The Hallikainen Model 491 Viscometer is a completely automated process stream analyser with a remote sealing as standard for higher viscosity applications.
We fotograferen, scannen woningen, gebouwen, constructies voor vastgoedmakelaars, architecten, projectontwikkelaars, aannemers,...
Daarnaast maken we 360° scans, virtual tours, grondplannen, luchtfoto's met
drones, mapping en nog veel meer.
Diensten voor vastgoed
Standaard fotografie
3d scans
Virtual tours
2d vloerplannen
Drone foto -en videografie
Virtual staging
Nabewerken foto's
Vastgoed teaser videos
Diensten voor
constructies
Foto en video
3d scans
E57 files
Vloerplannen
Puntenwolken
Mesh bestanden
Trueplan
Luchtfoto's
en meer
XRF Based &Multi-Metals & Continuous Water Analyzer Xact920European Tech Serv
Process monitoring – feedback for water treatment may improve the efficiency of the treatment process – use fewer chemicals to achieve require effluent emission limits
Measurement of Se, As for compliance with Steam Electric Generating Effluent Guidelines
Monitoring of treatment of wastewater by biological based treatment systems
Measurement of Corrosion Products (e.g. Fe, Ni, Cr and Mn) to improve operating efficiency
Measurement of Elements in Nuclear Power Plant Applications (e.g. Pb, Cu, Fe)
Reduce laboratory analysis costs
On-line, in-situ, and at-line monitoring of batch and continuous processes
Displays up to 15 properties at once and measures up to 30 properties per stream
Optical multiplexing capabilities provide analysis of up to 16 process streams using fiber optic or extractive stream switching
Utilizes process-proven ANALECT® Diamond 20™ Transept™ optical head
SpectraRTS™ software engineered exclusively for on-line monitoring, allowing use by engineers, maintenance personnel, and chemists
All ANALECT® lab and on-line systems share core optical technology, allowing instrument-to-instrument calibration transfers
The FROG-5000™ is a portable gas chromatograph (GC) that identifies multiple target volatile organic compounds (VOC) in water, soil, and air. The FROG-5000™ detects chemicals as volatile as vinyl chloride to semi-volatile organics such as naphthalene with lab quality results.
Featuring a MEMS (micro electro-mechanical systems), the FROG-5000™ has an integrated heater for temperature ramp chromatography – ramping the temperature reduces the analysis time and aids in the separation of late eluting compounds. These components combined with an internal PID identify VOCs in ambient air at concentrations as low as 1 part per billion.
Continuous analysis:
Continuous analysis of aerosols on filters for optical and thermal analysis
OC/EC determination:
Real time/online TC/BC/EC/OC and Brc analysis in combination with our Aethalometer AE33
Ease of Use:
No fragile glassware, no catalyst, no gas supplies needed
Rugged, Reliable, automatic:
35 years of published performance, rugged, all-steel construction, unattended operation – 1 month minimum
We fotograferen, scannen woningen, gebouwen, constructies voor vastgoedmakelaars, architecten, projectontwikkelaars, aannemers,...
Daarnaast maken we 360° scans, virtual tours, grondplannen, luchtfoto's met
drones, mapping en nog veel meer.
Diensten voor vastgoed
Standaard fotografie
3d scans
Virtual tours
2d vloerplannen
Drone foto -en videografie
Virtual staging
Nabewerken foto's
Vastgoed teaser videos
Diensten voor
constructies
Foto en video
3d scans
E57 files
Vloerplannen
Puntenwolken
Mesh bestanden
Trueplan
Luchtfoto's
en meer
XRF Based &Multi-Metals & Continuous Water Analyzer Xact920European Tech Serv
Process monitoring – feedback for water treatment may improve the efficiency of the treatment process – use fewer chemicals to achieve require effluent emission limits
Measurement of Se, As for compliance with Steam Electric Generating Effluent Guidelines
Monitoring of treatment of wastewater by biological based treatment systems
Measurement of Corrosion Products (e.g. Fe, Ni, Cr and Mn) to improve operating efficiency
Measurement of Elements in Nuclear Power Plant Applications (e.g. Pb, Cu, Fe)
Reduce laboratory analysis costs
On-line, in-situ, and at-line monitoring of batch and continuous processes
Displays up to 15 properties at once and measures up to 30 properties per stream
Optical multiplexing capabilities provide analysis of up to 16 process streams using fiber optic or extractive stream switching
Utilizes process-proven ANALECT® Diamond 20™ Transept™ optical head
SpectraRTS™ software engineered exclusively for on-line monitoring, allowing use by engineers, maintenance personnel, and chemists
All ANALECT® lab and on-line systems share core optical technology, allowing instrument-to-instrument calibration transfers
The FROG-5000™ is a portable gas chromatograph (GC) that identifies multiple target volatile organic compounds (VOC) in water, soil, and air. The FROG-5000™ detects chemicals as volatile as vinyl chloride to semi-volatile organics such as naphthalene with lab quality results.
