Applying Wireless Sensor Networks in Industrial Plant Energy Evaluation and Planning Systems

Energy evaluation and planning are important in industry for overall energy savings. Traditionally these functions are realized in wired systems formed by communication cables and various types of sensors. However, the installation and maintenance of these cables and sensors is usually much more expensive than the cost of the sensors themselves. Recent advances in wireless communications, micro-electro-mechanical systems, and highly integrated electronics allowed the introduction of wireless sensor networks (WSN). A WSN has unique functional characteristics that enables low cost energy evaluation and planning in industrial plants. This paper proposes a closed-loop energy evaluation and planning system with the WSN architecture. The importance of the proposed scheme lies in its nonintrusive, intelligent, and low cost nature. As the focus of this paper, the properties and architecture of the WSN in this application are discussed in detail. The applicability of the proposed system is analyzed and potential challenges are addressed. Finally, a demo system is constructed and experimental results are presented

[1]  Ian F. Akyildiz,et al.  Wireless sensor networks: a survey , 2002, Comput. Networks.

[2]  A. von Jouanne,et al.  A laboratory assessment of in-service motor efficiency testing methods , 1997, 1997 IEEE International Electric Machines and Drives Conference Record.

[3]  Edgar H. Callaway,et al.  Home networking with IEEE 802.15.4: a developing standard for low-rate wireless personal area networks , 2002, IEEE Commun. Mag..

[4]  J.A. Rooks,et al.  Practical approach for determining motor efficiency in the field using calculated and measured values , 2003, Conference Record of the 2003 Annual Pulp and Paper Industry Technical Conference, 2003..

[5]  A. von Jouanne,et al.  Assessment of non-intrusive motor efficiency estimators , 2004, Conference Record of 2004 Annual Pulp and Paper Industry Technical Conference (IEEE Cat. No.04CH37523).

[6]  T.G. Habetler,et al.  On the application of wireless sensor networks in condition monitoring and energy usage evaluation for electric machines , 2005, 31st Annual Conference of IEEE Industrial Electronics Society, 2005. IECON 2005..

[7]  J. S. Hsu,et al.  Field test of motor efficiency and load changes through air-gap torque , 1995 .

[8]  R. R. Obaid,et al.  Complete current-based induction motor condition monitoring: stator, rotor, bearings, and load , 2002, VIII IEEE International Power Electronics Congress, 2002. Technical Proceedings. CIEP 2002..

[9]  T.G. Habetler,et al.  A Survey of Efficiency Estimation Methods of In-Service Induction Motors with Considerations of Condition Monitoring Requirements , 2005, IEEE International Conference on Electric Machines and Drives, 2005..

[10]  D.B. Durocher,et al.  Future control technologies in motor diagnostics and system wellness , 2003, Conference Record of the 2003 Annual Pulp and Paper Industry Technical Conference, 2003..

[11]  Jose A. Gutierrez,et al.  Low-Rate Wireless Personal Area Networks: Enabling Wireless Sensors with IEEE 802.15.4 , 2003 .