|Infrastructure name and acronym
||EUropean PHOtoREactor (EUPHORE)
||Paterna (Valencia), Spain
|Legal name of organisation operating the infrastructure
||Fundación Centro de Estudios Ambientales del Mediterráneo (CEAM)
|Description of the infrastructure
|Brief general description of the infrastructure to which access is offered
EUPHORE is one of the major international outdoor simulation chamber facilities and it is used to research atmospheric chemical processes. Its characteristics allow the simulation of these processes under near-real conditions thanks to its large size and to the use of natural light. The installation has two twin outdoor atmospheric simulation chambers. Each chamber consists of a half spherical transparent bag of fluorine-ethene-propene (FEP) with a volume of about 200 m3, making it one of the biggest outdoor simulation chambers in the world. EUPHORE chambers are equipped with a large number of analytical instruments for measuring physical parameters as well as a diverse range of biogenic and anthropogenic compounds and its intermediates and products in both the gas and the particle phases.
Over its 20-year existence, EUPHORE has become a reference worldwide within its field. Its location in Spain, with a high number of sunny weather days, allows the chambers to be used on nearly 2/3 of the working days per year, and has enabled a large number of studies to be performed and to considerably enhance the expertise of the EUPHORE staff. Installation of a huge number of external high-level instrumentation can be accommodated, to carry out extensive intercomparison/scientific campaigns.
The EUPHORE chambers are equipped with a broad number of analytical instruments in order to analyse VOCs, radical species, aerosols, O3, NOx, PAN, organic nitrates, hydroperoxides and organic acids. For in-situ measurements optical techniques such as LP-FTIR and LP-UV/VIS DOAS spectroscopy are available. For the sensitive analysis of reaction products several O3, SO2, CO and NOx monitors, as well as HONO-LOPAP monitor, PTRMS, GC-MS and GC-MS systems can be employed for sampling the trace gas components directly from the gas phase, with pre-concentration techniques (e.g. Solid Phase Microextraction, filters) or with solvent trapping. Also, there are off-line techniques: HPLC, LC-MS and GC-MS for the measurement of a different range of compounds, including biogenic and anthropogenic, both in the gas and in the particle phase. For the measurement of OH and HO2 radicals, a Laser Induced Fluorescence LIF is available. To measure aerosol formation from biogenic or anthropogenic precursor VOCs during oxidation, the EUPHORE installation is equipped with a SMPS system and a continuous-operating microbalance (TEOM) providing particle numbers and mass concentration. Besides, physical parameters are measured to properly characterize the studied processes (P, T, RH, radiation).
Features that make it rare in the world:
- One of the biggest outdoor simulation chambers in the world, i.e. better simulation of real conditions
- It is a reference worldwide, holding a vast experience gained throughout its creation 20 years ago
- Wide range of instruments
- Humidity control and simulation of NOx profiles
- Its location in Valencia allows its wide exploitation
- Installation of a huge number of external high-level instrumentation can be accommodated simultaneously, to carry out extensive intercomparison/scientific campaigns
|Services currently offered by the infrastructure and its research environment
- Installation of a large number of external high-level instrumentation can be accommodated at the same time, thus allowing extensive intercomparison/scientific campaigns to be performed.
- EUPHORE staff EUPHORE gives technical support to users for adaptation of their instruments to the chamber
- Electronic and mechanical workshops to ease the adaptation of instruments to the chambers
- Data storage and documentation (facility database, on-line protocols with description of the experiments, etc..)
- Provision and storage of chemicals for the experiments
- Guest office for up to 15 people and a library
- 50 m2 lab to place user instruments to be directly connected to the chamber, and more than 400 m2 of laboratory where instruments can also be placed
|Modalities of access and support offered under EUROCHAMP-2020
|Typical duration of work
Between 1 and 4 weeks. Tipically, the campaign starts with the installation of external instruments, which may take 1-2 days, latest discussions and advices to better adapt the experiements and the latest adjustments and chamber conditioning, then 10 days of experiments (1 experiments/day), then 1-2 days for debriefing and base data formatting, saving, and distributing among the users.
|Community/user type served
Scientific projects as well as studies contracted by enterprises are welcome. EUPHORE has a vast experience in research oriented projects while in the last years, many companies have used the chambers to test new instrumentation and to carry out studies their products before being released to the market (e.g. pesticides, photocatalytic materials, etc).
