Air quality in urban centers is alarmingly high. Majority of residents in these areas breath unhealthy or hazardous air daily. Air pollution concentrations in cities can have large variations over short distances.
Energy tech 301 codel datasheet-dust monitorENVIMART
The EnergyTech 301 is a low-cost dust monitor that uses tribo-electric sensor technology to directly measure particulate concentration. It can monitor ducts from 250mm to 5m in size, requires minimal maintenance, and provides accurate measurements from 0.07 to 6500 mg/m3. The monitor has integrated calibration functions, alarm outputs, RS485 and 4-20mA outputs, and is suitable for a wide range of applications.
GCEM 40 series gas analyser insitu-codel datasheetENVIMART
GCEM 40 series gas analyser insitu-codel datasheet - CODEL - Envimart JSC - www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường.
Measurement specific to H₂S
No interference from other components
Wide range capability
Measures between 0-50ppb to 0-600ppm
Low volume humidifier
Response times as low as 10 seconds
Electronics temperature compensated
Improves stability
HI-SCAN 7555aTiX is the first system to allow explosives detection at security checkpoints. HI-SCAN 7555aTiX uses several, independent multi-energy generators, each of which is connected to its own sophisticated and state-of-the-art X-ray sensor technology.
GCEM4100 extractive gas analyser codel datasheetENVIMART
The GCEM4100 is CODEL's hot extractive multi-channel gas analyzer for continuous emissions monitoring. It can measure CO, NO, NO2, SO2, HCl, CH4, CO2 and other gases simultaneously from high temperature flue gases. The system draws gas samples through a heated probe and transfers them to an analysis cabinet without extensive conditioning. It provides automatic calibration and verification of measurements using zero and span gases. The analyzer can integrate with CODEL's SmartCEM software for real-time data analysis and reporting.
Energy tech 301 codel datasheet-dust monitorENVIMART
The EnergyTech 301 is a low-cost dust monitor that uses tribo-electric sensor technology to directly measure particulate concentration. It can monitor ducts from 250mm to 5m in size, requires minimal maintenance, and provides accurate measurements from 0.07 to 6500 mg/m3. The monitor has integrated calibration functions, alarm outputs, RS485 and 4-20mA outputs, and is suitable for a wide range of applications.
GCEM 40 series gas analyser insitu-codel datasheetENVIMART
GCEM 40 series gas analyser insitu-codel datasheet - CODEL - Envimart JSC - www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường.
Measurement specific to H₂S
No interference from other components
Wide range capability
Measures between 0-50ppb to 0-600ppm
Low volume humidifier
Response times as low as 10 seconds
Electronics temperature compensated
Improves stability
HI-SCAN 7555aTiX is the first system to allow explosives detection at security checkpoints. HI-SCAN 7555aTiX uses several, independent multi-energy generators, each of which is connected to its own sophisticated and state-of-the-art X-ray sensor technology.
GCEM4100 extractive gas analyser codel datasheetENVIMART
The GCEM4100 is CODEL's hot extractive multi-channel gas analyzer for continuous emissions monitoring. It can measure CO, NO, NO2, SO2, HCl, CH4, CO2 and other gases simultaneously from high temperature flue gases. The system draws gas samples through a heated probe and transfers them to an analysis cabinet without extensive conditioning. It provides automatic calibration and verification of measurements using zero and span gases. The analyzer can integrate with CODEL's SmartCEM software for real-time data analysis and reporting.
MSK 200 Digital Transport Stream Analyzeremzach1831
The MSK 200 is a compact state-of-the-art signal meter which leaves nothing to be desired when you are checking television, CATV or satellite systems.
It can be used either in a lab or for the monitoring of remote-controlled head-end systems, or for final measurements on antenna and distribution systems
This document proposes using research infrastructures (RIs) like the Integrated Carbon Observation System (ICOS) as modular platforms to expand reactive nitrogen (Nr) deposition monitoring in Germany. It suggests both short-term and long-term extensions. In the short-term, installing passive samplers and a roving eddy covariance system at ICOS sites could provide data to parameterize models for estimating Nr deposition. Temporary high-frequency measurements could calibrate these models. Long-term, adding total reactive atmospheric nitrogen converter (TRANC) systems to ICOS sites could directly measure total Nr fluxes. This would support national monitoring networks with little additional effort by utilizing existing ICOS infrastructure.