Featuring a MEMS (micro electro-mechanical systems), the FROG-5000™ has an integrated heater for temperature ramp chromatography – ramping the temperature reduces the analysis time and aids in the separation of late eluting compounds. These components combined with an internal PID identify VOCs in ambient air at concentrations as low as 1 part per billion.
Continuous analysis:
Continuous analysis of aerosols on filters for optical and thermal analysis
OC/EC determination:
Real time/online TC/BC/EC/OC and Brc analysis in combination with our Aethalometer AE33
Ease of Use:
No fragile glassware, no catalyst, no gas supplies needed
Rugged, Reliable, automatic:
35 years of published performance, rugged, all-steel construction, unattended operation – 1 month minimum
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
The Mi3 is a turnkey solution for automotive emission testing that features the world's fastest particle sensor. It provides accurate real-time data, reliable measurements in all environments, and ensures measurements meet emission regulations standards. The Mi3 requires little maintenance due to its low-maintenance particle sensor and self-diagnostics. It can integrate seamlessly with existing emission test infrastructure through various connection options.
THE GAS CHROMATOGRAPHIC REVOLUTION
FOR ENVIRONMENTAL MONITORING
PyxisGC BTEX is the first and unique gaschromatograph "carrier gas free" for remote BTEX monitoring
in ambient air. PyxisGC BTEX is manufactured by Pollution Analytical Equipment in compliance with
EN14662-3:2015.
"BTEX ambient air analysis: sources, regulations, technologies for controls"European Tech Serv
"BTEX ambient air analysis: sources, regulations, technologies for
controls"
In collaboration with The Council for Research and Experimentation in Agriculture at the Puglia
Regional Environmental Protection Agency (ARPA)
The M1000 operates according to the diffusion principle. The monitor is mounted on a flange which is located at the top of the silo or bin. The gas in the atmosphere of the silo diffuses into the oxygen sensor. Since there is no positive movement of chemical powder to the sensor the sampling gas will not block filters and tubing. The right design and choice of components ensures a long term maintenance free operation.
H2scan’s HY-ALERTA™ 600 Fixed Area Hydrogen Monitor will provide hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit
H2scan’s HY-ALERTA™ 600 Fixed Area Hydrogen Monitor will provide hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit
H2scan’s HY-ALERTA™ 1600 Intrinsically Safe Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit.
H2scan’s HY-ALERTA™ 1600 Intrinsically Safe Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit.
H2scan’s HY-ALERTA™ 2600 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s lower flammability limit.
Technology background HY-ALERTA SAFETY SYSTEMS – HY-ALERTA 2600European Tech Serv
H2scan’s HY-ALERTA™ 2600 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s lower flammability limit.
H2scan’s 2620 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit. The monitor is designed for either ceiling or wall mount. H2scan’s hydrogen-specific sensor technology has no cross sensitivity to other combustible gases, thus eliminating false positive alarms and ensuring safety system reliability.
H2scan’s 2620 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit. The monitor is designed for either ceiling or wall mount. H2scan’s hydrogen-specific sensor technology has no cross sensitivity to other combustible gases, thus eliminating false positive alarms and ensuring safety system reliability.
H2scan’s HY-OPTIMA™ Model 2700AS Process Hydrogen Analyzing System provides a complete solution for process hydrogen measurement in refineries, chemical plants, air separation units and industrial gas manufacturing plants.
The document describes a solid-state hydrogen sensor that uses both resistor and capacitor circuits to detect hydrogen from 15 ppm to 100% by volume. It has a palladium-nickel alloy film that provides stability and a proprietary coating that allows operation in harsh environments. An on-chip temperature control loop compensates for external fluctuations, and the sensor can operate in nitrogen, oxygen, and other inert gas backgrounds as well as multi-component and varying gas and liquid streams.
The HY-OPTIMA™ 2700 explosion proof in-line hydrogen process sensors use a solid-state, non-consumable sensor that is configured to operate in process gas streams. The H2scan thin film technology provides a direct hydrogen measurement that is not cross sensitive to other gases.