|Scientific and technical support offered
|The EUPHORE team offers support for planning the experiments. Depending on the grade of expertise of the users, EUPHORE staff gives advice on the design of the experiments, for flexible adaptation of the experimental schedule during the measurement campaigns and for data analysis: Equally, data collected with our instrumentation can be analysed by our staff or by the users, which are provided with both the raw and the treated data, when requested.
|Logistic and administrative support offered
||- Administrative support for ordering chemicals and consumables
- Support for the management of chemicals, including gases (ordering, conservation, provision) and gases required for the functioning of the external instruments
- Support for hotel booking/accomodation during the stay
|Person in charge of access provision at the infrastructure
|Dr. Amalia Muñoz, Senior Researcher, EUPHORE facility coordinator email@example.com
|Extended technical information
||EUPHORE consists of two identical half-spherical FEP (fluorineethene-propene) foil chambers with volumes of approximately 200 m3. A retractable steel housing surrounds the chamber and is used to control the time of exposure to sunlight. The chamber is filled to atmospheric pressure with purified dry air and the temperature and humidity inside the chamber are measured continuously
using PT-100 thermocouples and a dew-point mirror system.
S/V ratio: S/V = 1 m-1
- 2 hemispherical chambers made of FEP foil.
- Volume: 200m3 each
- Diameter: 9 m
Temperature range: Ambient temperature (+ 0-6 K)
Pressure range: (ambient pressure + 2 mbar) 990 - 1020 mbar
RH range: 0 - 60% if FTIR is used, up to 90% otherwise
Geographic position: longitude = -0.5°, latitude = 39.5°N
Projected surface area: 63.6m2 (horizontal surface area)
Each chamber consists of a half-spherical Teflon bag with a volume of ca 200m3. The chambers are made of FEP (fluorine-ethene-propene) foil with a thickness of 0.127 mm, with transmission of more than 80% in the wavelength range between 280 and 640 nm.
The chamber consists of 32 welded segments of the foil. The Teflon bags are suspended from a central point inside the frame of ladders. The chambers are protected against atmospheric influences by two half-sphere shaped protective houses.
Each chamber floor consists of 32 symmetrically arranged aluminium panels covered with FEP foil. The chamber bags are connected to the floors with the help of specially designed clamps. An integrated rubber cord is used as a seal between the bag and the chamber floor. Located on each chamber floor are 10 large circular openings (diameter of 0.6 m) and 20 smaller openings (diameter of 0.2 m), each closed with aluminium flanges, for accessing the chamber, for installing instrumentation in the chambers and as sampling ports.
To compensate heating of the chamber by solar radiation, the chamber floor panels are cooled by a refrigerating system. In order to stabilize the chambers against wind, the pressure in the chambers has to be slightly higher than the outside pressure. To protect the foil different safety precautions are installed. The pressure in the chambers is typically regulated within a range 100 to 200 Pa above the outside pressure. To clean the chambers after an experiment the chamber valve can be opened while air is flushed through the chamber.
The inlet and outlet ports and other accessories, like mixing fans, analytical systems, mechanical excess pressure valves, are located on the floor in order that the chamber surface is free for light entry. Integrated into the flanges are ports for the input of reactants and the sampling lines for the different analytical instruments.
||Natural sunlight. Photolysis frequencies calculated from actinic flux measured inside the chamber.
||Bloss, C., V. Wagner, A. Bonzanini, M. E. Jenkin, K. Wirtz, M. Martin-Reviejo and M. J. Pilling: (2005a) Evaluation of detailed aromatic mechanisms (MCMv3 and MCMv3.1) against environmental chamber data, Atmospheric Chemistry and Physics 5: 623-639
Bloss, C., V. Wagner, M. E. Jenkin, R. Volkamer, W. J. Bloss, J. D. Lee, D. E. Heard, K. Wirtz, M. Martin-Reviejo, G. Rea, J. C. Wenger and M. J. Pilling: (2005b) Developement of a detailed chemical mechanism (MCMv3.1) for the atmospheric oxidation of aromatic hydrocarbons, Atmospheric Chemistry and Physics 5: 641-664
Zador, J., V. Wagner, K. Wirtz and M.J. Pilling (2005) Quantitative assessment of uncertainties for a model of tropospheric ethene oxidation using the European Photoreactor (EUPHORE), Atmos. Env. 39, 2805–2817
Zador, J., T. Turanyi, K. Wirtz and M.J. Pilling (2006) Measurement and investigation of chamber radical sources in the European Photoreactor (EUPHORE), J. Atmos. Chem. 55, 147–166