The document discusses a digital multi-beam radar concept for mid-air collision avoidance. It uses a floodlight transmit beam with an FMCW waveform for continuous coverage, along with a planar receive antenna array and digital beamforming to create multiple simultaneous receive beams without scanning. This allows continuous surveillance of airspace. The concept was proven in a flight trial and could enable functions like collision avoidance, weather detection, and ground mapping.
Features:
• Cost effective and versatile
• High accuracy, better than 1.0% read
• Portable main unit, Compact enclosure, Portable case for all accessories.
• Wide flow measurement range, from 0.03 to 105 ft/s (0.01m/s-32m/s).
• Velocity, volumetric and totalized flow display
• Bi-directional, Totalized for net, positive and negative flow display.
• Wide pipe size range, from 3/4" to 240" (DN 20-6.00 mm).
• Suitable for all commonly used pipe materials.
• Rechargeable battery for 16 hours of operation.
• Self-explanatory user interface, easy to operate.
• Signal quality tracking and self-adjusting capabilities automatically match transducer to pipe material
• Ideal for both clean and opaque liquid flow, in fact, most any liquid containing less than 5% total suspended solids (TSS) or aeration.
• Clear, user-friendly menu selections make DMTFP simple and convenient to use.
The document describes the current state of the SentiloBCN platform, which monitors different typologies like energy, noise, garbage, weather data, parking, air quality, water meters, bicycle flow, people flow and vehicle flow using over 1,800 components and 14,000 sensors. It collects over 3 million records per day. Specific projects have installed sensors in municipal buildings, solar installations, and various city areas to monitor energy use, noise, water usage, garbage collection, and parking availability. The goal is to evaluate sensor reliability and identify how the data can help manage city services and provide value to citizens.
The QRAE 3 is a wireless 4-gas monitor that detects oxygen, combustibles, and toxic gases like hydrogen sulfide and carbon monoxide. It provides real-time remote readings and alarm notifications. Key features include automatic bump testing and calibration, replaceable sensors, and a rotating display. The monitor is available in diffusion or pumped models and is used to monitor worker safety in industries like oil and gas.
Cetc2011 pierre ghislain - v5 apresentacao mt04Nokia Networks
This document summarizes a student project to design a wireless magnetic sensor system for vehicle classification. The objectives were to create a low-power, low-maintenance sensor that could wirelessly transmit real-time traffic data. The solution uses an AMR magnetic sensor and ZigBee wireless communication powered by an energy-harvesting solar panel. Testing showed the sensor could accurately detect vehicles up to 25 meters away while consuming less than 1mA. The document concludes by proposing two sensor designs - a basic traffic counter or a more precise array-based vehicle scanner - for the sponsor.
The document describes an optical TSS sensor that has low maintenance needs due to its integrated ultrasonic cleaning system. The sensor requires no exchange of O-rings or movable parts and does not need a mandatory service contract. It uses scattered light measurement to measure SiO2 from 0.01-300 g/l and TSS from 0.003-1000 g/l. The integrated ultrasonic cleaning ensures reliable operation without wear parts.
Khione LN2 generators from Noblegen Products produce liquid nitrogen using a PSA technique which cools nitrogen gas to 77K (-196C) inside a cold head. The generators come in a range of flow rates from 10-120 liters per day, use an automatic control system to monitor the liquid nitrogen production process and levels in real-time, and are intended as reliable and efficient alternatives to liquid nitrogen deliveries for applications like sample storage and metal treatment.
The document describes a smart city solution called Smart Points of Interaction (Smart POIs) that use devices called Smart Spots to create interactive areas where citizens can access digital content via their smartphones. Smart Spots measure environmental data like temperature, humidity, air quality, noise levels and energy consumption. They allow bidirectional communication between citizens, visitors and city managers. The solution integrates with FIWARE and other platforms to remotely manage the devices and store collected data.
