schemes or sketches of the system, if available. The scheme should allow to identify thegeneral arrangement of the system components for heating and cooling, such as:heat sources, cooling equipment, storages, heat rejection, etc.

COMMENTS Indicate particular points, such as control strategy, .....

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RESULTS FROM SYSTEM OPERATION

Assessment of energetic system performancePlease, enter evailable data into the yellow boxes. The red coloured data fields will be updated automatically

MONITORING PERIOD Year Mo nt h Day

From : 2004 06 10

Until: 2004 08 17

Periods of system/monitoring interruption:

All energy d ata completed below sho uld co rrespond to t he speci fied m oni tori ng per iod

COLLECTORS

Radiation gain, global horizontal: MJ/m kWh/m

Radiation gain, collector surface MJ/m kWh/m

Gross energy production of collector kWh (sum of all collector arrays)

Useful energy from collector kWh (sum of all collector arrays)

(i.e., gross energy reduced by heat losses

in heat exchangers, pipes, heat storage)

Useful energy from collector for cooling operation (driving heat): kWh

Useful energy from collector for space heating / DHW: kWh

Specific collector yield: kWh/m

AUXILIARY HEATING

Heat from auxiliary energy sources: kWh

Auxiliary heat for cooling operation (driving heat): kWh7791

0

15191

SP01 - MATARO

12497

0

6 System evaluation

420

172,625

CHILLER (heat driven)

Driving heat input: kWh

Produced cold: kWh

Rejected heat: kWhThermal coefficient of performance (COP_thermal): [-]

Solar coverage of driving heat: [-]

DESICCANT EVAPORATIVE COOLING SYSTEM (DEC)

Regeneration heat input: kWh

Produced cold: kWh

Produced cold during desiccant wheel operation only: kWhThermal coefficient of performance (COP_desiccant): [-]

Solar coverage of regeneration heat: [-]

Solar coverage of total heat input: [-]

BACKUP CHILLER (electrically dr iven compressi on)

Electricity input: kWh

Produced cold: kWhCoefficient of performance (COP_el): [-]

Electricity demand for heat rejection included in electricity input yes no n.a.

AUXILIARY ELECTRICITY DEMANDPumps, collector circuits kWhPumps, heat driven chiller (heat, cold, cooling) kWhFans air handling unit kWhFans heat rejection, heat driven chiller kWhFans heat rejection, backup compression chiller kWhControl kWhOther kWh

COMMENTS Indicate particular points, such as system failures occurred, optimisation potential,....

0,00

981

no data

no data

no data

2226

no data

no data

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Please, enter evailable data into the yellow boxes. The red coloured data fields will be updated automaticallyPlease, include installation cost into total cost and specify the installation cost

All co sts i n euro s and ex clud ing VATBase for specific costs: collector area m

Base for specific costs: thermal chiller capacity kW (base for chiller systems)Base for specif ic costs: air volume flow rate m/hour (base for DEC systems)

TOTAL INVESTMENT COST

[ / m ] [ / kW ] [ / (m/h) ]

1. SOLAR COLLECTORS

Cost details cost included in Total costyes no

no data available installation structure

buffer solar tank other (piping, pumps, expension vessels, valves..)

Comments:

2. COLD PRODUCTION including RECOOLING DEVICEe.g., Sorption chiller, DEC (including sorption rotor, humidifier, heat recovery wheel, AHU)and e.g., Cooling tower, waste water, drycooler, water treatment device

Cost details cost included in Total costyes no

no data available installation sorption chiller heat rejection

cold storage

25.000 20 1250

894,0740741

8881

12000

Provider: Grammer.

284

Specific costs

[ / m]

no ata

Specific costs

[ / y ]

6,035[ / kW] [ / (m/h)][ / m]

82372420 20 3621[ / y][ ]

TOTAL

Total cost[ ]

[ ]

Total cost Annual cost

Investment - Material7

[ y ]

Annual cost[ / y]

SP01 - MATARO

[ y ] Lifetime

Annual cost Specific costsLifetime

[ y ] Lifetime

other (piping, pumps, expension vessels, valves..)

Comments:

3. BACK-UPhot back-up e.g., Gas/fuel/biomass boiler/CHP/ district heating connection and cold compression chiller

Cost details cost included in Total costyes no

no data available installation hot back-up

cold back-up other

Comments:

4. STORAGEe.g, hot water (from solar or not) storage or buffer tank, cold storage tank

Cost details cost included in Total costyes no

no data available installation solar storage

hot storage cold storage

Comments:

5. ELECTRIC, CONTROL and MONITORINGe.g., Controller, electric panel, sensors used for control, relays, wiringe.g Monitoring hardware & software, modem, sensors, flowmeters, wiring, energy meters

Cost details cost included in Total costyes no

no data available installation monitoring

control electric panels

0

Specific costs

[ / (m/h)]1

Specific costs

No storage.

