Energy consumption has become a very important case due to the global energy issue. Therefore, there is an increasing demand for efficient energy control in Heat Ventilation and Air Conditioning (HVAC) Systems. An effective method for controlling the heat energy in a multiple room building is the multizone approach, where each room is treated as a single zone and temperature control is applied separately for each zone. In the proposed technique, the multizone approach is adopted along with a Wireless Sensor Network (WSN) of temperature nodes, where each node covers a single zone and communicates its sensed values to adjacent nodes. Each node is responsible for the tuning of a heating source so that a preset zone temperature value is maintained. Moreover, each node utilizes a simple lumped capacity model for its controlling zone and based on the received neighbor temperature values detects possible divergences from the anticipated energy consumption. Simulation results using a simple weather temperature model and Proportional Integral (PI) controllers verify the effectiveness of the proposed method.
[1]
Bourhan Tashtoush,et al.
Dynamic model of an HVAC system for control analysis
,
2005
.
[2]
David M. Auslander,et al.
Multi-Sensor Single-Actuator Control of HVAC Systems
,
2002
.
[3]
E. S. Page.
CONTINUOUS INSPECTION SCHEMES
,
1954
.
[4]
Edit Gombay,et al.
An adaptation of Page’s CUSUM test for change detection
,
2005,
Period. Math. Hung..
[5]
P. Erdös,et al.
A limit theorem for the maximum of normalized sums of independent random variables
,
1956
.
[6]
A. Walter.
Notes on the utilization of records from third order climatological stations for agricultural purposes
,
1967
.
[7]
Y. Tachwali,et al.
Minimizing HVAC Energy Consumption Using a Wireless Sensor Network
,
2007,
IECON 2007 - 33rd Annual Conference of the IEEE Industrial Electronics Society.
[8]
Paul K. Wright,et al.
Application of Multizone HVAC Control Using Wireless Sensor Networks and Actuating Vent Registers
,
2007
.