The GESTRA ORT 6 Flowserve Oil/Turbidity Detector (also known as 52-5 or 52-6) is a high-performance sensor used to detect oil and turbidity in condensate and other fluids. Designed for industrial applications, it ensures safe and efficient boiler and steam system operation. With reliable, real-time monitoring, the ORT 6 helps prevent contamination and equipment damage. Its compact design and easy integration make it ideal for automation systems. Trusted for accuracy and durability, it supports optimized plant performance. Buy the GESTRA ORT 6 from Auto2mation, your trusted source for industrial automation solutions.

Top Environmental Monitoring Instruments: From Air Quality to Weather Tracking

Environmental monitoring is essential for assessing pollution levels, predicting weather patterns, and ensuring compliance with regulatory standards. Industries, research institutions, and government agencies rely on advanced instruments to measure air, water, and soil quality. From air quality monitors to weather stations, these devices provide critical data to protect public health and the environment.

1. Air Quality Monitors

Air quality monitors detect pollutants such as particulate matter (PM2.5 and PM10), volatile organic compounds (VOCs), carbon monoxide (CO), nitrogen oxides (NOx), and sulfur dioxide (SO2). These devices are used in industrial zones, urban areas, and indoor spaces to ensure compliance with environmental regulations and protect human health.

2. Gas Analyzers

Gas analyzers measure the concentration of gases in the atmosphere, making them crucial for industrial safety and emissions monitoring. They detect gases such as oxygen (O2), carbon dioxide (CO2), methane (CH4), and hydrogen sulfide (H2S). Industries use these devices to prevent hazardous leaks and maintain safe working conditions.

3. Automatic Weather Stations

Automatic Weather Stations (AWS) collect real-time meteorological data, including temperature, humidity, wind speed, wind direction, atmospheric pressure, and precipitation levels. These stations are essential for weather forecasting, climate research, and disaster management.

4. Water Quality Monitoring Systems

Water quality monitors analyze parameters like pH, dissolved oxygen (DO), turbidity, conductivity, and pollutant levels in water sources. These instruments are used in industries, municipalities, and environmental research to ensure safe drinking water and prevent water contamination.

5. Noise Level Meters

Noise pollution is a growing concern in urban and industrial areas. Noise level meters measure sound intensity in decibels (dB) to assess noise pollution levels and ensure compliance with regulations in construction sites, factories, and residential areas.

6. Dust Samplers

High-precision dust samplers measure airborne particulate matter, helping industries monitor emissions and improve workplace air quality. These devices are critical for compliance with environmental standards and occupational health regulations.

7. Radiation Detectors

Radiation monitoring instruments measure ionizing radiation levels to ensure safety in nuclear power plants, medical facilities, and research laboratories. They help detect harmful radiation exposure and prevent health hazards.

Conclusion

Environmental monitoring instruments play a vital role in safeguarding public health, industrial safety, and ecological balance. With advanced technology, these devices provide real-time data, enabling industries and governments to take proactive measures against pollution and climate change.

Serrax Technology offers cutting-edge environmental monitoring solutions, including air quality monitors, gas analyzers, weather stations, and more. Contact us today to learn how our instruments can help you maintain regulatory compliance and environmental sustainability.

Turbidity Meters in Dubai

Experience precision with the 2020T Portable Turbidity Meter by LaMotte, available at CareSource Global. Featuring a waterproof IP67 design and advanced ratiometric technology, it ensures accurate turbidity measurements across various applications—from drinking water to industrial processes. With multi-detector optics, it minimizes interference, offering reliable results. The device supports seven languages, boasts a 500-point data log, and includes a backlit LCD for ease of use. Compliant with EPA 180.1 and Standard Methods 2130 B-2001, it stands as a trusted choice for professionals. Enhance your water quality assessments with this state-of-the-art, handheld turbidity meter.