The document describes a smart city solution called Smart Points of Interaction (Smart POIs) that use devices called Smart Spots to create communication channels between citizens, visitors, and city managers. The Smart Spots measure environmental factors, monitor crowds, and send push notifications to nearby smartphones without needing apps. They can integrate with platforms like FIWARE and oneM2M and allow co-creation, sharing culture, and environmental monitoring in cities.
Sailbri Cooper’s SCI-608 is a low cost air quality monitoring solution designed for accurate highly time resolved measurement of criteria pollutant levels. The SCI -608 utilizes state of the art sensor technology enhanced with a machine learning calibration system and a convenient cloud-based data acquisition and visualization system. The monitor has been extensively field tested, is easy to install and can provide the user with real time data within minutes of setting up.
3D laser scanning technology allows for the rapid and accurate capture of spatial data in three dimensions. International Partner Buro S.R.L. uses this technology to provide 3D point clouds, models, panoramic views, and other products to clients in industries such as oil and gas. The laser scanning process generates detailed spatial data that can be used for applications like monitoring infrastructure, volume calculations, and facilitating project planning and maintenance.
IRJET - Gesture based Robot with Victim Detection using AudioIRJET Journal
This document describes a proposed robot system that can detect victims trapped in rubble after natural disasters. The robot would be controlled through gestures detected by an accelerometer on a glove. It would use audio processing techniques like band-pass filtering and keyword spotting with a deep neural network to detect human voices amid background noises. If it recognizes a keyword, it would use its onboard GNSS module to locate the victim and record or transmit their coordinates to aid rescue efforts.
Pollution Sensor Based Data Communication via Android DeviceIOSR Journals
This document describes a pollution sensor and data communication system using an Android device. The system collects air pollution data from sensor modules using Zigbee and transmits it to the Android device. The Android device then sends the data via GPRS to a backend server, where the pollution levels are mapped. The system aims to monitor pollution levels in cities and share real-time data and maps with users to increase environmental awareness. It collects data every 5 seconds if the user or sensors have moved more than 5 meters, and stores any unattributed data locally until connectivity is restored to send it to the server.
IRJET- IOT Based Air and Sound Pollution Monitoring SystemIRJET Journal
This document describes an IOT-based air and sound pollution monitoring system. The system uses sensors to detect levels of air pollutants like CO2, SO2, and CO as well as sound pollution. An Arduino board collects data from the sensors and sends it via WiFi to a mobile application. When pollution levels exceed thresholds, alerts like buzzers and LEDs are activated. The system is designed to allow authorities and local residents to monitor pollution levels remotely using a mobile app in order to take appropriate actions to control pollution.
MSK 200 Digital Transport Stream Analyzeremzach1831
The MSK 200 is a compact state-of-the-art signal meter which leaves nothing to be desired when you are checking television, CATV or satellite systems.
It can be used either in a lab or for the monitoring of remote-controlled head-end systems, or for final measurements on antenna and distribution systems
This document proposes using research infrastructures (RIs) like the Integrated Carbon Observation System (ICOS) as modular platforms to expand reactive nitrogen (Nr) deposition monitoring in Germany. It suggests both short-term and long-term extensions. In the short-term, installing passive samplers and a roving eddy covariance system at ICOS sites could provide data to parameterize models for estimating Nr deposition. Temporary high-frequency measurements could calibrate these models. Long-term, adding total reactive atmospheric nitrogen converter (TRANC) systems to ICOS sites could directly measure total Nr fluxes. This would support national monitoring networks with little additional effort by utilizing existing ICOS infrastructure.
The document discusses a digital multi-beam radar concept for mid-air collision avoidance. It uses a floodlight transmit beam with an FMCW waveform for continuous coverage, along with a planar receive antenna array and digital beamforming to create multiple simultaneous receive beams without scanning. This allows continuous surveillance of airspace. The concept was proven in a flight trial and could enable functions like collision avoidance, weather detection, and ground mapping.
