follow us on social media
Process Control is the active changing of the process based on the results of process monitoring. Once the process monitoring tools have detected an out-of-control situation, the person responsible for the process makes a change to bring the process back into control.
The working principle behind a PID controller is that the proportional, integral and derivative terms must be individually adjusted or "tuned." Based on the difference between these values a correction factor is calculated and applied to the input.
There are three broad categories for any given system: inputs, outputs, and constants or parameters. Inputs are any factors that change with time that affect the system's output. The output refers to the desired controlled variable. Consider this as the objective of the model.
To install a controller, you will need to look at the model chosen. The connections are linked to the number of inputs and outputs desired for the application. In addition, you need a power supply to turn the equipment on, and a software to configure its functions.
In industrial automation, process controllers are the equipment responsible for controlling the industrial process or part of it through specific control algorithms, such as PID, fuzzy logic, or neural networks.
A controller serves to adjust or test the control of something. It is an instrument or device that serves to adjust or control something.
The digital temperature controller is a device designed to measure values and enable a given environment to meet the expected heat or cold requirements.
Smart controllers are important for improving processes and quality in many industry segments, resulting in more profit and less waste.
NOVUS controllers have certificates that guarantee their quality and efficiency, and a 3-year warranty.
Today we use programmable logic controllers to define system actions for several purposes. They are responsible for improving the quality of products and services through their functions and programming, automating processes, and reducing the percentage of human error. In addition, they enable remote control.
You must choose a controller based on the requirements of your process. NOVUS has a complete line of controllers with features such as ON/OFF and PID that allow you to program ramps and soaks.
Electronic controllers are an evolution of industrial automation, responsible for controlling industrial processes or part of them through programmable algorithms of specific controls.
Process controllers are responsible for controlling the industrial process or part of it. These remote controllers analyze, control, operate valves, chronologically store data and events, and are connected remotely by different means.
This answer is linked to the controller application. For a good cost-benefit, you must choose a controller based on the requirements of your process. NOVUS has a complete line of controllers with several features that make it possible to program ramps and soaks.
N321R is a temperature controller for refrigeration that starts the defrost process when the compressor stops. It accepts 3 types of sensors. It is possible to program the minimum on and off times. The defrost process is automatic and the duration can be programmed. The equipment has a key to enable manual defrost. It keeps the indication during the defrost cycle. The equipment also allows a scheduled delay to start the defrost cycle after power-up.
Proportional-Integral-Derivative (PID) is the most widely used process control algorithm in industry. As the name suggests, the PID algorithm is composed of three coefficients: Proportional, integral, and derivative, used to obtain the optimal response. The ON-OFF control action is used when the process allows a continuous oscillation of the controlled variable. As the error signal passes through the Setpoint, the controller output changes from on to off (or vice versa).
ON-OFF controllers are used when the process allows a continuous oscillation of the controlled variable. As the error signal passes through the Setpoint, the controller output changes from on to off (or vice versa).
An actuator converts the energy connected to it into useful automation for the system. The actuators most used in an automation application are pneumatic cylinders and DC (or AC) motors. They are most often controlled by PLCs or controllers. Process controllers are the equipment responsible for controlling an industrial process or part of it through specific control algorithms, such as PID, fuzzy logic, or neural networks.
Analog systems generally consist of operational amplifiers. Digital systems are based on processors, which, in addition to requiring electronic circuitry (hardware), also require programs (software).
The device has a temperature sensor and an output connected to a device, such as a heater or a fan. Besides providing an output to the control element, it compares the actual temperature with the desired control temperature or Setpoint.
In industrial automation, electronic controllers are the equipment responsible for controlling an industrial process or part of it through specific control algorithms.
The working principle behind a PID controller is that the proportional, integral and derivative terms must be individually adjusted or "tuned." Based on the difference between these values a correction factor is calculated and applied to the input.
Rather than dials, a digital meter has an electronic display that you or a service person can read manually on the face of the meter, or the signal can be sent to the utility company via a high-frequency signal that is transmitted back to the utility company on the electric service wires.
