Solutions for Construction Companies
Indoor air quality monitoring
Indoor air quality monitoring
Indoor Air Quality Sensor (IAQS)
Indoor air quality monitoring
Seemoto provides modular solution for indoor air quality monitoring. Basic temperature monitoring can be used to detect temperature related problems and building's energy efficiency. Temperature combined with relative humidity monitoring can be used to detect high moisture levels and moisture related risks within building structures. Monitoring of CO2- levels gives good indication of ventilation and air conditioning functionality.
Our state-of-art product for indoor air quality monitoring is IAQS-sensor that combines monitoring of all parameters into one single cost-efficient product (temperature, relative humidity, CO2, VOC, PM2.5, PM10 and differential pressure). IAQS shipping to customers starts June 2019.
For all smart buildings related monitoring we offer following optional solutions:
- Real-time monitoring solution
- Low cost data logging solution
- Mobile monitoring solution
Concrete drying monitoring
Concrete drying monitoring
Concrete drying monitoring
Seemoto THB-C sensor is built specifically for monitoring of concrete drying process. Continuous, real-time monitoring of concrete enables optimization of project schedules and cost savings in many ways.
For all smart buildings related monitoring we offer following optional solutions:
- Real-time monitoring solution
- Low cost data logging solution
- Mobile monitoring solution
Energy efficiency
Energy efficiency
Energy efficency solutions
Seemoto temperature monitoring can be used to detect temperature related problems and building's energy efficiency. System is easy to install and very cost efficient. Small temperature sensors are easy to install to anywhere and even large buildings can be temperature mapped easily and/or continuously monitored. Seemoto wireless monitoring enable implementation of smart heating solutions easily.
For all smart buildings related monitoring we offer following optional solutions:
- Real-time monitoring solution
- Low cost data logging solution
- Mobile monitoring solution
VOC monitoring (Volatile organic compound)
VOC sensor consept
VOC (Volatile organic combound) monitoring
Volatile organic compounds (VOCs) are organic chemicals that have a high vapor pressure at ordinary room temperature. Their high vapor pressure results from a low boiling point, which causes large numbers of molecules to evaporate or sublimate from the liquid or solid form of the compound and enter the surrounding air, a trait known as volatility. For example, formaldehyde, which evaporates from paint and releases from materials like quartz, has a boiling point of only –19 °C (–2 °F).
VOCs are numerous, varied, and ubiquitous. They include both human-made and naturally occurring chemical compounds. Most scents or odors are of VOCs. Some VOCs are dangerous to human health or cause harm to the environment. Harmful VOCs typically are not acutely toxic, but have compounding long-term health effects.
Short term exposure of VOC shows symptoms such as eyes, nose, throat and respiratory track irritation, headache, loss of coordination. Long term exposure causes damage to liver, kidney, and central nervous system, visual disorders and memory impairment, some VOCs can also cause cancer in the long term.
Most common VOCs are acetone, benzene, Ethylene glycol, Formaldehyde, Toulene, Xylene , Perchloroethylene. VOCs are used in many industrial process, it is found in paints, adhesives, vinyl flooring, pvc, refrigerants, oil power power plants, petroleum refining, metal production etc.. It is also found in electronic manufacturing industries, vehicle manufacturing factories, printing industries and equipment spraying industries.
Anthropogenic VOCs are regulated by law, especially indoors, where concentrations are the highest. First step in taking safety measures is continuous monitoring of VOC concentration in your work environment, once the level of VOC concentration is known safety measures can be taken to reduce the concentration. Proper removal methods should be deployed for permanent solution.
For all smart buildings related monitoring we offer following optional solutions:
- Real-time monitoring solution
- Low cost data logging solution
- Mobile monitoring solution
EMC monitoring (Equilibrium moisture content)
Equilibrium moisture content
EMC (Equilibrium moisture content) monitoring
The equilibrium moisture content (EMC) of a hygroscopic material surrounded at least partially by air is the moisture content at which the material is neither gaining nor losing moisture. The value of the EMC depends on the material and the relative humidity and temperature of the air with which it is in contact. The speed with which it is approached depends on the properties of the material, the surface-area-to-volume ratio of its shape, and the speed with which humidity is carried away or towards the material (e.g. diffusion in stagnant air or convection in moving air)
The moisture content of wood below the fiber saturation point is a function of both relative humidity and temperature of surrounding air. If the wood is placed in an environment at a particular temperature and relative humidity, its moisture content will generally begin to change in time, until it is finally in equilibrium with its surroundings, and the moisture content no longer changes in time. This moisture content is the EMC of the wood for that temperature and relative humidity.
Materials such as stones, sand and ceramics are considered 'dry' and have much lower equilibrium moisture content than organic material like wood and leather. Typically a fraction of a percent by weight when in equilibrium of air of Relative humidity 10% to 90%. This affects the rate that buildings need to dry out after construction, typical cements starting with 40-60% water content. This is also important for construction materials such as render reinforced with organic materials, as modest changes in content of different types of straw and wood shavings have a significant influence on the overall moisture content.
For all smart buildings related monitoring we offer following optional solutions:
- Real-time monitoring solution
- Low cost data logging solution
- Mobile monitoring solution
Real-time monitoring
Real-time monitoring
Real-time monitoring solution is fixed installation, where monitoring is done, for a certain time, within same premises.
The system provides users everything that is needed to meet temperature monitoring related requirements. Access to real-time information, 5-year data storage, access to history data using various reports, alerting via email and SMS, alert/exception handling tools and alert reports.
Low cost datalogging
Low cost data logging
Low cost data logging solution utilizes Seemoto sensor's internal memory to store temporary monitoring data. Sensors can be shipped to customers who are making actual monitoring with sensor devices. Sensors are then returned back for data analysis.
Seemoto provides various options for monitoring such temperature (and humidity). E.g. loggers with manual measurement start/stop switch or fully automated systems which automatically generate departure/arrival timestamps based on sensor location information. It is also possible to combine Seemoto temperature data with departure/arrival timestamps generated by other systems e.g. customer ERP system.
Mobile monitoring
Mobile monitoring
Mobile monitoring solution is complete, mobile monitoring solution where mobile 2G/3G gateway functionality is integrated into briefcase, which enables easy relocation of whole monitoring system. Mobile monitoring solution is suitable for on-field workers e.g. maintenance etc...
The system provides users everything that is needed to meet temperature monitoring related requirements. Access to real-time information, 5-year data storage, access to history data using various reports, alerting via email and SMS, alert/exception handling tools and alert reports.
