building energy monitoring Applications

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Industrial solutions for energy efficiency in buildings

by Advantic Sistemas y Servicios S.L     based in Alcobendas, SPAIN

Nowadays, the new laws of protection and sustainability, increased energy prices and greater environmental awareness and drive increased largely rational use of energy, not only for end users but also large consumers and systems thereby improving efficiency in buildings.

Flow & Energy Management Solutions for building automation

by Spire Metering Technology     based in Marlborough, MASSACHUSETTS (USA)

For comprehensive energy efficiency monitoring for both hot water systems and chilled water systems. Reduce energy bills by monitoring the usage. Conserve energy and go green.

Flow & Energy Management Solutions for HVAC & facility

by Spire Metering Technology     based in Marlborough, MASSACHUSETTS (USA)

Measurement of cold and hot water flows / BTU energy in residential buildings as well as large building complexes such as hospitals, schools, factories and offices to monitor and control usage.

Measurement solutions for naval

by Smart Testsolutions GmbH     based in Stuttgart, GERMANY

The importance of fuel cells and batteries is significantly on the increase in ship building. Here, our customers benefit from the extensive experience of SMART TESTSOLUTIONS. Here at SMART we have recognised the importance of high-performance energy storage systems and generators already at an early stage. Our competitive edge with regard to know-how refers most of all to the reliable monitoring of fuel cells and batteries. Our systems are by now being used in many countries around the world. Convince yourself of our high competence. Talk to us!

Indoor Air Quality Monitoring

by Edinburgh Instruments Ltd     based in Livingston, UNITED KINGDOM

Accurate control of critical indoor environmental parameters is not only essential for the well-being and comfort of building occupants, but also has a major impact on energy efficiency. A multitude of parameters can affect indoor air quality (IAQ) from gases such as carbon dioxide (CO2), carbon monoxide (CO) and volatile organic compounds to particulates, humidity and bacteria such as legionella. CO2 is one of the greatest variables affecting indoor environmental quality since it is produced by people occupying the building. CO2 production is a function of the number, size and activity levels of the people present in the building. Local concentrations can therefore vary dramatically – for example when a meeting room is occupied, or while workers are on lunch or coffee breaks. Excess CO2 levels can lead to tiredness and a lack of concentration and can contribute to the symptoms of Sick Building Syndrome such as headaches, eye, nose and throat irritation, itchy skin and nausea.

Carbon Dioxide Monitoring for Indoor Air Quality

by Edinburgh Instruments Ltd     based in Livingston, UNITED KINGDOM

Introduction: Accurate control of critical indoor environmental parameters is not only essential for the well-being and comfort of building occupants, but also has a major impact on energy efficiency. A multitude of parameters can affect indoor air quality (IAQ) from gases such as carbon dioxide, carbon monoxide and volatile organic compounds to particulates, humidity and bacteria such as legionella. Carbon dioxide is one of the greatest variables affecting indoor environmental quality since it is produced by people occupying the building. Carbon dioxide production is a function of the number, size and activity levels of the people present in the building. Local concentrations can therefore vary dramatically – for example when a meeting room is occupied, or while workers are on lunch or coffee breaks.

Related Terms for building energy monitoring

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