Rather than dials, a digital meter has an electronic display that you or a service person can read manually on the face of the meter, or the signal can be sent to the utility company via a high-frequency signal that is transmitted back to the utility company on the electric service wires.
Digital frequency meter incorporates microcontroller with crystal oscillator to display the frequency.
Digital panel meters are used extensively in process control equipment to track humidity, pressure, and so on. Apart from that, it can also be used to monitor an electrical equipment performance by displaying its voltage or current information in the panel meter.
No matter which type you choose, read the manufacturer's instructions carefully. No thermometer will provide accurate results if it's used incorrectly.
Electric meters are generally accurate and can be tested by your electricity supplier.
If your electricity meter has any kind of digital readout, then it is too advanced to run backwards. Also, it's not enough for just the disk to spin backwards. The meter readout dials have to turn backwards as well.
Digital electric meters are faster to read at a glance and the meter reader makes less errors because of it. Thus, a digital electric meter will say “Fault,” “Error,” or “Battery” when something is awry.
Although it is used in many different contexts, the scientific use of the word "energy" has a well-defined and specific meaning: Innate potential to do work or perform an action. Anything that is working, moving another object, or heating it, for example, is using (transferring) energy.
The existing types of energy are: Mechanical, thermal, electrical, chemical, and nuclear energy, responsible for performing work, movement, and generating electricity. Renewable energy sources are those that can be naturally replaced in the environment, but it is vital to understand that, even if renewable, these sources are not inexhaustible.
There are many ways to acquire energy through renewable sources (clean energy) or non-renewable resources (dirty energy). The main examples of clean energy are wind energy, solar energy, and biofuels, which are produced from natural products. The most common examples of dirty energy are: coal, nuclear power, oil, and gas.
Energy transformation is the physical phenomenon in which energy changes from one form into another. This process happens all the time. From the car, which transforms the chemical energy of gasoline combustion into mechanical energy, to a light bulb that transforms electrical energy into light energy and thermal energy.
Hydraulic Energy: Obtained from river water. Solar energy: Obtained from the sun. Wind Energy: Obtained from the winds. Geothermal Energy: Obtained by the heat within the earth. Biomass Energy: Obtained by living or once-living organisms. Gravitational Energy: Obtained by the waves of the oceans. Hydrogen Energy: Obtained from hydrogen. Fossil Fuels: Obtained from oil, mineral coal, and natural gas. Nuclear Energy: Obtained from elements such as uranium and thorium.
The operation of photovoltaic solar energy is based on the phenomenon that occurs when particles of sunlight (photons) collide with the silicon atoms present in the solar panel. This action produces a displacement of electrons, which creates a continuous flow of electric current, called photovoltaic solar energy.
Thermal energy is produced by work or heat. When we use a hand pump to inflate a bicycle tire, the pump becomes heated. In this case, thermal energy is produced through the transfer of mechanical energy.
This form of energy is generated by harnessing the power and volume of water. By building dams on rivers, a reservoir is formed. The water is drawn from this reservoir and carried through pipes to the turbines, which move thanks to the power of the water.
NOVUS helps with robust industrial products for energy measurement and control.
Level monitoring and control in hydropower plants Pressure monitoring of insulating oil in underground transmission lines Temperature monitoring of hydropower turbine bearings Temperature monitoring in the production of wind turbine blades Temperature monitoring of energy meters in industry, commerce, and residential buildings Temperature and humidity monitoring in operation rooms and battery rooms of substations
Advanced manufacturing happens through industrial automation, which serves to optimize and speed up processes in a reliable and precise way. For this, it is necessary to elaborate projects and implement automated systems, integrating equipment from different manufacturers in the manufacturing processes.
Basic sanitation is a set of fundamental services that contribute to the socioeconomic development of a region, such as water supply, sewage, urban drainage, solid waste management, and stormwater management.
Basic sanitation is a set of fundamental services that contribute to the socioeconomic development of a region, such as water supply, sewage, urban drainage, solid waste management, and stormwater management.
TxConfig-HRT is the universal interface for configuring NOVUS transmitters with HART protocol. It is compatible with the NP860-HRT transmitter, which makes configuration and calibration extremely fast and simple.
NOVUS NP640 or NP620 relative pressure transmitters can be configured and recalibrated by the user. They feature a wide calibration range. In addition, they allow you to configure the transmission range up to 1/3 of the full scale. This configuration is performed using the TxConfig ll configurator software (via the TxConfig-DIN43650 interface).
Their technical measuring properties remain robust even when changing the range.
Basic sanitation is a set of fundamental services that contribute to the socioeconomic development of a region, such as water supply, sewage, urban drainage, solid waste management, and stormwater management.
Basic sanitation is a set of fundamental services that contribute to the socioeconomic development of a region, such as water supply, sewage, urban drainage, solid waste management, and stormwater management.
Water treatment and distribution, Sewage collection and treatment, Urban rainwater drainage, Waste collection and management.
Sanitation consists of measures taken on the environment and aims to promote health, ensure quality of life, and preserve natural resources.
Basic sanitation and urban sanitation consist of activities related to drinking water supply, stormwater management, sewage collection and treatment, urban cleaning, solid waste management, and control of pests and pathogenic agents to improve the health of the communities.
In 2011, 82.4 % of the Brazilian population had access to drinking water. In 2018, the index rose to 83.6 %. There was a greater advance in the indicators of population with access to sewerage systems, which went from 48.1 % in 2011 to 53.2 % in 2018. Sewage treatment also went from 37.5 % to 46.3 %.
The term "basic sanitation" defines a set of procedures adopted by a government that serves to provide a hygienic and healthy condition for its urban and rural population. With these measures, it is possible to guarantee quality of life, promote health and avoid diseases.
Basic sanitation refers to the supply of drinking water and sewage collection and treatment. Environmental sanitation refers to urban cleaning, pest control, etc. Its purpose is to ensure the sanitation of the environment and not allow people without infrastructure to live with diseases. In addition, it also serves to protect the environment.
"Sanitation" refers to the set of measures that aim to preserve or modify the conditions of the environment and which help to prevent diseases, promote health, improve quality of life, increase personal productivity, and improve economic activities.
Using rainwater can help you to be more ecological as well as save money on your water bill. Each person produces around 150 liters of sewage per day. On a simple analysis, it is possible to conclude that a family of 3 produces around 900 liters of effluent in 2 days.
Those who live in the countryside should know about rural sanitation. It basically consists of sewage collection and treatment, water supply for human consumption, treatment and reuse of wastewater, and the management and disposal of garbage.
Law 11.445/07 established the concept of basic sanitation as a set of services, infrastructure, and facilities for water supply, sewage treatment, urban cleaning, and solid waste management.
The public basic sanitation services are foreseen in Law 11.445/2007 and were amended by Law 14.026/2020. On January 5, 2007, Law 11.445 was published, regulating basic sanitation services.
With the approval of Law 14.026/2020, which updates the legal framework for basic sanitation, the relationship between the ANA and the sanitation sector will reach a new level, since the Brazilian National Water Agency (in Portuguese, Agência Nacional de Águas e Saneamento (ANA)) will now edit reference standards.
Based on data from the Brazilian National Information System on basic sanitation, the study also shows that in 2018, the average amount of drinking water in Brazil was 38.45 % of the total available. This meant a loss of 6.5 billion m³ of water in a year − the equivalent of 7.1 thousand Olympic swimming pools per day!
According to Agência Brasil, private sector is responsible for basic sanitation in only 6 % of Brazilian cities. In the other 94 %, this service is performed by state or municipal companies, assisted by the federal government.
Water loss is the unintentional waste of drinking water that occurs in several ways in a supply system.
The consumption profile is related to the characteristics, patterns, and principles of a given customer group. It is a set of specifications that can define the parameters on consumption deviation.
It is necessary to think of solutions, such as: species management research, monitoring programs, educational campaigns to stop clandestine connections, etc.
