Environmental
The environment is important for our society. It does not only make our own existence possible, but also of all the life around us. JSB is very much aware of the important role played by the environment. Environmental scientists use our advanced solutions to measure the threats and hazards of our environment. Our applications are used for soil analysis, waste inspection, the study of materials contained in soil, air, water and plants. Even the commodities we use in everyday life such as phthalates (plasticizers) in plastic, paint and everything we come into contact with every day belong to this market.
Below you will find an overview of frequently delivered applications. If your application is not on the list, please contact us.
Application notes
Headspace
- Automated determination of dissolved gases in water by headspace calibration of mixed gases
- Dynamic Headspace – Botanical headspace
- Gasoline range organic detection and screening
- Gasoline range organic detection by using headspace sampling technique
- Optimizing of volatile organic compound determination by using static headspace sampling (Method)
- Optimizing volatile organic compound determination by using static headspace sampling (Technique)
- RSK-175 Calibration and analysis comparison
Large volume injections
GCXGC
- Analysis of electronic waste by GC x GC combined with HRMS
- Environmental Total Petroleum Hydrocarbon (TPH) Analyser
- GC×GC-QTOF determination of age markers in diesel oil
- Pyrolysis Oil of Spruce Lignin with GCXGC FID MSD JSB
- The use of gc×gc-nci-qtof for the quantitative analysis of organochlorine pesticides (ocps) and polychlorinated biphenyls (pcbs)
Plasma detector
Purge & Trap
- A single calibration method for water and soil samples performing EPA method 8260
- Analysis of low level volatile organic compounds in air
- Assay of hydrocarbons in soil using the 7400 autosampler
- Automated analysis of BTEX in soil
- California Oxygenates
- Determination of volatile organic compounds in air
- Drinking water analysis conditions
- Effect of split ratio on USEPA Method 8260 Compounds
- EPA 502-524.2 VOCs using the CDS 7400 autosampler
- EPA Method 524 Using the CDS 7000 Purge & Trap
- Low level 2-methylisoborneol and geosmin detection by Purge & Trap sampling
- Maximizing production while minimizing costs
- Optimal conditions for USEPA method 8260 analysis
- Optimal conditions for USEPA method 8260B analysis
- Optimizing standard preparation
- Purge & Trap - Drinking Water Analysis Conditions
- Purge & Trap – Air Sampling with the CAM 5000
- Purge & Trap – autosampling
- Purge & Trap – EA 600 Screening
- Purge & Trap – EPA 502.2
- Purge & Trap – EPA 601/602
- Purge & Trap – reproducibility
- Purge & Trap – Reproducibility in automated environmental
- Purge & Trap – Reproducibility of air sampling using the CAM 5000
- Purge & Trap – Trapping efficiency
- Purge & Trap – Waste solvent
- Purge & Trap – Water management
- Purge & Trap- EA 600 technical
- Purge and Trap using the 7300 autosampler
- Reproducibility of the 7400 autosampler for BTEX in Water
- The CAM 5000: A new concept in air sampling
Pyrolysis
- Analysis of algae using pyrolysis and THM
- Analysis of gases produces from the pyrolysis of biomass
- Pyrolysis-GCMS to characterize indoor dust
Thermal Desorption
- Analysis of soil samples using the HTD
- Analysis of VOC Gases and TO-1/TO-2 standards via Dynatherm 9300 TDA Using VOCGAS focussing trap
- Calibration curves for PFPH formaldehyde hydrazone using thermal desorption
- EPA TO1 analysis using the CDS TDA 9300 autosampler
- Simulant analysis using short cycle Thermal Desorption
- Thermal Desorption of air samples from ORBO Tubes
- Thermal Desorption of gasoline range hydrocarbons from soil using a pyroprobe
- Thermal Desorption of PCBs from soil using the HTD
- TO-17 Analysis Using the CDS TDA 9300 Autosampler
PAL SPME
- Determination of C2-C12 aldehydes in water by SPME on-fiber derivatization and GC/MS
- Determination of iodoform in drinking water by PAL SPME Arrow and GC/MS