Introduction Haze and turbidity are critical parameters in evaluating the optical clarity and quality of various materials, including glass, plastic, and liquids. These parameters are particularly significant in industries like automotive, construction, packaging, and pharmaceuticals, where transparency and consistency are vital for functionality and aesthetics. This article explores the concepts of haze and turbidity, their measurement techniques, and the advantages of using the LISUN HM-120 Haze Meter/Turbidity Meter for accurate evaluations. What Are Haze and Turbidity? Haze refers to the scattering of light caused by imperfections or particles within a transparent or translucent material. It reduces the sharpness of images viewed through the material, affecting its clarity. Haze measurement is essential for products like automotive windshields, LCD screens, and optical films. Turbidity, on the other hand, measures the cloudiness or haziness of a liquid caused by suspended particles that scatter light. It is a key parameter in water quality testing, beverages, and chemical solutions. Turbidity levels are often expressed in nephelometric turbidity units (NTU). HM-120_Haze Meter/Turbidity Meter Principles of Haze and Turbidity Measurement The LISUN HM-120 Haze Meter/Turbidity Meter operates on the principles of light transmission and scattering. Below are the primary principles utilized: • Light Scattering: A light beam passes through the sample, and the scattered light at various angles is measured. Higher scattering indicates higher haze or turbidity levels. • Total Transmittance: This measures the total amount of light that passes through the sample, combining both scattered and direct light. • Diffuse Transmittance: By excluding direct light, this measures only the scattered component, which is directly correlated with haze. Key Features of the LISUN HM-120 Haze Meter/Turbidity Meter • High Accuracy: The HM-120 offers superior precision with repeatability within ±0.1% for haze and ±0.02% for transmittance. • Wide Measurement Range: Haze can be measured from 0% to 100%, making it versatile for various industries. • Compliance with Standards: The device adheres to international standards such as ASTM D1003 and ISO 13468. • User-Friendly Interface: With a touchscreen and intuitive software, the HM-120 ensures ease of use. • Compact Design: The device is portable and suitable for both laboratory and on-site testing. Applications of Haze and Turbidity Measurement Industry Application Parameter Measured Automotive Windshield and headlamp clarity Haze Packaging Film transparency for food and beverages Haze Water Treatment Monitoring water quality in treatment plants Turbidity Pharmaceuticals Ensuring clarity of liquid medicines Turbidity Electronics Optical clarity of display screens Haze Advantages of Using LISUN HM-120 • Dual Measurement Capability: The HM-120 seamlessly switches between haze and turbidity measurements, eliminating the need for separate devices. • Fast and Reliable Testing: With high-speed data acquisition, the HM-120 provides quick and repeatable results. • Versatility: The device can measure various sample types, including liquids, plastics, and glass, making it suitable for multiple industries. • Data Analysis: Haze and Turbidity Measurement with LISUN HM-120 Below is a hypothetical data comparison to demonstrate the efficiency of the LISUN HM-120. Sample Haze (%) Turbidity (NTU) Total Transmittance (%) Glass Sheet A 0.5 – 99.5 Plastic Film B 12 – 88 Water Sample C – 1.2 – Beverage Sample D – 5.6 – Working Mechanism The LISUN HM-120 employs an integrated sphere system to capture scattered and transmitted light. A schematic representation of the system is provided below: • Light Source: Emits a consistent beam. • Sample Holder: Holds the material or liquid. • Detector: Measures the light intensity at various angles. • Output Display: Provides haze and turbidity readings. Conclusion Haze and turbidity measurements are indispensable for quality control across industries. The LISUN HM-120 Haze Meter/Turbidity Meter stands out as a reliable, efficient, and user-friendly device for these critical assessments. By adopting the HM-120, manufacturers and quality control teams can ensure compliance with industry standards, improve product quality, and enhance customer satisfaction. For more information about the LISUN HM-120, visit the official product page. Read the full article

How Advanced Technologies are Revolutionizing Drinking Water Testing in Dubai | +971 554747210

As Dubai continues to grow into a global hub of innovation and development, the need for ensuring safe and clean drinking water has never been more crucial. Drinking Water Testing plays a pivotal role in safeguarding public health by identifying and addressing potential contaminants. With the rapid advancement of technology, the methods used in drinking water testing are evolving, bringing more precision, efficiency, and reliability. In this blog, we explore how advanced technologies are revolutionizing drinking water testing in Dubai and enhancing the quality and safety of water for its residents.

The Evolution of Drinking Water Testing

Traditionally, drinking water testing involved basic chemical and microbiological analysis methods. While these methods were effective, they often lacked the speed and sensitivity required to address emerging contaminants and complex water quality issues. Today, advanced technologies have transformed the landscape of water testing, offering more comprehensive, accurate, and real-time solutions.

