The performance of pip-cascade controler in HVAC system

The performance of pip-cascade controler in HVAC system

Primitive controllers used in the early version for HVAC systems, like the on-off (Bang-Bang) controller, are inefficient, inaccurate, unstable, and suffer from high-level mechanical wear. On the other hand, other controllers like PI and cascade controllers, overcome these disadvantages but...

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Main Authors: Legweel Khaled M.B., Lazić Dragan V., Ristanović Milan R., Lozanović-Šajić Jasmina V.
Format: Article
Language:English
Published: VINCA Institute of Nuclear Sciences 2014-01-01
Series:Thermal Science
Subjects:
PIP-Cascade control
traditional control
HVAC system
disturbance rejection
Online Access:http://www.doiserbia.nb.rs/img/doi/0354-9836/2014/0354-98361300183L.pdf
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spelling doaj-f751baf328b640e7817d4df235e6f1192021-01-02T01:57:45ZengVINCA Institute of Nuclear SciencesThermal Science0354-98362014-01-0118suppl.121322010.2298/TSCI130812183L0354-98361300183LThe performance of pip-cascade controler in HVAC systemLegweel Khaled M.B.0Lazić Dragan V.1Ristanović Milan R.2Lozanović-Šajić Jasmina V.3Faculty of Mechanical Engineering, BelgradeFaculty of Mechanical Engineering, BelgradeFaculty of Mechanical Engineering, BelgradeInnovation Center of the Faculty of Mechanical Engineering, BelgradePrimitive controllers used in the early version for HVAC systems, like the on-off (Bang-Bang) controller, are inefficient, inaccurate, unstable, and suffer from high-level mechanical wear. On the other hand, other controllers like PI and cascade controllers, overcome these disadvantages but when an offset response (inaccurate response) occurs, power consumption will increase. In order to acquire better performance in the central air-conditioning system, PIP-cascade control is investigated in this paper and compared to the traditional PI and PID, in simulation of experimental data. The output of the system is predicted through disturbances. Based on the mathematical model of air-conditioning space, the simulations in this paper have found that the PIP-cascade controller has the capability of self-adapting to system changes and results in faster response and better performance.http://www.doiserbia.nb.rs/img/doi/0354-9836/2014/0354-98361300183L.pdfPIP-Cascade controltraditional controlHVAC systemdisturbance rejection
collection DOAJ
language English
format Article
sources DOAJ
author Legweel Khaled M.B.
Lazić Dragan V.
Ristanović Milan R.
Lozanović-Šajić Jasmina V.
spellingShingle Legweel Khaled M.B.
Lazić Dragan V.
Ristanović Milan R.
Lozanović-Šajić Jasmina V.
The performance of pip-cascade controler in HVAC system
Thermal Science
PIP-Cascade control
traditional control
HVAC system
disturbance rejection
author_facet Legweel Khaled M.B.
Lazić Dragan V.
Ristanović Milan R.
Lozanović-Šajić Jasmina V.
author_sort Legweel Khaled M.B.
title The performance of pip-cascade controler in HVAC system
title_short The performance of pip-cascade controler in HVAC system
title_full The performance of pip-cascade controler in HVAC system
title_fullStr The performance of pip-cascade controler in HVAC system
title_full_unstemmed The performance of pip-cascade controler in HVAC system
title_sort performance of pip-cascade controler in hvac system
publisher VINCA Institute of Nuclear Sciences
series Thermal Science
issn 0354-9836
publishDate 2014-01-01
description Primitive controllers used in the early version for HVAC systems, like the on-off (Bang-Bang) controller, are inefficient, inaccurate, unstable, and suffer from high-level mechanical wear. On the other hand, other controllers like PI and cascade controllers, overcome these disadvantages but when an offset response (inaccurate response) occurs, power consumption will increase. In order to acquire better performance in the central air-conditioning system, PIP-cascade control is investigated in this paper and compared to the traditional PI and PID, in simulation of experimental data. The output of the system is predicted through disturbances. Based on the mathematical model of air-conditioning space, the simulations in this paper have found that the PIP-cascade controller has the capability of self-adapting to system changes and results in faster response and better performance.
topic PIP-Cascade control
traditional control
HVAC system
disturbance rejection
url http://www.doiserbia.nb.rs/img/doi/0354-9836/2014/0354-98361300183L.pdf
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