Including laboratory equipment and facilities
Cracow University of Technology posted this:Building and Architectural Acoustics LaboratoryBuilding and Architectural Acoustics Laboratory (BAAL) is a part of Building Physics Lab. Our mission is to help architects and structural designers make their buildings acoustically better. We also help building material manufacturers to develop or improve acoustical performance in their products. We offer consulting services in the field of acoustics from the design phase until final building or product testing.
Cracow University of Technology posted this:Institute of Thermal Power Engineering - Cracow University of TechnologyInstitute of Thermal Power Engineering is providing research and education in the field of energy technologies. The Institute covers a wide area of energy research, from expert works for the power sector, to investigations of the most advanced technologies for energy generation
Cracow University of Technology posted this:Division For Manufacturing System Design - Cracow University of TechnologyActivities of Division are mainly focused on research and technology development in the field of applied mechanics, material engineering, machine design, thermal and process engineering, production engineering, computing sciences, power engineering and computer sciences. FME employs about 250 research and teaching staff. It offers the following fields of studies: power engineering, machine design and operation, automatics and robotics, management and production engineering, computer sciences, biomedical engineering and industrial design. Currently there is more than 4000 of students at FME and 250 teaching staff.
Cracow University of Technology posted this:Laboratory of energy efficient buildingThe Laboratory is the first place in Poland to do such large-scale research on energy efficient technologies and the comfort of the occupants of low-energy buildings. This interesting project gives the University the leading position in the sector of energy efficient building.
Cracow University of Technology posted this:Laboratory for Trace Organic Analyses - Cracow Univerisity of TechnologyLaboratory for Trace Organic Analyses is an integral part of the Department of Chemical Engineering and Technology at Krakow University of Technology. The Laboratory is accredited from Polish Centre for Accreditation that signed EA Multilateral Agreement. PCA has become a signatory of EA MLA
Cracow University of Technology posted this:The Geotechnical Laboratory at Department of Environmental Engineering of Cracow University of TechnologyThe Geotechnical Laboratory at Department of Environmental Engineering is equipped with the following devices: • Triaxial apparatus ELE • Rowe’s consolidometer (ELE) • The CPTU
Cracow University of Technology posted this:Low energy building design and thermal refurbishment of existing buildingsOUR MAIN GOALS Tools and good practice procedures for low energy building design, enabling to reduce demand on heating and prevent cooling demand while maintaining high indoor air quality. Because of the big volume of poor quality prefabricated apartment buildings, that still exist in Poland, one of our goals is also to elaborate a scenario of holistic revitalisation of those buildings in accordance with the requirements of sustainable development.
Cracow University of Technology posted this:Laboratory of Photochemistry and Optical SpectroscopyDesign and synthesis of new photoinitiators dedicated for cationic, free-radical and hybrid photopolymerization. The research are performed to improve the speed of the curing processes of polymer coatings by developing innovative polymerization photoinitiators having a very better parameters than those already used in industry. The search for more effective initiators are fully justified from the practical point of view in industry photocurable polymer coatings.
IMDEA Water Institute posted this:Geomatics laboratory for water resources managementIMDEA Water works on the methodological development and application of different spatial tools to support water resources management, including environmental mapping, remote sensing, the design and implementation of spatial databases and geoportals, applications for provisioning networks, and hydrological and hydrogeological modelling. New spatial information sources (LIDAR, GPS, digital terrain models, high-resolution imaging or drones) enable us to create new, high-resolution thematic mappings. Remote sensing techniques help derive biophysical vegetation variables (vegetation indices, water stress, agricultural output, crop evapotranspiration, etc.), geological mapping, soil usage, etc. Spatial databases record and order this information, forming a Hydrological Information System able to analyse the topological and quantitative relationships of different variables, the development of advanced 3D mapping and its implementation in web geoportals. Hydrogeological modelling by means of individual numerical models and/or coupled with hydrogeochemical models allows us to assess water resources in terms of their quantity and quality, and can be the basis for decision-making on the issue of water resources, both for surface water and groundwater bodies. Combining the extraction of data contained in old mappings and geo-positioning techniques with GPS allows the identification of hydraulic heritage elements for the development of decision-making support strategies.
IMDEA Water Institute posted this:Biology and microbiology laboratoryIn our Biology and Microbiology laboratory we provide surface and groundwater analysis services in order to: • Support water quality surveillance initiatives through standardised national and international methods, in accordance with the Water Framework Directive (WFD 2000/60/EC) and Groundwater Directive (GWD2006/118/EC). • Monitor cyanobacteria blooms and their toxins in surface water and develop technological solutions for the elimination of cyanotoxins in water treatment.
IMDEA Water Institute posted this:Laboratory techniques for contaminant transport assessmentLaboratory techniques: Experimental analysis of processes affecting transport of contaminants through the vadose zone and the aquifer are necessary to interpret field data, especially when the recognition at field level is hampered by the complexity of the environmental system. Batch and column experiments, specifically designed to simulate field conditions as reliably as possible, provide valuable information on interaction between contaminants and vadose zone and/or aquifer materials. These laboratory techniques are also useful to assess the response in terms of contaminant removal during water reuse and water treatment activities. Experimental study should always be coupled with numerical modelling to quantify contaminant transport parameters, with the aim of finding the nexus between field and laboratory research.
IMDEA Water Institute posted this:Water and soil laboratory with accreditation ISO 17025 ENIMDEA Water labs joined the Laboratory and Infrastructure Network of the Community of Madrid in 2009, with reference number 267. The labs perform several physico-chemical, microbiological and chromatographic analyses associated with quality control of water bodies and soils. The IMDEA laboratories are currently engaged in the application process for formal acknowledgement of technical competence as a laboratory for water analysis by ENAC (National Accreditation Entity) accreditation, to ensure confidence in test results: Accreditation ISO 17025 EN. For the determination of the following parameters: pH, conductivity, suspended solids, DQO, DBO5, total phosphorus and TKN (Total Kjeldahl Nitrogen).
Institute of Chemical Research of Catalonia posted this:Crysforma: services in pharmaceutical solid state developmentCrysforma provides complete scientific support for the discovery, analysis and scale-up of polymorphs, hydrates, amorphous phases, salts and co-crystals of active pharmaceutical ingredients or intermediates. Crysforma has developed its own crystallization screening methodology based on the combination of several crystallization procedures. We use high-throughput crystallization systems controlled by highly skilled scientists to maximize the information drawn from each experiment. Our projects are always carried out in close collaboration with the client, adapted to the customer's needs and under strict confidentiality conditions.