Predicting chiller system parameters using artificial neural networks : an experimental study
Air-conditioning is vital for Industrial, Manufacturing, and Commercial applications. Chillers are the core cooling source to provide air-conditioning to the required area which is a part of the HVAC system. Chiller units consume more energy compared to other systems in HVAC systems. Energy conse...
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sg-ntu-dr.10356-1445722023-07-04T15:34:52Z Predicting chiller system parameters using artificial neural networks : an experimental study Venkatesalu Ishwariya Cai Wenjian School of Electrical and Electronic Engineering Energy Research Institute @NTU ewjcai@ntu.edu.sg Engineering::Computer science and engineering::Computing methodologies::Artificial intelligence Air-conditioning is vital for Industrial, Manufacturing, and Commercial applications. Chillers are the core cooling source to provide air-conditioning to the required area which is a part of the HVAC system. Chiller units consume more energy compared to other systems in HVAC systems. Energy conservation provides the opportunity for better innovation and development both economically and environmentally. This dissertation involves the prediction of chiller’s two main output parameters. Chilled water output and Cooling load are parameters considered in this dissertation, with which the energy optimization could be done more effectively. The focus is to Predict the chiller parameters through Multi-input and Multi-Output Regression model using Neural Networks in Python. The uprising technology of Artificial Neural Networks is considered as the new normal for parameter prediction and optimization in HVAC - air conditioning systems. The availability of the excess amount of data through various sources is the main reason for the growth of ANN in the Machine Learning and Artificial Intelligence field. The accuracy of the ANN model relies on data and neural network structure. It has extensively been used in HVAC systems for optimization, including Chiller System which is the high energy-consuming equipment. The chiller system analyzed in this dissertation is of Vapour Compressed, air-cooled condenser, piston compressor and direct expansion evaporator type. Temperature, Pressure and Flow rate of Water and Refrigerant is the key parameters collected through sensors. The virtual integration of the chiller system in LabVIEW software helped in data acquisition of the key parameters. The Neural Network model of Chiller System targets to train and analyze the accuracy of the output predicting terms. This research aims to initiate the use of predicted target variables to adjust the other key parameters in the system to optimize the chiller to be energy efficient. The research work is directed to implement the algorithm to predict the Chiller parameters of Chilled Water Output and Cooling load, using the Artificial Neural Networks (ANN). The proposed chiller energy consumption model was evaluated for accuracy metrics in terms of R^2 multiple-output regression score function on the given datasets. A comparative study is also performed to check the performance of the modelled Neural Network using regression analysis and Ridge regression model. The best curve fit between the actual and predicted parameters graph with higher R^2 score is considered and results were explained to aid the scope of this dissertation. The best R^2 accuracy model is obtained with 29 input features, 9 hidden layer neurons, Adam optimizer with an initial learning rate set to 0.1. The dissertation study results are obtained as R^2 the score of 0.896 on the Training dataset and 0.884 on the testing dataset for the implemented Neural Network. Comparing with the sklearn ridge regression model with 0.8807 Training R^2 score and 0.875 Testing R^2 score. From the results obtained the modelled Linear regression with a neural network is having significantly improved performance in terms of R^2 score comparison. Master of Science (Computer Control and Automation) 2020-11-13T02:22:32Z 2020-11-13T02:22:32Z 2020 Thesis-Master by Coursework https://hdl.handle.net/10356/144572 en application/pdf Nanyang Technological University |
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Engineering::Computer science and engineering::Computing methodologies::Artificial intelligence Venkatesalu Ishwariya Predicting chiller system parameters using artificial neural networks : an experimental study |
| description |
Air-conditioning is vital for Industrial, Manufacturing, and Commercial applications.
Chillers are the core cooling source to provide air-conditioning to the required area
which is a part of the HVAC system. Chiller units consume more energy compared to
other systems in HVAC systems. Energy conservation provides the opportunity for
better innovation and development both economically and environmentally. This
dissertation involves the prediction of chiller’s two main output parameters. Chilled
water output and Cooling load are parameters considered in this dissertation, with
which the energy optimization could be done more effectively. The focus is to Predict
the chiller parameters through Multi-input and Multi-Output Regression model using
Neural Networks in Python.
The uprising technology of Artificial Neural Networks is considered as the new normal
for parameter prediction and optimization in HVAC - air conditioning systems. The
availability of the excess amount of data through various sources is the main reason
for the growth of ANN in the Machine Learning and Artificial Intelligence field. The
accuracy of the ANN model relies on data and neural network structure. It has
extensively been used in HVAC systems for optimization, including Chiller System
which is the high energy-consuming equipment.
The chiller system analyzed in this dissertation is of Vapour Compressed, air-cooled
condenser, piston compressor and direct expansion evaporator type. Temperature,
Pressure and Flow rate of Water and Refrigerant is the key parameters collected
through sensors. The virtual integration of the chiller system in LabVIEW software
helped in data acquisition of the key parameters. The Neural Network model of Chiller
System targets to train and analyze the accuracy of the output predicting terms. This
research aims to initiate the use of predicted target variables to adjust the other key
parameters in the system to optimize the chiller to be energy efficient.
The research work is directed to implement the algorithm to predict the Chiller
parameters of Chilled Water Output and Cooling load, using the Artificial Neural
Networks (ANN).
The proposed chiller energy consumption model was evaluated for accuracy metrics
in terms of R^2 multiple-output regression score function on the given datasets. A
comparative study is also performed to check the performance of the modelled Neural
Network using regression analysis and Ridge regression model. The best curve fit
between the actual and predicted parameters graph with higher R^2 score is considered
and results were explained to aid the scope of this dissertation. The best R^2 accuracy
model is obtained with 29 input features, 9 hidden layer neurons, Adam optimizer with
an initial learning rate set to 0.1. The dissertation study results are obtained as R^2
the score of 0.896 on the Training dataset and 0.884 on the testing dataset for the
implemented Neural Network. Comparing with the sklearn ridge regression model
with 0.8807 Training R^2 score and 0.875 Testing R^2 score. From the results
obtained the modelled Linear regression with a neural network is having significantly
improved performance in terms of R^2 score comparison. |
| author2 |
Cai Wenjian |
| author_facet |
Cai Wenjian Venkatesalu Ishwariya |
| format |
Thesis-Master by Coursework |
| author |
Venkatesalu Ishwariya |
| author_sort |
Venkatesalu Ishwariya |
| title |
Predicting chiller system parameters using artificial neural networks : an experimental study |
| title_short |
Predicting chiller system parameters using artificial neural networks : an experimental study |
| title_full |
Predicting chiller system parameters using artificial neural networks : an experimental study |
| title_fullStr |
Predicting chiller system parameters using artificial neural networks : an experimental study |
| title_full_unstemmed |
Predicting chiller system parameters using artificial neural networks : an experimental study |
| title_sort |
predicting chiller system parameters using artificial neural networks : an experimental study |
| publisher |
Nanyang Technological University |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144572 |
| _version_ |
1772826780244115456 |