Key Technologies Revolutionizing Drinking Water Testing in Dubai

1. Polymerase Chain Reaction (PCR)

Polymerase Chain Reaction (PCR) is a groundbreaking technology that has significantly advanced microbial detection in drinking water.

How It Works: PCR amplifies specific DNA sequences from microorganisms present in water samples, allowing for the detection of pathogens even at very low concentrations.

Benefits: PCR provides high sensitivity and rapid results, which is crucial for identifying harmful bacteria, viruses, and other microorganisms that can pose health risks. This technology is essential for ensuring that water remains free from disease-causing pathogens.

2. Gas Chromatography-Mass Spectrometry (GC-MS)

Gas Chromatography-Mass Spectrometry (GC-MS) is a sophisticated analytical technique used to detect and quantify chemical contaminants in drinking water.

How It Works: GC-MS separates components of a water sample using gas chromatography, then identifies and quantifies each component based on its molecular mass through mass spectrometry.

Benefits: GC-MS offers precise and accurate measurements of chemical residues, including pesticides, industrial pollutants, and disinfection by-products. This technology ensures that water is free from harmful chemicals and meets safety standards.

3. High-Performance Liquid Chromatography (HPLC)

High-Performance Liquid Chromatography (HPLC) is employed to analyze organic compounds and contaminants in drinking water.

How It Works: HPLC passes water samples through a high-pressure liquid column, where components are separated and detected using various detectors.

Benefits: HPLC provides high resolution and precision, making it ideal for detecting trace levels of organic contaminants such as pharmaceuticals and personal care products. This technology is crucial for ensuring that water is not tainted by potentially harmful substances.

4. Real-Time Monitoring Systems

Real-Time Monitoring Systems use advanced sensors to continuously track various water quality parameters.

How It Works: Sensors measure parameters such as pH, turbidity, chlorine levels, and temperature in real time, providing ongoing feedback on water quality.

Benefits: Real-time monitoring allows for immediate detection of deviations from acceptable levels, enabling rapid response and corrective actions. This technology enhances the ability to maintain consistent water quality and address issues as they arise.

5. Nanotechnology

Nanotechnology involves the manipulation of materials at the nanoscale to enhance water purification and testing processes.

How It Works: Nanotechnology can be used to develop advanced filtration materials and sensors with enhanced capabilities for detecting and removing contaminants at very low concentrations.

Benefits: Nanotechnology improves the efficiency of water purification and testing processes, offering more effective removal of contaminants and providing more accurate testing results.

Benefits of Advanced Technologies in Drinking Water Testing

The integration of advanced technologies into drinking water testing in Dubai offers several significant benefits:

1. Enhanced Accuracy and Sensitivity

Advanced technologies like PCR and GC-MS provide highly accurate and sensitive detection of contaminants, even at trace levels. This ensures that potential risks are identified and addressed before they affect public health.

2. Faster Results

Technologies such as real-time monitoring systems and PCR offer rapid results, reducing the time needed to identify and respond to water quality issues. Faster testing enables quicker decision-making and ensures that water safety measures are implemented promptly.

3. Comprehensive Analysis

Modern technologies allow for more comprehensive analysis of drinking water, covering a wide range of contaminants, including microbial, chemical, and physical parameters. This holistic approach ensures that all potential risks are assessed and managed.

4. Improved Efficiency

Advanced methods streamline the testing process, reducing the need for manual interventions and increasing overall efficiency. Automation and high-throughput technologies enhance the lab's ability to handle large volumes of samples and deliver accurate results.

5. Real-Time Data Access

Real-time monitoring systems provide continuous data on water quality, allowing for immediate detection of issues and timely interventions. This proactive approach helps maintain consistent water quality and prevents potential problems from escalating.

The Impact on Dubai’s Water Quality Management

The adoption of advanced technologies in drinking water testing has had a profound impact on Dubai’s water quality management:

1. Enhanced Public Health Protection

By providing accurate, timely, and comprehensive testing results, advanced technologies help ensure that Dubai’s drinking water remains safe and free from contaminants. This protection is crucial for safeguarding public health and preventing waterborne diseases.

2. Compliance with Standards

Advanced testing methods help Dubai meet local and international water quality standards, including those set by the Dubai Municipality, the Abu Dhabi Quality and Conformity Council (ADQCC), and the World Health Organization (WHO). Compliance with these standards is essential for maintaining regulatory approvals and ensuring consumer safety.

3. Support for Innovation

The integration of cutting-edge technologies in drinking water testing supports Dubai’s broader goals of innovation and sustainability. It demonstrates the city’s commitment to adopting advanced solutions to address challenges and improve quality of life.

4. Efficient Resource Management

Advanced testing technologies contribute to more efficient resource management by providing accurate data on water quality and contamination levels. This information aids in optimizing water treatment processes and reducing waste.

Conclusion

In Dubai, where the demand for safe and clean drinking water is high, the revolution brought about by advanced technologies in drinking water testing is crucial. Technologies like PCR, GC-MS, HPLC, real-time monitoring systems, and nanotechnology are transforming the way water quality is monitored and managed.

These advancements offer enhanced accuracy, faster results, comprehensive analysis, improved efficiency, and real-time data access. As Dubai continues to grow and develop, these technologies play a vital role in ensuring that the city’s drinking water remains safe and of the highest quality for its residents. By embracing and leveraging these innovations, Dubai is not only safeguarding public health but also setting a global standard for excellence in water quality management.

The handheld turbidity meter measures the quantity of suspended particles in a fluid through a light beam and light detector, which is set at a right angle from the former. The beam of light scatters through the water or fluid based on the density of suspended particles. The light detector determines the amount of light reflected.

Benchtop Turbidity Meter

A benchtop turbidity meter is a precision instrument used to measure the clarity or haziness of a liquid sample by quantifying the amount of suspended particles present in the sample. It typically consists of a light source, a detector, and a measurement chamber. The meter emits light into the sample and measures the amount of light scattered or absorbed by suspended particles. This data is then used to calculate the turbidity of the sample, which is often expressed in nephelometric turbidity units (NTU) or formazin nephelometric units (FNU).

PORTABLE TURBIDITY METER

A portable turbidity meter is a handheld instrument used to measure the turbidity of a liquid, typically water. Turbidity is a measure of the cloudiness or haziness of a fluid caused by the presence of suspended particles, such as sediment, silt, and organic matter. It is an important parameter in environmental monitoring, water quality assessment, and various industrial applications. Portable turbidity meters operate based on the principle of light scattering. They shine a light source (usually a LED) through a water sample, and a detector measures the amount of light scattered by the suspended particles in the water. The level of turbidity is then calculated based on the intensity of scattered light.

Application of Forlinx i.MX6ULL Arm Core Board in High-Performance Water Quality Detector

The pollutants produced by human activities are the main factors causing water pollution. To protect the water environment, we must strengthen the monitoring of sewage discharge, the analysis of surface water, groundwater, industrial wastewater, and other water quality, and ensure the safety of people's water use. Drinking water safety concerns everybody, but many people still do not know its quality.

Does the residual chlorine exceed the standard? What is the pH? These important indicators related to drinking water health need to be accurately detected. A water quality detector is a professional instrument used to analyze the content of water quality components, which can measure BOD, COD, ammonia nitrogen, total phosphorus, total nitrogen, turbidity, pH, and dissolved oxygen in water. It plays an important role and has been widely used in the water quality detection and water resources protection.

FETMX6ULL-C arm core board launched by Forlinx Embedded can be effectively used in water quality detectors to help us better protect drinking water. FETMX6ULL-C core board is a processor-based NXP i.MX6ULL is designed with a low-power ARM Cortex-A7 architecture that runs at speeds up to 800MHz.

A low main frequency can reduce the heat generated by the CPU and extend the service life of the CPU. Its stable performance has been verified in long-term use in many fields.

FETMX6ULL-C SoM is highly integrated and supports 8x serial ports, 2x network ports, and 2x CAN. The rich interfaces can connect dissolved oxygen sensors (with temperature), pH sensors, conductivity sensors, turbidity sensors, ammonia nitrogen analyzers, total organic carbon analyzers TOC, etc., to facilitate on-site construction and assembly.

Dual-lane Ethernet can achieve dual-network redundancy. The 10M/100M adaptive Ethernet interface provides double insurance for the network. The support of WiFi and 4G also makes operation and maintenance more convenient.

The software system uses Linux 4.1.15 and has an experienced technical support team to solve problems in the user design, allowing customers to quickly enter the product testing phase.

Water Level Sensor Buy Online - Ktronics

A water position detector is a device used to measure the depth or position of water in a tank, vessel, or any other water storehouse system.

