Proceedings ArticleDOI
Towards distributed enthalpy measurement in large-scale air conditioning systems
Thilo Sauter,Harald Steiner,Thomas Glatzl,Wilfried Hortschitz,Florian Wenig,Christian Heschl +5 more
- pp 460-465
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TLDR
A distributed data acquisition system for large-scale AC systems based on low-cost flow sensors implemented by means of standard printed circuit board technology and interconnected via a wireless sensor network is introduced.Abstract:
Air conditioning systems are among the major energy consumers in buildings. Energy-efficient operation of AC systems is an important step towards better energy management in building automation, but requires efficient monitoring of the energy or enthalpy flows within the AC installation, which is currently still difficult because of the lack of appropriate equipment. This paper introduces a distributed data acquisition system for large-scale AC systems based on low-cost flow sensors implemented by means of standard printed circuit board technology and interconnected via a wireless sensor network. A critical issue for the system installation is the placement of the sensors in the air ducts to obtain representative measurements of the air flow. To this end, extensive aerodynamical simulations are carried out to analyze the flow distributions in typical building blocks for air ducts, particularly with respect to turbulences. The simulation results are compared with experimental data from the literature and are shown to be reliable.read more
Citations
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Proceedings ArticleDOI
Calorimetric flow sensors based on thick-film printed thermopiles for air conditioning system monitoring
TL;DR: This paper presents a technology feasibility study to implement flow sensors based on thick-film thermopiles printed by silk screen printing on a plastic carrier film and shows that an optimized layout could be found which allows for a substantially enlarged dynamic range of the sensor.
Proceedings ArticleDOI
Using PCB technology for calorimetric water flow sensing in HVAC systems - a feasibility study
TL;DR: The sensor in this paper uses a modified calorimetric principle with thermoresistive heat transfer, where the sensing elements are implemented by simple copper leads and have an averaging effect rather than a spot measurement.
Proceedings ArticleDOI
Towards low-cost printed flow sensors
Harald Steiner,Thomas Glatzl,Almir Talic,Samir Cerimovic,Franz Kohl,Marlies Schlauf,Thomas Schalkhammer,Franz Keplinger,Thilo Sauter +8 more
TL;DR: In this article, the authors present a technology feasibility study to implement flow sensors based on thick-film thermopiles printed by silk screen printing on a plastic carrier film, which can give a good indication of the flow distribution within the air conditioning system.
Proceedings ArticleDOI
Numerical and experimental characterization of a novel low-cost thermal air flow sensor
TL;DR: A novel, low-cost, thermal air flow sensor, which takes non-uniform velocity profiles into account, is presented and characterized due to its application in heating, ventilation and air conditioning systems.
Journal ArticleDOI
Flexible Flow Sensors for Air Conditioning Systems Based on Printed Thermopiles
Harald Steiner,Samir Cerimovic,Thomas Glatzl,Franz Kohl,Marlies Schlauf,Thomas Schalkhammer,Franz Keplinger,Thilo Sauter,Thilo Sauter +8 more
TL;DR: In this paper, a flexible printed thermopile transducer was developed for air conditioning systems, which exhibits a strictly increasing behavior with increasing flow velocity, which is in good agreement to FEM simulations.
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