Economic feasibility of booster heat pumps in heat pump-based district heating systems

District heating and cooling (DHC), when combined with waste or renewable energy sources, is an environmentally sound alternative to individual heating and cooling systems in buildings. In this work, the theoretical energy and economic performances of a DHC network complemented by compression heat pump and sewage heat exchanger are assessed through dynamic, year-round energy simulations. The proposed system comprises also a water storage and a PV plant. The study stems from the operational experience on a DHC network in Budapest, in which a new sewage heat recovery system is in place and provided the experimental base for assessing main operational parameters of the sewage heat exchanger, like effectiveness, parasitic energy consumption and impact of cleaning. The energy and economic potential is explored for a commercial district in Italy. It is found that the overall seasonal COP and EER are 3.10 and 3.64, while the seasonal COP and EER of the heat pump alone achieve 3.74 and 4.03, respectively. The economic feasibility is investigated by means of the levelized cost of heating and cooling (LCOHC). With an overall LCOHC between 79.1 and 89.9 €/MWh, the proposed system can be an attractive solution with respect to individual heat pumps.

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Business and socioeconomic assessment of introducing heat pumps with heat storage in small-scale district heating systems

Renewable Energy ◽

10.1016/j.renene.2019.02.140 ◽

2019 ◽

Vol 139 ◽

pp. 904-914 ◽

Cited By ~ 17

Author(s):

Poul Alberg Østergaard ◽

Jan Jantzen ◽

Hannah Mareike Marczinkowski ◽

Michael Kristensen

Keyword(s):

Heat Storage ◽

District Heating ◽

Heat Pumps ◽

Small Scale ◽

Heating Systems ◽

District Heating Systems

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Future use of heat pumps in Swedish district heating systems: Short- and long-term impact of policy instruments and planned investments

Applied Energy ◽

10.1016/j.apenergy.2007.02.009 ◽

2007 ◽

Vol 84 (12) ◽

pp. 1240-1257 ◽

Cited By ~ 24

Author(s):

Marcus Eriksson ◽

Lennart Vamling

Keyword(s):

Policy Instruments ◽

District Heating ◽

Heat Pumps ◽

Heating Systems ◽

District Heating Systems ◽

Short And Long Term ◽

Long Term Impact

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Use of vertical geothermal heat exchanger with nanofluid for heat supply systems

E3S Web of Conferences ◽

10.1051/e3sconf/202128801089 ◽

2021 ◽

Vol 288 ◽

pp. 01089

Author(s):

Alexei Sednin ◽

Aliaksandr Mukhin ◽

Boris Balakin

Keyword(s):

Heat Exchanger ◽

District Heating ◽

Heat Pumps ◽

Working Fluid ◽

Geothermal Heat ◽

Heating Systems ◽

District Heating Systems ◽

Geothermal Heat Exchanger ◽

Double Pipe ◽

Supply Systems

Future district heating systems need to be more flexible and move towards a carbon-neutral generation. Compression heat pumps are foreseen to be promising future tools for district heating systems in EU countries. The paper presents the simulation data or a vertical double-pipe geothermal heat exchanger with ethylene glycol-Al2O3 as a working fluid. To simulate the operation of the heat exchanger, the STAR-CCM + CFD application was used. It has been determined the optimal volume particle concentrations of nanofluid and enhance of heat exchanger performance.

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Comparison of 4th and 5th generation district heating systems

E3S Web of Conferences ◽

10.1051/e3sconf/202124609004 ◽

2021 ◽

Vol 246 ◽

pp. 09004

Author(s):

Oddgeir Gudmundsson ◽

Anders Dyrelund ◽

Jan Eric Thorsen

Keyword(s):

District Heating ◽

Heating System ◽

Heat Pumps ◽

District Heating System ◽

Heating Systems ◽

District Energy ