Developing Near Optimal Control Sequences for Chiller Plants with Water-side Economizers: A Case Study in a Warm and Marine Climate

Cary Faulkner, Chengnan Shi, Julia Ho, Nasim Ildiri, Wangda Zuo

Research output: Contribution to conferencePaper

Abstract

Various advanced control sequences for chiller plants with water-side economizers (WSE) have been proposed in literature, but the optimization of those controls is limited. It is possible to maximize energy savings by developing near-optimal control sequences, which are dependent on several factors such as the load profile. To address these gaps, we first identify an advanced control sequence and three key control parameters for chiller plants with WSE. Next, optimizations are performed to minimize energy consumption for seven combinations of control parameters. A chiller plant with WSE system in a warm and marine climate is studied and two load profiles are considered. The system and controls are modeled using the Modelica Buildings library. The results show optimizing the selected control parameters can reduce energy consumption by up to 11% depending on the load profile. Specifically, optimizing the cooling tower efficiency threshold in the condenser water reset control can significantly reduce energy savings for the variable load profile by efficiently shifting the load from the cooling tower to the chiller. This paper provides practical guidance for developing near-optimal control sequences for chiller plant with WSE systems considering impacts such as the load profile.
Original languageAmerican English
Pages178-184
Number of pages7
StatePublished - 2024
EventSimBuild Conference - Denver, Colorado
Duration: 21 May 202423 May 2024

Conference

ConferenceSimBuild Conference
CityDenver, Colorado
Period21/05/2423/05/24

NREL Publication Number

  • NREL/CP-5500-91290

Keywords

  • chiller plant
  • control
  • optimization
  • water-side economizer

Fingerprint

Dive into the research topics of 'Developing Near Optimal Control Sequences for Chiller Plants with Water-side Economizers: A Case Study in a Warm and Marine Climate'. Together they form a unique fingerprint.

Cite this