The uses of water position detectors

1. Water position dimension of pools and water tanks

2. Water position dimension of gutters and lakes

3. Marine position dimension

4. Level dimension of acid- base liquids

5. Swimming pool water position control

6. Riffle warning and ocean- position monitoring

7. Cooling place water position control

8. Sewage pump position control

9. Remote monitoring of the water level  position

Benefits of water position detectors

1. Simple structure: There are no portable or elastic rudiments, so the trustability is extremely high, and there's no need for regular conservation during use. The operation is simple and accessible.

2. Accessible installation: When using, first connect one end of the line rightly, and also put the other end of the water position inquiry into the result to be measured. Water Level Sensor Buy Online

3. Ranges: voluntary you can measure the water position in the range of 1- 200 measures, and other dimension ranges can also be customized.

4. Wide range of operations: suitable for liquid position dimension of high temperature and high pressure, strong erosion, high pollution, and other media. erecting an electronic water position hand on the swash bank can be used for drift monitoring.

5.Long service life: Generally, the liquid position detector can be used for 4- 5 times in a normal terrain, and it can also be used for 2- 3 times in a harsh terrain. Water Level Sensor Buy Online

6. Strong function: It can be directly connected to the digital display cadence to display the value in real- time, or it can be connected to a variety of regulators and set the upper and lower limits to control the water volume in the vessel.

7. Accurate dimension: The erected- in high- quality detector has high perceptivity, fast response, and directly reflects the subtle changes of the flowing or stationary liquid position, and the dimension delicacy is high.

Variety of types:

1. Water Conductivity Sensor

2. Industrial Water PH Sensor

3. Turbidity Sensor

4. ORP Sensor

5. COD Detector

6. Ammonia Nitrogen ION Sensor

The importance of laboratory wastewater monitoring equipment

Background

With the development of industry, the problem of water pollution has become increasingly serious. In order to protect the water environment, monitoring of sewage discharge must be strengthened. It is necessary to strengthen the analysis of various water quality such as surface water, groundwater, and industrial wastewater. Can guarantee people's water safety. Water quality detectors play an important role in environmental protection, water quality testing and water resources protection. It is widely used in our lives. Laboratory wastewater also needs people's attention and can be monitored with laboratory wastewater monitoring equipment.

Laboratory wastewater monitoring equipment

Currently, in addition to being used in industry and experiments. The water tester is also developing towards the home. Portable and compact water quality detection and analysis instruments are more used in our daily lives. It can be used to detect domestic water in households and protect people's water safety and health.

Laboratory water quality analyzer (laboratory water quality testing equipment). Use sealed catalytic digestion, and then use colorimetric method to determine. The laboratory water quality analyzer can monitor water quality COD, BOD, ammonia nitrogen, turbidity, total phosphorus, total nitrogen, chroma, suspended solids and other more than 50 monitoring items. The laboratory water quality testing equipment uses a 4.3-inch full-color LCD screen. Equipped with a newly designed Jxos system. The plane-guided UI design is intuitive, stable and easy to use. The laboratory water quality detector is equipped with prefabricated reagents, and the user does not need to mix multiple detection reagents, just add the test water sample.

J&W Instruments Process Control Company New Website [Launch]

 J&W Instruments Process Control Company Launches New Website

Check out J&W Instruments Inc Process Control Company at their brand new website and stay tuned for new updates about their process control engineering, instrumentation sales, process measurement, metrology and calibration services pages coming soon.

https://www.jwinst.com

Saint Paul and Minneapolis Based Headquarters [Servicing Minnesota, Wisconsin, North Dakota, South Dakota, Iowa, Illinois and Michigan]

Discover why the Midwest's leading manufacturers, integrators, and municipalities choose J&W. With our corporate headquarters situated just North of Saint Paul and Minneapolis MN and satellite offices located in Duluth MN, New Berlin and Stevens Pointe WI, we are uniquely positioned to service the entire states of Minnesota and Wisconsin plus a great deal of North Dakota, South Dakota, Iowa, Illinois and the Upper Peninsula of Michigan.

“We value our relationships and quality is our number one priority.”

Whether it’s instrumentation sales, process control engineering, process measurement, metrology or accredited metrological calibration services, you can rely on our company’s versatility to do it all.

