Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems

Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems

This paper presents a method for evaluating the energy efficiency of pump systems used to transport fluids .It is mainly scientifically applied and engineering-applied in nature and aims to propose a new approach (method) to researchers in their study of the energy efficiency of such systems. By app...

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Main Authors: Gencho Popov, Stanislaw Legutko, Kliment Klimentov, Boris Kostov
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Energies
Subjects:
pump systems
dimensional analysis
energy efficiency
flow rate regulation
Online Access:https://www.mdpi.com/1996-1073/14/17/5256
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spelling doaj-ef36537c3d864664b0bd1b517bf086662021-09-09T13:42:41ZengMDPI AGEnergies1996-10732021-08-01145256525610.3390/en14175256Applying Criteria Equations in Studying the Energy Efficiency of Pump SystemsGencho Popov0Stanislaw Legutko1Kliment Klimentov2Boris Kostov3Department of Heat, Hydraulics and Environmental Engineering, University of Ruse “Angel Kanchev”, 8 Studentska Street, 7017 Ruse, BulgariaFaculty of Mechanical Engineering, Poznan University of Technology, 3 Piotrowo Street, 60-965 Poznan, PolandDepartment of Heat, Hydraulics and Environmental Engineering, University of Ruse “Angel Kanchev”, 8 Studentska Street, 7017 Ruse, BulgariaDepartment of Heat, Hydraulics and Environmental Engineering, University of Ruse “Angel Kanchev”, 8 Studentska Street, 7017 Ruse, BulgariaThis paper presents a method for evaluating the energy efficiency of pump systems used to transport fluids .It is mainly scientifically applied and engineering-applied in nature and aims to propose a new approach (method) to researchers in their study of the energy efficiency of such systems. By applying the well-known scientific method of Dimensional Analysis (Buckingham π-theorem), dimensionless complexes (π-criterions and their relevant equations, which are original (innovative) and are offered for the first time in the scientific literature), used in accomplishing an energy assessment and analysis of such systems, are obtained. The criterion ∏<sub>1</sub> = e<sub>v</sub>/ρgD represents specific energy consumption in kWh/m<sup>3</sup> for a given pipe system with an exemplary diameter D. The criterion ∏<sub>2</sub> = Q/[n(H<sub>p</sub> − H<sub>st</sub>)D<sub>2</sub>] represents a generalized parameter which is characterized by the selected method of flow rate (Q) regulation for a pump system with given static head H<sub>st</sub>—by changing the speed of rotation (VFD, Variable Frequency Drive), by throttling, leading to an increase of the system hydraulic losses h<sub>v</sub> = (H<sub>p</sub>H<sub>st</sub>) or by diverting a part of the flow, known as “by-pass”, where the pump operates with the required system head H<sub>p</sub>, but ensures higher flow rates, i.e., Q<sub>p</sub> > Q<sub>s</sub>. The flow rate criterion ∏<sub>3</sub> = Q/(νD) characterizes the flow rate for a pipe system with an exemplary diameter D, used to transport a liquid with known viscosity ν. An example for applying these dimensionless complexes in accomplishing a quantitative evaluation of the energy efficiency of a given pump system is presented. A method for determining the main parameters forming these criterions, used to describe the different methods of flow rate regulation, has been developed. To demonstrate the application of this method, newly proposed by the authors, including obtaining the relevant criteria equations of the type ∏<sub>1</sub> = f(∏<sub>2</sub>, ∏<sub>3</sub>), a certain pump system was used. This original approach for studying pump systems used to transport fluids can be used both to accomplish an energy analysis of such systems as well as to solve for optimization or other engineering problems.https://www.mdpi.com/1996-1073/14/17/5256pump systemsdimensional analysisenergy efficiencyflow rate regulation
collection DOAJ
language English
format Article
sources DOAJ
author Gencho Popov
Stanislaw Legutko
Kliment Klimentov
Boris Kostov
spellingShingle Gencho Popov
Stanislaw Legutko
Kliment Klimentov
Boris Kostov
Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems
Energies
pump systems
dimensional analysis
energy efficiency
flow rate regulation
author_facet Gencho Popov
Stanislaw Legutko
Kliment Klimentov
Boris Kostov
author_sort Gencho Popov
title Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems
title_short Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems
title_full Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems
title_fullStr Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems
title_full_unstemmed Applying Criteria Equations in Studying the Energy Efficiency of Pump Systems
title_sort applying criteria equations in studying the energy efficiency of pump systems
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-08-01
description This paper presents a method for evaluating the energy efficiency of pump systems used to transport fluids .It is mainly scientifically applied and engineering-applied in nature and aims to propose a new approach (method) to researchers in their study of the energy efficiency of such systems. By applying the well-known scientific method of Dimensional Analysis (Buckingham π-theorem), dimensionless complexes (π-criterions and their relevant equations, which are original (innovative) and are offered for the first time in the scientific literature), used in accomplishing an energy assessment and analysis of such systems, are obtained. The criterion ∏<sub>1</sub> = e<sub>v</sub>/ρgD represents specific energy consumption in kWh/m<sup>3</sup> for a given pipe system with an exemplary diameter D. The criterion ∏<sub>2</sub> = Q/[n(H<sub>p</sub> − H<sub>st</sub>)D<sub>2</sub>] represents a generalized parameter which is characterized by the selected method of flow rate (Q) regulation for a pump system with given static head H<sub>st</sub>—by changing the speed of rotation (VFD, Variable Frequency Drive), by throttling, leading to an increase of the system hydraulic losses h<sub>v</sub> = (H<sub>p</sub>H<sub>st</sub>) or by diverting a part of the flow, known as “by-pass”, where the pump operates with the required system head H<sub>p</sub>, but ensures higher flow rates, i.e., Q<sub>p</sub> > Q<sub>s</sub>. The flow rate criterion ∏<sub>3</sub> = Q/(νD) characterizes the flow rate for a pipe system with an exemplary diameter D, used to transport a liquid with known viscosity ν. An example for applying these dimensionless complexes in accomplishing a quantitative evaluation of the energy efficiency of a given pump system is presented. A method for determining the main parameters forming these criterions, used to describe the different methods of flow rate regulation, has been developed. To demonstrate the application of this method, newly proposed by the authors, including obtaining the relevant criteria equations of the type ∏<sub>1</sub> = f(∏<sub>2</sub>, ∏<sub>3</sub>), a certain pump system was used. This original approach for studying pump systems used to transport fluids can be used both to accomplish an energy analysis of such systems as well as to solve for optimization or other engineering problems.
topic pump systems
dimensional analysis
energy efficiency
flow rate regulation
url https://www.mdpi.com/1996-1073/14/17/5256
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