Features:
• Cost effective and versatile
• High accuracy, better than 1.0% read
• Portable main unit, Compact enclosure, Portable case for all accessories.
• Wide flow measurement range, from 0.03 to 105 ft/s (0.01m/s-32m/s).
• Velocity, volumetric and totalized flow display
• Bi-directional, Totalized for net, positive and negative flow display.
• Wide pipe size range, from 3/4" to 240" (DN 20-6.00 mm).
• Suitable for all commonly used pipe materials.
• Rechargeable battery for 16 hours of operation.
• Self-explanatory user interface, easy to operate.
• Signal quality tracking and self-adjusting capabilities automatically match transducer to pipe material
• Ideal for both clean and opaque liquid flow, in fact, most any liquid containing less than 5% total suspended solids (TSS) or aeration.
• Clear, user-friendly menu selections make DMTFP simple and convenient to use.
The document describes the current state of the SentiloBCN platform, which monitors different typologies like energy, noise, garbage, weather data, parking, air quality, water meters, bicycle flow, people flow and vehicle flow using over 1,800 components and 14,000 sensors. It collects over 3 million records per day. Specific projects have installed sensors in municipal buildings, solar installations, and various city areas to monitor energy use, noise, water usage, garbage collection, and parking availability. The goal is to evaluate sensor reliability and identify how the data can help manage city services and provide value to citizens.
The QRAE 3 is a wireless 4-gas monitor that detects oxygen, combustibles, and toxic gases like hydrogen sulfide and carbon monoxide. It provides real-time remote readings and alarm notifications. Key features include automatic bump testing and calibration, replaceable sensors, and a rotating display. The monitor is available in diffusion or pumped models and is used to monitor worker safety in industries like oil and gas.
Cetc2011 pierre ghislain - v5 apresentacao mt04Nokia Networks
This document summarizes a student project to design a wireless magnetic sensor system for vehicle classification. The objectives were to create a low-power, low-maintenance sensor that could wirelessly transmit real-time traffic data. The solution uses an AMR magnetic sensor and ZigBee wireless communication powered by an energy-harvesting solar panel. Testing showed the sensor could accurately detect vehicles up to 25 meters away while consuming less than 1mA. The document concludes by proposing two sensor designs - a basic traffic counter or a more precise array-based vehicle scanner - for the sponsor.
The document describes an optical TSS sensor that has low maintenance needs due to its integrated ultrasonic cleaning system. The sensor requires no exchange of O-rings or movable parts and does not need a mandatory service contract. It uses scattered light measurement to measure SiO2 from 0.01-300 g/l and TSS from 0.003-1000 g/l. The integrated ultrasonic cleaning ensures reliable operation without wear parts.
Khione LN2 generators from Noblegen Products produce liquid nitrogen using a PSA technique which cools nitrogen gas to 77K (-196C) inside a cold head. The generators come in a range of flow rates from 10-120 liters per day, use an automatic control system to monitor the liquid nitrogen production process and levels in real-time, and are intended as reliable and efficient alternatives to liquid nitrogen deliveries for applications like sample storage and metal treatment.
The document describes a smart city solution called Smart Points of Interaction (Smart POIs) that use devices called Smart Spots to create interactive areas where citizens can access digital content via their smartphones. Smart Spots measure environmental data like temperature, humidity, air quality, noise levels and energy consumption. They allow bidirectional communication between citizens, visitors and city managers. The solution integrates with FIWARE and other platforms to remotely manage the devices and store collected data.
The document describes a smart city solution called Smart Points of Interaction (Smart POIs) that use devices called Smart Spots to create communication channels between citizens, visitors, and city managers. The Smart Spots measure environmental factors, monitor crowds, and send push notifications to nearby smartphones without needing apps. They can integrate with platforms like FIWARE and oneM2M and allow co-creation, sharing culture, and environmental monitoring in cities.
Sailbri Cooper’s SCI-608 is a low cost air quality monitoring solution designed for accurate highly time resolved measurement of criteria pollutant levels. The SCI -608 utilizes state of the art sensor technology enhanced with a machine learning calibration system and a convenient cloud-based data acquisition and visualization system. The monitor has been extensively field tested, is easy to install and can provide the user with real time data within minutes of setting up.