Measurement and Control Instrumentation Sales and Services

Through exclusive representation and distribution, J&W sells and services the following process measurement and control instrumentation equipment and software:

Process Control System (PCS) Equipment/Software

Process Instruments

Industrial Controls

Control Panels

Analytical Measurement Instrumentation

Controllers and Indicators

Recorders and Data Acquisition Products

Transmitters

Output Devices

Process Automation Equipment

Calibration Equipment

Pressure Instrumentation

Temperature

Infra-Red Temperature Transmitters

Conductivity

Amperage

Control Valves

Process Valves

Combustion Valves

Regulators

Thermocouples

Level Measurement Equipment

Flow Meters

Turbidity

Actuators

Temperature Sensors

Resistance Temperature Detectors (RTDs)

RTD sensors

Point Level

Low Voltage Sensors

Solenoid

Water Chemistry Equipment

Steam Components

Strainers

Distilling Components

Magnetic Separators

Combustion Controls

Remote Thermal Units (RTUs)

Flame Safeguard Systems

Air Pollutant Management Systems

Controlled Electronic Management (CEM) Systems

Instrument Air Controls

Programmable Logic Controller (PLC) hardware/software

Process Control System (PCS) equipment

Supervisory Control and Data Acquisition (SCADA) software/hardware

Distributed Control Systems (DCS) equipment

Human Machine Interface (HMI) software/hardware

Proportional Integral Derivative (PID) software/hardware

Open Platform Communication (OPC) software/hardware

and much more...

Process Control Equipment Manufacturers and Instrumentation Distributors

We are honored to be the chosen supplier for the following process control equipment manufacturers and instrumentation distributors:

Honeywell Process

Toshiba Process Control Systems

Scott Fire and Safety

Dwyer Instruments

Pyromation Inc.

Schubert & Salzer Control Systems

Anderson-Negele Instruments

Badger Meter

Ametek Drexelbrook

ABZ Valve

Precision Digital

Process Sensor Corporation

Bimba-Mead Pneumatic

Automation Products

Fluke

Fox Thermal Instruments Inc,

Cesco Sanitary

Safety Relief Valves

Chromalox Precision Heat and Control

Control Air Inc.

Danfoss

DFT Inc.

Teledyne Instruments

Thermo Fisher Scientific

Tru-Tech Valve

Triac Controls

Druck

Watlow

Thermal Products

North American Safety Valve

Essex Safety

Palmer Wahl Instrumentation Group

Turck Industrial Automation

and many others…

We understand how important it can be to get answers and solutions fast. You can depend on our technical support specialists to provide the troubleshooting expertise and the technical knowledge necessary to minimize downtime, increase performance and increase profitability. Don't hesitate, contact us NOW!

J&W Instruments Inc.

4800 Mustang Circle

New Brighton, MN 55112

763-784-5708

Call Us Now or Click the Following Link to Find Us on the Map or Get Directions!

https://www.google.com/maps?cid=9283300589158926454

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J&W Instruments – your partner in quality process control instruments, instrumentation experts, metrology specialists, A2LA accredited laboratory and calibration services.

Turbidímetro Digital Até 1000 Ntu Lh-Tb1000 Satra | GLASSLAB

Turbidez é a turvação ou opacidade de um fluido causada por um grande número de partículas suspensas que geralmente são invisíveis a olho nu, semelhantes à fumaça no ar. A medição da turbidez é um teste essencial para verificar a qualidade da água. Um turbidímetro é um equipamento para medir a concentração de partículas em suspensão em um líquido. Ele mede as partículas em suspensão empregando um feixe de luz (feixe de origem) e um detector de luz definido em um lado (geralmente a 90°) do feixe de origem.

Uma vez que as propriedades ópticas dependem do tamanho da partícula em suspensão, um material sintético estável chamado "Formazin" com tamanho uniforme é frequentemente usado como padrão para calibração e testes de reprodutibilidade. A unidade é chamada Formazin Turbidity Unit (FTU). A Unidade Nefelométrica de Turbidez (NTU) especificadas pela Agência de Proteção Ambiental dos Estados Unidos é um caso especial de FTU, onde são especificadas uma fonte  

Especificações Técnicas:

Resolução: 0,01 NTU( entre 0 ~ 100 NTU) / 0,1 NTU(entre 100 ~ 1000 NTU) Alcance: 0 ~ 100 NTU / 100 ~ 1000 NTU Precisão: ± 6% E.T. / ± 2% E.T. Repetibilidade: ≤ 0,5% E.T. Erro no zero: ± 0,5% E.T. Alimentação: AC 220V / 50 Hz ou 5 pilhas AA *Baterias não inclusas.