[ / y]

[ / (m/h)]0

Specific costs

[ / (m/h)]

This part includes the ducts to connect solar field and ATU and also other costs of installation.Provider: TFM, S.A.

[ y ]6700 15

Total cost

[ / m]

76 83

0

[ / m] [ / kW]

[ / kW]

0

0 15 0 0

447[ ]

L ifet ime Annual cos t

Not included in costs because it was already existing in the building.

[ / kW]0

Annual cost[ / y]

[ ] [ y ] [ / y] [ / m] LifetimeTotal cost

0

Annual cost

Total cost

15 0

Lifetime[ y ][ ]

Comments:

Provider: SAUTER IBRICA.

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Please, enter evailable data into the yellow boxes. The red coloured data fields will be updated automaticallyAll costs in euros and excluding VAT

FEASIBILITY STUDYDescription : First phase with pre-design...

Total cost [ ] [ / m2 ] [ / kW ]

PLANNINGDescription : Full design, call for tenders, works management...

Total cost [ ] [ / m2 ] [ / kW ]

COMMISSIONINGDescription : Checking of the material and installation, start up phase

Total cost [ ] [ / m2 ] [ / kW ]

Comments on feasibility s tudy, planning and commisioning:

[ / (m/h) ]0

Specific costs

[ / (m/h) ]0

Specific costs

0 0

8

[ / (m/h) ]0

Specific costs

SP01 - MATARO

0

0

0 0

00

Investment - Planning & Design

0

ANNUAL MAINTENANCEDescription: Annual expenditures for maintenance of the system

Total cost[ / y.m2 ] [ / y.kW ]

ANNUAL OPERATIONDescription: Annual expenditures for the operation of the system

Fuel pricesHeat production, fossil,.. Gas /kWh

Fuel /kWhElectricity /kWh

Water /m3

Pumps, fans, chillers,..Reference year

Cooling tower, humidification,..

Total cost [ ] [ / m2 ] [ / kW ]

Comments on M&O

MAINTENANCE:

Man power: 668 /year; substitution of material: 2.320 /year.

Man power for control and monitoring: 5.000 /year. Estimation from Aiguasol

for monitoring activities in 2002 and 2004. Analysis of data for one summer.

2003

0,036

0,10,75

Specific costs[ / (m/h) ]

0,00 0,00 0,00

Water

413[ / y ]

6.987

Electricity

[ / y ]

925

Gas, Oil, ..[ / y ]

Financed 100% by the European Commission.

Specific costs[ / y.(m/h) ]

7.988 91 99 0,665666667[ / y ]

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GENERAL USER REACTIONS (ease of use, controlability, )

GENERAL ASSESSMENT

satisfied or not comments

YES NOUser / owner satisfied ?User / Owner involved in the project?

Qualitiy of comfort aspects

Image and marketing aspects

Other aspects

9 Qualitative assessment SP01 - MATARO

Maintenance responsible people said that the equipment is operating correctly. Users do not notice any incidenceabout uncomfortable air conditions during 2004 year operation. Major unsuitable result of the system is the high water

consumption estimated.

'* Demonstration of a environmentally friendly technology'* Improvement of the confort because air cooling capacity was increased

The system is working properly, the indoor comfort conditionsare better than the ones obtained with the previous installation,due to the air cooling capacity has been increased and theload has been reduced using shading devices over west

The system is complety operated by a centralized control and aexternal maintenance company. This company was whoprogrammed the software of the control system. This is a goodadvantage to solve problems and also to check the correctoperation of the system. Majority of failures are associated to a

PERFORMANCE ASSESSMENT

YES NO commentsSufficient Energetic performance?

Overall reliable operation?

Existing nuisance ?

Potential for optimisation?(e.g., system control)

ENVIRONMENTAL BENEFITS e.g CO2 and energy savings?

MAJOR LESSONS LEARN e.g more efficient design? Material? How to avoid nuisance? Etc

* Employing the same company for control programming and maintenance is time and cost savings.* DEC with vapour compression back-up for cooling is a technology that works properly in a humid and hot climateas the Mediterranean coast premises.* Water consumption is a problem in this systems.* A continous monitoring is necessary to continous learning on performance of the system and optimization of theoperation

Monitoring sensors have been several days without registeringdata. The monitoring is not doing continously, so that theincidences can not be detected as soon as is necessary tomake a good registration of the operation parameters Now, it

* Noise problems detected in start-up period has been avoided.* The technology guarantees a high primary energy savings using solar energy* The main environmental problem is the high water consumption. Humidifiers must be kept very clean to minimize

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If available, please insert additional figures and fotos into thi s sheet

10 Figures, Fotos SP01 - MATARO