H2scan’s HY-OPTIMA product line includes a range of real-time, in-line portable hydrogen monitors for process optimization in industrial applications. The end result is increased product yield, improved hydrogen utilization, and extended catalyst life.
The document describes a solid-state hydrogen sensor that uses both resistor and capacitor circuits to detect hydrogen from 15 ppm to 100% by volume. It has a palladium-nickel alloy film that provides stability and a proprietary coating that allows operation in harsh environments. An on-chip temperature control loop compensates for external fluctuations, and the sensor can operate in nitrogen, oxygen, and other inert gas backgrounds as well as multi-component and varying gas and liquid streams.
The HY-OPTIMA™ 1700 is an intrinsically safe device that incorporates our patented solid-state sensor and is configured to operate in background gas streams with up to 95% relative humidity and temperatures up to 100ºC.
The HY-OPTIMA™ 720 is a solid state sensor configured to operate in air background gas streams having up to 95% relative humidity and temperatures up to 65ºC
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
At the core of our technology are our next‑generation air quality monitors - the Clarity Node and Node-S. These nimble monitors are configured on our web-based deployment tool and installed in a matter of minutes. Hundreds to thousands of devices work together to form a scalable network of high density air quality measurement points.
The Mi3 is a turnkey solution for automotive emission testing that features the world's fastest particle sensor. It provides accurate real-time data, reliable measurements in all environments, and ensures measurements meet emission regulations standards. The Mi3 requires little maintenance due to its low-maintenance particle sensor and self-diagnostics. It can integrate seamlessly with existing emission test infrastructure through various connection options.
THE GAS CHROMATOGRAPHIC REVOLUTION
FOR ENVIRONMENTAL MONITORING
PyxisGC BTEX is the first and unique gaschromatograph "carrier gas free" for remote BTEX monitoring
in ambient air. PyxisGC BTEX is manufactured by Pollution Analytical Equipment in compliance with
EN14662-3:2015.
"BTEX ambient air analysis: sources, regulations, technologies for controls"European Tech Serv
"BTEX ambient air analysis: sources, regulations, technologies for
controls"
In collaboration with The Council for Research and Experimentation in Agriculture at the Puglia
Regional Environmental Protection Agency (ARPA)
The M1000 operates according to the diffusion principle. The monitor is mounted on a flange which is located at the top of the silo or bin. The gas in the atmosphere of the silo diffuses into the oxygen sensor. Since there is no positive movement of chemical powder to the sensor the sampling gas will not block filters and tubing. The right design and choice of components ensures a long term maintenance free operation.
H2scan’s HY-ALERTA™ 600 Fixed Area Hydrogen Monitor will provide hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit
H2scan’s HY-ALERTA™ 600 Fixed Area Hydrogen Monitor will provide hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit
H2scan’s HY-ALERTA™ 1600 Intrinsically Safe Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit.
H2scan’s HY-ALERTA™ 1600 Intrinsically Safe Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit.
H2scan’s HY-ALERTA™ 2600 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s lower flammability limit.
Technology background HY-ALERTA SAFETY SYSTEMS – HY-ALERTA 2600European Tech Serv
H2scan’s HY-ALERTA™ 2600 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s lower flammability limit.
H2scan’s 2620 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit. The monitor is designed for either ceiling or wall mount. H2scan’s hydrogen-specific sensor technology has no cross sensitivity to other combustible gases, thus eliminating false positive alarms and ensuring safety system reliability.
H2scan’s 2620 Explosion Proof Area Hydrogen Monitor provides hydrogen-specific leak detection and measurement for hydrogen concentrations as low as 4000 ppm and can be scaled to any concentration up to 5% hydrogen by volume, a range representing 10% to 125% of hydrogen’s low flammability limit. The monitor is designed for either ceiling or wall mount. H2scan’s hydrogen-specific sensor technology has no cross sensitivity to other combustible gases, thus eliminating false positive alarms and ensuring safety system reliability.
H2scan’s HY-OPTIMA™ Model 2700AS Process Hydrogen Analyzing System provides a complete solution for process hydrogen measurement in refineries, chemical plants, air separation units and industrial gas manufacturing plants.
The document describes a solid-state hydrogen sensor that uses both resistor and capacitor circuits to detect hydrogen from 15 ppm to 100% by volume. It has a palladium-nickel alloy film that provides stability and a proprietary coating that allows operation in harsh environments. An on-chip temperature control loop compensates for external fluctuations, and the sensor can operate in nitrogen, oxygen, and other inert gas backgrounds as well as multi-component and varying gas and liquid streams.