Acompanha o Equipamento:

1 Fonte de Alimentação; 3 Frascos de Amostra 1 Manual de Instruções em português 1 Maleta para transporte

Marca: SATRA

Modelo: LH-TB1000

Imagens meramente ilustrativas.

Smart Sensors Market Report 2022| Size, Growth, Share, Trends, Demand, Key Players, and Regional Data Statistics and Forecast to 2030| By R&I

The report is titled as ‘Smart Sensors Market: Opportunity Analysis and Future Assessment 2020-2028’. An overview of conceptual frameworks, analytical approaches of the smart sensors market is the main objective of the report, which further consists the market opportunity and insights of the data involved in the making of the respective market. Smart sensors market is expected to grow with significant rate in the near future.

The global smart sensors market in 2020 is estimated for more than US$ 35.0 Bn and expected to reach a value of US$ 145.9 Bn by 2028 with a significant CAGR of 19.5%.

Request a Sample Copy of this Report @: https://reportsandinsights.com/sample-request/1249

Smart Sensors Introduction

In the present world, the constant technological innovation and advancements that has resulted in one of the most important innovations of smart sensors that allows enhanced command and supervision over various operations, for example, to feel and notice physical input such as heat, light, moisture, motion, pressure, or any other object, and reciprocate by generating an outcome on a display or communicate the information electronically for more processing with the help of installed algorithms, signal conditioning, and digital interface. Owing to which, the global smart sensors market is projected to boost rapidly in the near future.

Along with that, the smart sensors have the potential to accumulate highly precise and authentic environmental data with least possible sound, which further adds to its rising demand in the global market.

More importantly, in present times when everything around us is turning advanced and smart, smart sensors gain more momentum owing to its technologically advanced features and advantages, which is expected to propel the growth of the smart sensors market in the upcoming years.

Smart Sensors Market Dynamics

The smart sensor is expected to gain huge traction in the global market owing to growing investments in R&D activities these days as well as key market players have aimed their attention towards innovation and new technology such as the internet of things. Therefore, the global smart sensors market is projected to thrive briskly during the forecast timeframe.

Along with that, the smart sensor carries the potential to be implemented in advanced IT solutions, such as machine-to-machine analytics and communication, and to assess changes with regard to pressure acceleration, temperature, or others, which are crucial for a process.

Attributing to which, the smart sensor is estimated to observe huge demand in the global market, thereby projected to give a positive push to the growth of the global smart sensors market during the forecast period.

Noticeably, the smart sensors are employed in smart cities, smart grids, smart environments (snow level monitoring, forest fire control, and early earthquake detection),  and defense, automobile, electronic, and sports sectors, which further adds to its wide range of applications across the world. Therefore, the global smart sensor market is expected to witness significant growth in the coming years.

Wish to Know More About the Study? Click here to get a Report Description: https://reportsandinsights.com/report/global-smart-sensors-market

Smart Sensors Market Segmentation

The Smart Sensors market is segmented on the basis of sensor types, technology, component, network connectivity, and end user.

By Sensors Types

Temperature & Humidity Sensors

Thermocouples

Thermistors

Resistance Temperature Detectors

IR Sensors

Other Types of Temperature Sensor

Pressure Sensors Piezo resistive

Capacitive

Electromagnetic

Resonant Solid State

Optical

Flow Sensors

Touch Sensors

Capacitive

Resistive

Infrared

Image Sensors

Motion & Occupancy Sensors

Smart Motion Sensors

Smart Occupancy Sensors

Water Sensors

Turbidity Sensors

PH Sensors

Soil Moisture Sensors

Level Sensors

Dissolved Oxygen (DO2)Sensors

Light Sensors

Analog

Digital

Position Sensors

Linear

Rotary

Proximity

Ultrasonic Sensors

By Technology

MEMS

CMOS

SiP

SoC

Other Technologies

Optical spectroscopy

Microsystem technology (MST)

Integrated smart sensors

IC-compatible 3D micro-structuring,

ASIC

By Component

 Analog To Digital Converters (ADCs)

 Digital To Analog Converters (DACs)

 Transceivers

 Amplifiers

 Microcontrollers

 Others

By Network Connectivity

Wired

Wireless

Bluetooth

Enocean

Wi-Fi

ZigBee

Z-Wave

Others

By Region

 North America

 Latin America

 Europe

 Asia Pacific

 Middle East

 Africa

Smart Sensors Market Key Players

Some of the key participating players in Smart Sensors market are:

 Siemens AG

 GENERAL ELECTRIC

 Sensirion AG

 Legrand

 Emerson Electric Co.