By monitoring the point of lowest pressure, pressure control allows to maintain the supply at a minimum pressure, reducing the volume lost and electric power consumption. When installed in a water pumping station, it provides a significant reduction in operational expenses. Its primary concern is to keep all customers supplied.
A sewage lift is a complete solution for handling sewage in buildings below or far away from the public sewage system. Installed in the ground or underground, the set includes one or more high-efficiency sewage grinder pumps, a tank, and a device for automatic actuation.
The sewage lift station pumps liquid and solid effluents through submersible or self-priming pumps to places where they can continue to flow safely into the collection system.
The water to be used passes through the internal pipes, then follows to the street, where it meets the wastewater collection system.
The lift station aims to bring a submersible effluent to the sewage collection system or to the sewage treatment system.
Industrial wastewater treatment plants act according to the physical, natural, and biological characteristics of the effluents. In addition, they also consider the presence of pollutants that must be removed and/or the unit operations used for treatment. The ideal process is indicated according to the pollutant load and the presence of contaminants.
Lift station is a unit that have hydraulic pumps and tanks that increase the pressure of the liquid in a distribution system for clean water or for effluents and sewage.
They serve as complete solutions with centralized or distributed architecture to provide stable operations. From dams, through water treatment, distribution and transmission to factories and communities, reliable systems are needed to monitor and control the water supply process in real time.
A data logger is an instrument that monitors and records changes in conditions over time. They can be single, stand-alone units or consist of multiple channels. Most stand-alone units are battery-powered, allowing them to record while in transit and for extended periods of time.
Data acquisition is the process of digitizing data from the world around us so it can be displayed, analyzed, and stored in a computer.
Data logging can be done manually by constant human observation. An example of this might be recording the temperature changes over the course of an hour in a centrally heated room using a timer, thermometer, pen and paper.
A data acquisition system is a collection of software and hardware that allows one to measure or control physical characteristics of something in the real world. A complete data acquisition system consists of DAQ hardware, sensors and actuators, signal conditioning hardware, and a computer running DAQ software.
The Portable Series stand-alone, low cost data loggers are ideal for remote applications and transporting goods, as well.
Data loggers are electronic devices which automatically monitor and record environmental or industrial process parameters over time, allowing conditions to be measured, documented, analysed and validated. The data logger contains a sensor to receive the information and a computer chip to store it.
A data logger works by automatically monitoring and recording specific environmental conditions and parameters via their sensor components, then storing the resulting data in their internal memory. They can be configured as either relatively simple single-channel devices or more complex multi-channel versions.
Data loggers are electronic devices that automatically monitor and record environmental parameters over time, allowing conditions to be measured, documented, analyzed and validated. The data logger contains a sensor to receive the information and a computer chip to store it.
Data logger is an electronic device that records critical data over time. Providing high-quality sensor data around things like temperature humidity, shock, vibration, and more, they assist in product and consumer satisfaction and safety. Several industries ship and store sensitive products that can become compromised based on the environment it either is stored or shipped in.
Data loggers can monitor temperature, humidity, carbon dioxide, pH, pressure, voltage, current, and pulse – making them useful for a number of applications, including to: Verify temperature and humidity levels of storage and transportation facilities.
Data loggers are used wherever there is some advantage in recording conditions over a period of time. Applications range from obtaining a record of wind speed to tracking temperature in refrigerated storage containers, to monitoring flow rate at a remote pumping station.
Data loggers can monitor temperature, humidity, carbon dioxide, pH, pressure, voltage, current, and pulse – making them useful for a number of applications, including to: Verify temperature and humidity levels of storage and transportation facilities.
Most are equipped with an internal microprocessor (effectively a small, multi-function computer processing chip), some form of on-board data storage, one or more sensors or detection instruments, and potentially a variety of other accessories.
Data acquisition systems are being used in various applications such as biomedical and aerospace. So, we can choose either analog data acquisition systems or digital data acquisition systems based on the requirement.
The main goal when defining a correct data acquisition strategy is therefore to understand the needs of the system in terms of data volume, variety, and velocity, and take the right decision on which tool is best to ensure the acquisition and desired throughput.
