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Laboratory equipments
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BIOGAS LAB
INSTRUMENT NAME
SPECIFICATION OPERATING AD MANAGEMENT REQUIREMENT
FACILITIES WITH DIMENSIONS
Biogasomat BGM 2-4/5000
Data BGM 2 / 5000 MT
BGM 3 / 5000 MT
BGM 4 / 5000 MT
Dimensions (L x B x H)with transport rollers
approx. 0,82 x 0,5 x 1,4 m
Approx. 1,25 x 0,5 x 1,4 m
approx. 1,55 x 0,5 x 1,4 m
Weight approx. 75 kg (empty)
approx. 80 kg (empty)
approx. 85 kg (empty)
E-connection 220 V, 50 HzE-performance ca. 2,1 kWNumber of samplecontainerdouble walled(1.4103)
2 3 4
Nominal containervolume 2 x 5000 ml 3 x 5000 ml 4 x 5000 ml
Paddle stirrer 1 x per containerRotational speed paddle stirrer 0.50 U / min, adjustable
Gas withdrawal ¼'' tube connectionEmptying 1½'' ball valveChecking tap andcharing hole 1½'' closing
Portable biogas ATEX IECEx MCERTS (applied for) CSA and UKAS calibration User-driven
analyser (ISO17025) certified- Robust design for market leading reliability- CH4 and CO2 accuracy +/-0.5% after calibration- Measures % CH4 CO2 and O2- Modular and upgradeable- 3 year warranty- Stores and downloads readings- User selected languages- Choice of H2S up to 10000ppm- Additional Gas Analyser Manager software for data download- Optional ATEX certified anemometer- Optional ATEX certified temperature probe- On board context-sensitive help- Bluetooth for downloading readings without a USB cable- Customer updatable firmware- View previous readings on the analyser screen- View calibration history on the analyser screen
improvements include all inlet ports now at the top of the Biogas 5000. It meets UK and international certification standards including ISO 17025, ATEX and IECEx. Meeting IECEx is a UK ‘first’. Biogas flow is measured in the Biogas 5000 using an attached anemometer or a Pitot tube. Flow measurement helps monitor biogas production rates. Operational costs for the Biogas 5000 are reduced and fewer replacement filters are needed. User calibration is really easy with menu-driven, easy-to-follow on-screen instructions. To suit users worldwide the extended operational
temperature range is now -10 to +50 degrees Celsius.
APCG (Water’s)
-GC capabilities for today’s advanced MS technologiesAPGC is an ionisation source for Xevo® and SYNAPT® mass spectrometers. The ionisation is ‘soft‘ meaning that less fragmentation is observed for many compounds when compared with techniques such as EI. Reduced fragmentation can give higher sensitivity and specificity, therefore simplifying pre-cursor ion selection in MS/MS analyses.
Waters® Universal source architecture and EngineeredSimplicityTM means that changeover from UPLC® to GC is quick and simple. Since APGC is not a vacuum technique equilibration time between techniques is kept to a minimum. This means that analysis can be tailored to business demands, maximizing up-time and instrument utilization.
Waters enhanced, unique MS technologies such as RADARTM, MSE & HDMSTM are now available to GC separations. Unlock the secrets of your sample and make sure you have the widest possible coverage from your analyses.
-Xevo TQ-S with APGC - Ultra Trace QuantificationXevo TQ-S APGC equipped with unique StepWaveTMtechnology, enabling detection limits at ultra-trace levels. This allows compliance with regulatory limits and the ability to inject less sample matrix, reducing effects of contamination on the GC/MS system and therefore increasing uptime. The unique source design offers high levels of matrix tolerance and gives excellent injection to injection repeatability. StepWave ion transfer optics and detection technology allow accurate and precise quantification over the widest dynamic range.
-Xevo G2-S QTof with APGC – Identify, quantify and confirm the broadest range of compounds with GC
Many analyses cross the boundary between LC & GC. The Waters Xevo G2-S QTof enables complete screening of samples using both ACQUITY UPLC® and GC separations. MSE allows the scientist to get exact mass precursor and fragment ion spectra from every detectable component in the sample, simplifying the identification of components.
Innovative geometry and ion detection system combine in the QuanTofTM to enhance sensitivity and provide outstanding chromatographic compatible mass resolution, matrix tolerant in spectrum dynamic range, quantitative performance and mass accuracy.
Xevo G2-S QTof is designed for scientists who need to indentify, quantify and confirm the broadest range of compounds in the most complex and challenging samples.
-SYNAPT G2-Si with APGC – Research grade, high-resolution, ion mobility separations for GCAPGC gives access to high-end research grade, high-resolution, ion mobility separations previously unavailable to GC users and provides a range of unique experimental capabilities to make new discoveries possible that are beyond any other analytical platform.
This combination of mass accuracy, resolution and ion mobility gives unsurpassed levels of selectivity providing sample information never before obtainable.
Superior separation is facilitated with high-efficiency T-WaveTM Ion Mobility Separation which adds an extra dimension of resolution to your analysis. This combination of leading edge technology makes a wider range of experimental options possible than ever before, enabling you to get maximum information from your sample.
SYNAPT delivers a third dimension to your analysis, proven to transform
your analytical perspective whatever the application.
Drying CabinetThe drying cabinet is applied for the treatment (steaming / heating / cooling) ofspecimen (such as test panels of wood fiber materials) on a laboratory scale.A mold tray with the specimen is inserted into the drying cabinet and then thecabinet is closed. The specimen can be admitted with steam and / or hot air orfresh air depending on the requirements. The heat carrier air penetrates the specimen by means of forced ventilation (fan). In addition, saturated steamcan be sprayed. The pneumatic cycle can operate via butterfly valves incirculated or fresh air mode depending on requirements.