3D laser scanning technology allows for the rapid and accurate capture of spatial data in three dimensions. International Partner Buro S.R.L. uses this technology to provide 3D point clouds, models, panoramic views, and other products to clients in industries such as oil and gas. The laser scanning process generates detailed spatial data that can be used for applications like monitoring infrastructure, volume calculations, and facilitating project planning and maintenance.
IRJET - Gesture based Robot with Victim Detection using AudioIRJET Journal
This document describes a proposed robot system that can detect victims trapped in rubble after natural disasters. The robot would be controlled through gestures detected by an accelerometer on a glove. It would use audio processing techniques like band-pass filtering and keyword spotting with a deep neural network to detect human voices amid background noises. If it recognizes a keyword, it would use its onboard GNSS module to locate the victim and record or transmit their coordinates to aid rescue efforts.
Pollution Sensor Based Data Communication via Android DeviceIOSR Journals
This document describes a pollution sensor and data communication system using an Android device. The system collects air pollution data from sensor modules using Zigbee and transmits it to the Android device. The Android device then sends the data via GPRS to a backend server, where the pollution levels are mapped. The system aims to monitor pollution levels in cities and share real-time data and maps with users to increase environmental awareness. It collects data every 5 seconds if the user or sensors have moved more than 5 meters, and stores any unattributed data locally until connectivity is restored to send it to the server.
IRJET- IOT Based Air and Sound Pollution Monitoring SystemIRJET Journal
This document describes an IOT-based air and sound pollution monitoring system. The system uses sensors to detect levels of air pollutants like CO2, SO2, and CO as well as sound pollution. An Arduino board collects data from the sensors and sends it via WiFi to a mobile application. When pollution levels exceed thresholds, alerts like buzzers and LEDs are activated. The system is designed to allow authorities and local residents to monitor pollution levels remotely using a mobile app in order to take appropriate actions to control pollution.
Wireless sensor node to detect hazardous gas pipeline leakageEcwaytech
The document describes a wireless sensor node system to detect hazardous gas pipeline leaks. The sensor node monitors carbon dioxide concentration, temperature, and humidity near gas pipelines. It uses various sensors connected to a microcontroller, with the sensor outputs amplified and filtered. Wireless data transmission to remote locations is enabled by a Zigbee module. The individual sensors are calibrated and the sensor node is tested up to 100 feet without data loss. A block diagram shows the sensor node transmitter section sending monitored data via Zigbee to a receiving monitoring section connected to a PC.
An Efficient Tracking System for Air and Sound.pdfAakash Sheelvant
This document describes a proposed system for efficiently tracking air and sound pollution using IoT technology. The system uses sensors to monitor air quality and sound levels, sending the data to a microcontroller and then to the cloud over the internet. This allows authorities to remotely monitor pollution levels in various areas and take appropriate action if levels exceed thresholds. The system is intended to help control pollution and its health impacts on people.
IRJET- AI to Analyze and Extract Data to Gain Insights About the Spread o...IRJET Journal
This document describes a system that uses sensors and machine learning to analyze air quality and predict pollution levels. The system collects data from sensors that measure gases like carbon monoxide and nitrogen dioxide. This data is processed using machine learning algorithms to analyze current pollution levels and predict future levels over the next 24 hours. The system aims to provide reliable air quality information to help governments and organizations address pollution issues. It offers a low-cost and mobile alternative to existing stationary sensor systems.
The document proposes an air and water quality monitoring system using IoT. It aims to monitor key air quality parameters like CO2, CO, temperature, humidity and harmful gases, as well as water quality parameters like temperature, pH, turbidity and flow. Sensors would detect these parameters and transmit the data via a microcontroller and WiFi module to the cloud for real-time monitoring by authorities. This would help control air and water pollution by alerting authorities to issues. The system is expected to provide accurate and effective early warnings to tackle air and water quality problems.