Data Acquisition is the process of collecting accurate and reliable data to work with. Data acquisition is the second step in the project cycle, we should ensure the data collected is collected from authentic and reliable sources for effective Decision Making.
Data acquisition meaning is to collect data from relevant sources before it can be stored, cleaned, preprocessed, and used for further mechanisms. It is the process of retrieving relevant business information, transforming the data into the required business form, and loading it into the designated system.
It is an industrial computer control system that continuously monitors the state of input devices and makes decisions based upon a custom program to control the state of output devices.
A data acquisition system is a collection of software and hardware that allows one to measure or control physical characteristics of something in the real world. A complete data acquisition system consists of DAQ hardware, sensors and actuators, signal conditioning hardware, and a computer running DAQ software.
Data acquisition has been understood as the process of gathering, filtering, and cleaning data before the data is put in a data warehouse or any other storage solution. The acquisition of big data is most commonly governed by four of the Vs: volume, velocity, variety, and value.
Remote sensing data acquisition can be conducted on such platforms as aircraft, satellites, balloons, rockets, space shuttles, etc. Inside or on-board these platforms, we use sensors to collecting data.
Data acquisition has been understood as the process of gathering, filtering, and cleaning data before the data is put in a data warehouse or any other storage solution.
Data acquisition is the process of digitizing data from the world around us so it can be displayed, analyzed, and stored in a computer.
Data Acquisition is the process of collecting accurate and reliable data to work with. Data acquisition is the second step in the project cycle, we should ensure the data collected is collect from authentic and reliable sources for effective Decision Making.
Data acquisition system (DAS) is a computerized system that collects data from the real world, converts it into the form of electrical signals and do required processing on it for storage, and presentation on computers. The complete system is controlled and operated by a software application.
Temperature data loggers are used for temperature and humidity monitoring and are above all employed in the industrial sector, where temperature and humidity play a major role. In this respect, a distinction is made between single-use instruments and long-term monitoring instruments.
All loggers are calibrated by comparison against a calibrated reference thermometer with an immersion PRT probe. The logger or probe is placed in an environmental chamber, which is set to ramp to each of the temperature points specified and hold that temperature for 2 hours or more.
A simple experiment such as the temperature change of hot water is easy to set up with results available within minutes. With data loggers often utilising sensors such as distance, sound, light, pH, air pressure and temperature, there are hundreds of different experiments for students.
The most common use of digital data logging in a hospital is to monitor temperature levels in fridges and freezers that are used to store sensitive assets such as vaccines, tissue samples, blood, and organs for transplant.
An example of this might be recording the temperature changes over the course of an hour in a centrally heated room using a timer, thermometer, pen and paper. However, using an electronic data logger is much more effective, accurate and reliable than taking periodic manual readings.
Data loggers are electronic devices which automatically monitor and record parameters over a time, allowing conditions to be measured, documented, analysed and validated. They are used to keep a register of a batch of measurements in those processes that must have a critical control or simply to analise a lab test, like when you wan to generate a chart from this readen values. Data loggers are very usefull in so many cases because they help to keep data sotred securely.
A temperature data logger is a form of data logger optimized or configured for temperature probes or sensors (and in the case of a temperature and humidity data logger, with humidity sensors too). A temperature logger is an electronic device capable of storing a number of measurements.
Temperature monitoring and humidity levels in manufacturing environments, storage facilities, hospitals, industries such as chemical, manufacturig, electronics, food and bevarage, water tretament plant, energy generation and other public facilities.
Data loggers are electronic devices which automatically monitor and record environmental parameters over time, allowing conditions to be measured, documented, analysed and validated. The data logger contains a sensor to receive the information and a computer chip to store it.
"Data loggers also offer schools significant advantages over other data capture methods including: Speed – data loggers can capture thousands of pieces of information in seconds as well as capturing data when students are not around Accuracy – data loggers automatically capture the required information, reducing the risk of human error and removing the risk of a forgotten or missed reading Storage – storing a large amounts of data which is accessible for analysis by students at a later time"