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Design and operational features of an active condensation system for enhanced energy efficiency in a biomass-fired district heating plant

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Title: Design and operational features of an active condensation system for enhanced energy efficiency in a biomass-fired district heating plant
Authors: Milan S. Marjanović, Rade M. Karamarković, Dušan M. Todorović, Marko O. Obradović, Aleksandar M. Jovović, Dejan B. Radić
Source: Case Studies in Thermal Engineering, Vol 62, Iss , Pp 105163- (2024)
Publisher Information: Elsevier, 2024.
Publication Year: 2024
Collection: LCC:Engineering (General). Civil engineering (General)
Subject Terms: Active condensation system, Energy efficiency, District heating, Biomass-fired boiler, Heat pump, Quench, Engineering (General). Civil engineering (General), TA1-2040
Description: The study addresses the design and operational features of an active condensation (AC) system aimed at improving the energy efficiency of a 3rd generation district heating (DH) plant. Several similar biomass-utilizing plants have recently been built in the Republic of Serbia. The plant is equipped with biomass-fired boilers totaling 2 MW capacity, utilizing varying qualities of wet wood chips. The goals are: (i) to determine optimal constant and variable quench temperatures; (ii) to calculate the electricity consumption of ancillary devices and assess their impact on AC system performance; (iii) to evaluate the effect of biomass moisture variations on system size and performance; (iv) to assess the economic viability of integrating the AC system; and (v) to establish selection and design criteria for the heat pump (HP). For a given commercial HP, an optimal quench temperature exists, dependent on the minimal temperature lift required by the HP. This temperature can be calculated simply by subtracting the minimal HP lift from the lowest possible temperature that the HP can supply to a DH system at the average outdoor temperature. Consequently, an optimal variable quench temperature exists that should be adjusted to enable the HP to operate with its minimal temperature lift.
Document Type: article
File Description: electronic resource
Language: English
ISSN: 2214-157X
Relation: http://www.sciencedirect.com/science/article/pii/S2214157X24011948; https://doaj.org/toc/2214-157X
DOI: 10.1016/j.csite.2024.105163
Access URL: https://doaj.org/article/8da797828b374f359b6eef60f08135dd
Accession Number: edsdoj.8da797828b374f359b6eef60f08135dd
Database: Directory of Open Access Journals
Description
Abstract:The study addresses the design and operational features of an active condensation (AC) system aimed at improving the energy efficiency of a 3rd generation district heating (DH) plant. Several similar biomass-utilizing plants have recently been built in the Republic of Serbia. The plant is equipped with biomass-fired boilers totaling 2 MW capacity, utilizing varying qualities of wet wood chips. The goals are: (i) to determine optimal constant and variable quench temperatures; (ii) to calculate the electricity consumption of ancillary devices and assess their impact on AC system performance; (iii) to evaluate the effect of biomass moisture variations on system size and performance; (iv) to assess the economic viability of integrating the AC system; and (v) to establish selection and design criteria for the heat pump (HP). For a given commercial HP, an optimal quench temperature exists, dependent on the minimal temperature lift required by the HP. This temperature can be calculated simply by subtracting the minimal HP lift from the lowest possible temperature that the HP can supply to a DH system at the average outdoor temperature. Consequently, an optimal variable quench temperature exists that should be adjusted to enable the HP to operate with its minimal temperature lift.
ISSN:2214157X
DOI:10.1016/j.csite.2024.105163