Air pollution monitoring system using mobile gprs sensors arraySaurabh Giratkar
This paper contain brief introduction to vehicular pollution, effect of increase in vehicular pollution on environment as well on human health. To monitor this pollution wireless sensor network (WSN) system is proposed. The proposed system consists of a Mobile Data-Acquisition Unit (Mobile-DAQ) and a fixed Internet-Enabled Pollution Monitoring Server (Pollution-Server). The Mobile-DAQ unit integrates a single-chip microcontroller, air pollution sensors array, a General Packet Radio Service Modem (GPRS-Modem), and a Global Positioning System Module (GPS-Module). The Pollution-Server is a high-end personal computer application server with Internet connectivity. The Mobile-DAQ unit gathers air pollutants levels (CO, NO2, and SO2), and packs them in a frame with the GPS physical location, time, and date. The frame is subsequently uploaded to the GPRS-Modem and transmitted to the Pollution-Server via the public mobile network. A database server is attached to the Pollution- Server for storing the pollutants level for further usage by various clients such as environment protection agencies, vehicles registration authorities, and tourist and insurance companies.
The document discusses new sensor technologies like crowd-sourcing sensors from smartphones and unmanned aerial vehicles (UAVs) and how they can be integrated into the Sensor Web. It provides examples of different types of sensors including weather stations, air quality sensors, and sensors on smartphones and UAVs. The document also discusses applications of these new sensors for tasks like precision farming, landscape ecology studies, and noise mapping using a community project.
IRJET- Automated Targeting System for Open Space Military AreaIRJET Journal
This document describes an automated targeting system for open space military areas using an ultrasonic sensor mounted on a servo motor. The system uses an Arduino microcontroller connected to the ultrasonic sensor and servo motor. When the ultrasonic sensor detects an object within its range, it will trigger the buzzer and display the detection on an LCD screen. The system aims to allow military surveillance of open areas using low-cost components like ultrasonic sensors and servos controlled by an Arduino.
This document describes a proposed air pollution detection system using Internet of Things (IoT), Arduino Uno, and Raspberry Pi. The system would use sensors to detect hazardous gases and send the input data to be displayed on a screen. If the gas concentration exceeds normal levels, analog values would be generated and stored in a database so authorized users can access the data remotely. A graph would also be generated from the stored sensor values. The goal is to develop an enhanced system to continuously monitor air quality using new integrated IoT technology.
Vijay prakash assignment internet of things Vijay Prakash
This document describes a proposed air pollution detection system using Internet of Things (IoT), Arduino Uno, and Raspberry Pi. The system would use sensors to detect hazardous gases and send the input data to be displayed on a screen. If the gas concentration exceeds normal levels, analog values would be generated and stored in a database so authorized users can access the data remotely. A graph would also be generated from the stored sensor values. The goal is to develop an enhanced system to continuously monitor air quality using new integrated IoT technology.
This document describes an IoT-based approach to monitor air pollution using sensors and an ESP32 microcontroller. The system can operate as both a standalone device and as a device installed on a vehicle (bot) to monitor emissions. Gas sensors detect pollutants like carbon monoxide and transmit readings to a cloud server via WiFi. An Android app displays pollution levels in real-time. The system is tested indoors and outdoors over multiple days. When installed on a bot, it moves normally under a pollution threshold but stops above the threshold, with a buffer period to allow corrective action. The system aims to increase air quality monitoring and public awareness of pollution sources.
A survey paper on Pollution Free Smart Cities using Smart Monitoring System b...IJSRD
The world we live in had evolved into a world where almost every family has at least one vehicle in their possession to be safe we could assume that each family has on average two vehicles. Now due to the increase in the number of vehicles in the road there is that much of an increase in the pollutant levels being increased onto the environment. The major sources of air pollution are CO, NOx and HC and these are a major degradation factor to the environment. To tackle this problem this paper talks about a monitoring system which is placed on the automobile to measure the pollutant levels emerging from the vehicle. On top of that some safety features have been added as well for the driver and all of the people traveling in the vehicle in the form of an alcohol sensor and a seat belt sensor. How this works is that the sensors are placed on the vehicle and can be connected through the users android device. The android device through a WiFi connection is connected to the server, the server is connected to a database and that database has the administrator PC to view and monitor the data. The safety feature is the addition of the alcohol sensor which is connected to the ignition of the vehicle and how it works is that if the driver has any alcohol and it is detected by the sensor then automobile will not start, hence adding an additional safety measure to the vehicle on top of pollution monitoring. This project works on an IoT environment and there is a lot of scope with smart devices in the future.