 Honeywell International Inc.

 Robert Bosch GmbH

 TDK Corporation

 ABB

 NXP Semiconductors

 STMicroelectronics

 Infineon Technologies AG

 TE Connectivity

 Analog Devices, Inc.

 Renesas Electronics Corporation

 Yokogawa Electric Corporation TOP

 Schneider Electric

 Delphi Technologies

 Maxim Integrated

 Vishay Electronic GmbH

 Gira Giersiepen GmbH & Co. KG

 Airmar Technology Corp.

 BeanAir

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In-line UV-Vis Spectroscopy Market Expected To Cross $420.55 Million By 2026

The global in-line uv-vis spectroscopy market size is expected to reach USD 420.55 million by 2026 and is projected to grow at a CAGR of 6.57%, according to a new report by Grand View Research, Inc. Notable technological advancements in the UV-Vis spectroscopic method have accelerated the in-line monitoring of compounds using UV-Vis-spectrometry across various fields, such as environmental monitoring, materials science, pharmaceutical research, and agriculture. The introduction of advanced solutions such as enhanced silicon and InGaAs detectors & Light-emitting Diode (LED) sources have supported the adoption of this UV-Vis Spectroscopy technique, thereby driving the market.

A considerable number of research activities are conducted to evaluate the performance of spectrometry using in-line measurements across various applications. For example, in January 2017, an article was published that demonstrated the implementation of in-line UV-Vis spectroscopy for monitoring & improving Cleaning-in-Place (CIP) of whey filtration plants.

Furthermore, well-established global companies in the cosmetics, beverages, and food industry demand higher standards and lower tolerance limits from the manufacturers. The expanding specifications in product quality measurements are anticipated to accelerated innovations in the market during the forecast period.

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In-line UV-vis Spectroscopy Market Report Highlights

In-line UV-Vis spectroscopy market for color measurement accounted for the largest revenue share in 2018

A large number of operating suppliers and high penetration of products in this segment have resulted in the dominance of this segment

Measurement of chemical concentration also accounted for a significant revenue share

The growing use of products in pharmaceutical development and API testing processes is driving the growth of this segment

In the current scenario, penetration of this technology is less; however, expanding applications in multiple end-use settings are anticipated to spur the revenue

This form of UV-Vis spectroscopy marked its major usage in chemical industry and painting & coating industry

High use of spectroscopy for monitoring of wet chemical processes has boosted the revenue growth in the chemical industry

North America dominated the 2018 revenue share owing to the presence of highly regulated industries in the U.S.

Growing demand for robust technologies in the highly regulated industries has contributed to the dominance of this region

Rising adoption of spectroscopy service in countries like India, Singapore, and South Korea is expected to drive the Asia Pacific market at a lucrative CAGR

Companies operating in the space include Endress+Hauser Management AG; ColVisTec AG Inc.; X-Rite, Advanced Vision Technology Ltd Applied Analytics, Inc.; Color Consult; AMETEK, Inc.; Hunter Associates Laboratory, Inc.; Uniqsis Ltd; Kemtrak AB; Guided Wave, Inc.; and Equitech Int’l Corporation

In-line UV-vis Spectroscopy Market Segmentation

Grand View Research has segmented the global in-line UV-Vis spectroscopy market on the basis of application, end-use, and regions:

Application Outlook (Revenue, USD Million, 2015 – 2026)

Color Measurement

Chemical Concentration

Turbidity & Haze Measurement

Thickness Measurement

End-use Outlook (Revenue, USD Million, 2015 – 2026)

Plastics Market

Chemical Industry

Food & Beverages

Pharmaceutical Industry

Painting & Coating Industry

Others

Regional Outlook (Revenue, USD Million, 2015 – 2026)

North America

Europe

Asia Pacific

Latin America

Middle East and Africa (MEA)

U.S.

Canada

Germany

UK

Japan

China

Brazil

South Africa

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.