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Fault-tolerant supervisory control of building condenser cooling water systems for energy efficiency

Journal Article


Abstract


  • This paper presents a fault-tolerant supervisory control strategy for building condenser cooling water systems. The proposed strategy mainly consists of a model-based predictive control (MPC) scheme, a fault detection and diagnosis (FDD) scheme and a fault accommodation and tolerant (FAT) scheme. The MPC scheme using systematic optimization is employed to identify optimal control settings for the local process controllers. The FDD scheme is utilized to detect and diagnose major possible faults that may happen in the routine operation of condenser cooling water systems. The faults considered mainly include critical sensor faults, physical component performance degradations and malfunctions of control logics. According to the types of faults happened, the FAT scheme is then used to handle the faults in order to regain the control as far as possible. The performance of this strategy is tested and evaluated in a simulated virtual system representing the actual condenser cooling water system in a super high-rise building. The results show that the proposed strategy is capable of maintaining acceptable control performance and can help save about 0.18%~5.23% total energy of the chillers and cooling towers when the operation of condenser cooling water systems suffers from some faults, as compared to that using the same control strategy but without using the FAT scheme.

UOW Authors


Publication Date


  • 2011

Citation


  • Ma, Z. & Wang, S. (2011). Fault-tolerant supervisory control of building condenser cooling water systems for energy efficiency. HVAC and R Research, 18 (1-2), 126-146.

Scopus Eid


  • 2-s2.0-84860814811

Ro Metadata Url


  • http://ro.uow.edu.au/engpapers/3145

Number Of Pages


  • 20

Start Page


  • 126

End Page


  • 146

Volume


  • 18

Issue


  • 1-2

Abstract


  • This paper presents a fault-tolerant supervisory control strategy for building condenser cooling water systems. The proposed strategy mainly consists of a model-based predictive control (MPC) scheme, a fault detection and diagnosis (FDD) scheme and a fault accommodation and tolerant (FAT) scheme. The MPC scheme using systematic optimization is employed to identify optimal control settings for the local process controllers. The FDD scheme is utilized to detect and diagnose major possible faults that may happen in the routine operation of condenser cooling water systems. The faults considered mainly include critical sensor faults, physical component performance degradations and malfunctions of control logics. According to the types of faults happened, the FAT scheme is then used to handle the faults in order to regain the control as far as possible. The performance of this strategy is tested and evaluated in a simulated virtual system representing the actual condenser cooling water system in a super high-rise building. The results show that the proposed strategy is capable of maintaining acceptable control performance and can help save about 0.18%~5.23% total energy of the chillers and cooling towers when the operation of condenser cooling water systems suffers from some faults, as compared to that using the same control strategy but without using the FAT scheme.

UOW Authors


Publication Date


  • 2011

Citation


  • Ma, Z. & Wang, S. (2011). Fault-tolerant supervisory control of building condenser cooling water systems for energy efficiency. HVAC and R Research, 18 (1-2), 126-146.

Scopus Eid


  • 2-s2.0-84860814811

Ro Metadata Url


  • http://ro.uow.edu.au/engpapers/3145

Number Of Pages


  • 20

Start Page


  • 126

End Page


  • 146

Volume


  • 18

Issue


  • 1-2