The HY-OPTIMA™ 2700 explosion proof in-line hydrogen process sensors use a solid-state, non-consumable sensor that is configured to operate in process gas streams. The H2scan thin film technology provides a direct hydrogen measurement that is not cross sensitive to other gases.
H2scan’s HY-OPTIMA product line includes a range of real-time, in-line portable hydrogen monitors for process optimization in industrial applications. The end result is increased product yield, improved hydrogen utilization, and extended catalyst life.
The document describes a solid-state hydrogen sensor that uses both resistor and capacitor circuits to detect hydrogen from 15 ppm to 100% by volume. It has a palladium-nickel alloy film that provides stability and a proprietary coating that allows operation in harsh environments. An on-chip temperature control loop compensates for external fluctuations, and the sensor can operate in nitrogen, oxygen, and other inert gas backgrounds as well as multi-component and varying gas and liquid streams.
The HY-OPTIMA™ 1700 is an intrinsically safe device that incorporates our patented solid-state sensor and is configured to operate in background gas streams with up to 95% relative humidity and temperatures up to 100ºC.
The HY-OPTIMA™ 720 is a solid state sensor configured to operate in air background gas streams having up to 95% relative humidity and temperatures up to 65ºC
Emerging Earth Observation methods for monitoring sustainable food productionCIFOR-ICRAF
Presented by Daniela Requena Suarez, Helmholtz GeoResearch Center Potsdam (GFZ) at "Side event 60th sessions of the UNFCCC Subsidiary Bodies - Sustainable Bites: Innovating Low Emission Food Systems One Country at a Time" on 13 June 2024
GFW Office Hours: How to Use Planet Imagery on Global Forest Watch_June 11, 2024Global Forest Watch
Earlier this year, we hosted a webinar on Deforestation Exposed: Using High Resolution Satellite Imagery to Investigate Forest Clearing.
If you missed this webinar or have any questions about Norway’s International Climate & Forests Initiative (NICFI) Satellite Data Program and Planet’s high-resolution mosaics, please join our expert-led office hours for an overview of how to use Planet’s satellite imagery on GFW, including how to access and analyze the data.
Exploring low emissions development opportunities in food systemsCIFOR-ICRAF
Presented by Christopher Martius (CIFOR-ICRAF) at "Side event 60th sessions of the UNFCCC Subsidiary Bodies - Sustainable Bites: Innovating Low Emission Food Systems One Country at a Time" on 13 June 2024
Trichogramma spp. is an efficient egg parasitoids that potentially assist to manage the insect-pests from the field condition by parasiting the host eggs. To mass culture this egg parasitoids effectively, we need to culture another stored grain pest- Rice Meal Moth (Corcyra Cephalonica). After rearing this pest, the eggs of Corcyra will carry the potential Trichogramma spp., which is an Hymenopteran Wasp. The detailed Methodologies of rearing both Corcyra Cephalonica and Trichogramma spp. have described on this ppt.
Monitor indicators of genetic diversity from space using Earth Observation dataSpatial Genetics
Genetic diversity within and among populations is essential for species persistence. While targets and indicators for genetic diversity are captured in the Kunming-Montreal Global Biodiversity Framework, assessing genetic diversity across many species at national and regional scales remains challenging. Parties to the Convention on Biological Diversity (CBD) need accessible tools for reliable and efficient monitoring at relevant scales. Here, we describe how Earth Observation satellites (EO) make essential contributions to enable, accelerate, and improve genetic diversity monitoring and preservation. Specifically, we introduce a workflow integrating EO into existing genetic diversity monitoring strategies and present a set of examples where EO data is or can be integrated to improve assessment, monitoring, and conservation. We describe how available EO data can be integrated in innovative ways to support calculation of the genetic diversity indicators of the GBF monitoring framework and to inform management and monitoring decisions, especially in areas with limited research infrastructure or access. We also describe novel, integrative approaches to improve the indicators that can be implemented with the coming generation of EO data, and new capabilities that will provide unprecedented detail to characterize the changes to Earth’s surface and their implications for biodiversity, on a global scale.
A Comprehensive Guide on Cable Location Services Detections Method, Tools, an...Aussie Hydro-Vac Services
Explore Aussie Hydrovac's comprehensive cable location services, employing advanced tools like ground-penetrating radar and robotic CCTV crawlers for precise detection. Also offering aerial surveying solutions. Contact for reliable service in Australia.