Similar to Urban scanner: Street Level Air Quality Data (20)
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.
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.
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
2. URBAN SCANNER US20
PRODUCT SPECIFICATIONS
Model
Scentroid Urban Scanner US20
Detected gases (with the use of optional sensors)
H2S, NH2, SO2, CO2, CO, CL, C2HO4, H, HCl,
HCN, NH3, O3, NO2, PH3, H2S, O2, SO2, CH4,
NO, VOCs and more.
On-Board Data Storage
500 GB SSD hard drive
Ambient Temperature Range
-50 ° C to +50 ° C (Gas analyzer must be in A/C)
Communication protocol
3G/4G, LAN, Cloud Based Hosting
Decontamination
Automatic purging and decontamination
Dimensions/weight upon installation
110 × 62 × 110 cm, 36kg
Calibraiton
Auto-zero function + Manual span calibration,
using calibration gas and on-board screen
Sensor Technology
Gas analyzers
Laser scattered particulate monitor
Ultrasonic anemometer
LIDAR (optional)
360° camera
High resolution compass
GPS Receiver
8T/RH probe
Noise Sensor
EMF detector
Power Requirements
12V 30W - 90W Based off of sampling
The Urban Scanner™ is a complete platform
that predicts detailed air quality information
within urban landscapes. It achieves this by
collecting and combing a variety of informa-
tion such as air pollution concentrations, a 3D
map of the city being sampled, traffic condi-
tions, micro-weather patterns, and more.
Fast and Accurate Data Collection Made Easy!
Data is collected using a weather-proof, easily mountable device installed on
the roof of a vehicle. As the vehicle advances through city streets, air pollut-
ant concentrations are recorded along with secondary inputs such as GPS,
FHD video/camera imagery, LIDAR 3D scanner imagery, noise data, as well
as wind direction and speed. The data is then processed using sophisticated
AI-based algorithms in order to extract key information and correlate them to
an air quality value at any location within the sampling environment.
Multi-dimensional Sensing
The Urban Scanner uses multiple sensing technologies to provide a true
measurement of urban pollution. Advance gas sensing technologies are
used to measure NO2, O3, and CO2 in a ppb (parts per billion) resolution.
Additional pollutants such a H2S, SO2, and other VOCs can also measured
using the same platform. Other pollutants such as electromagnetic field
(EMF) radiation, noise, and even odour can also be monitored using the
Urban Scanner.
Cloud-Based Software
The Urban Scanner comes with intelligent cloud software which collects,
analyzes, and visualizes the collected data. An advanced deep learning
algorithm is used to generate geo-spatial predictions of urban pollution.
This means that the system can provide pollution concentration values for
locations that the Urban Scanner has not even sampled. The model can also
be used to identify polluted zones and pinpoint the source of local pollution.
Data-Collection and Transmission
Urban Scanner collects data using a dedicated in-vehicle computer. The data
is relayed in real-time to the operator. This includes live sensor readings,
vehicle location, air quality map, as well as all alarms and notifications. The
operator is able to instantly make decisions regarding the sampling route.
The data is also transmitted via a 4G cellular network to Scentroid’s cloud
software for further processing. Since the data is transmitted to multiple re-
liable sources, its storage is ensured with nearly 100% reliability, even when
connection to the server is unstable or lost.
Perfect for High Density Urban Centers!
The intelligent model created by the Urban Scanner is a
valuable tool that can be used to map urban air quality,
predict pollutant concentrations, identify hot spots and
emission sources, as well as determine the contribution
of various air pollution sources.