Abstract
Increased data monitoring enables the energy-efficient operation of air-conditioning systems via data-mining. The latter is projected to have lesser consumption but more comprehensive diagnosis than traditional methods. Following the companion paper that proposed a systematic method for energy-saving potential calculations via data-mining, this article presents a detailed case study in an ice-storage air-conditioning system by employing the proposed method. Raw data were preprocessed prior to recognizing the constant- and variable-speed devices in the system. Classification and regression tree algorithms were utilized to identify the operating modes of the system. The regression models between the energy-consumption and operating-state parameters of the nine pumps and two chillers were fitted. Furthermore, the constraints pertaining to system operation were summarized. From the results, the particle swarm optimization method was applied to elucidate the benchmark energy cost and the consequent cost savings potential. The cost savings potential for the chiller plant room during the investigation duration of 59 d reached as high as 24.03%. The case study demonstrates the feasibility, effectiveness, and stability of the systematic approach. Further studies can facilitate the development of corresponding control strategies based on the potential analysis results, to investigate better optimization algorithm, and visualize the analysis process.
Highlights
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.license.As reviewed in a companion paper [1], data mining can be a superior approach for diagnosing the energy-saving potential of air-conditioning systems, in the era of data explosion
Among the four internal nodes of 0, 2, 3, and 5, in node 2, RV1 = 97 is determined as the splitting criterion based on the monitoring data for the opening of V1 (97.28 ≤ RV1 ≤ 97.89 in the “on” state, while the maximum value of 61.20 in the “modulate” state)
In addition to the Particle Swarm Optimization (PSO) method, we examined the performance of other algorithms, including genetic algorithm (GA) and ant colony optimization (ACO)
Summary
As reviewed in a companion paper [1], data mining can be a superior approach for diagnosing the energy-saving potential of air-conditioning systems, in the era of data explosion. The companion paper [1] proposed a systematic energy-saving diagnosis method for air conditioning systems via data-mining. (2) data preprocessing, (3) recognition of variable frequency equipment, (4) recognition of system operation mode, (5) regression analysis of energy-consumption data, (6) constraint analysis of the system during operation, and (7) analysis of energy-saving potential. To validate the proposed method and test its applicability and feasibility for application in complicated air conditioning systems, this study mainly focuses on the technical details of the method and the application of the method in a specific air conditioning system for energy-saving diagnosis
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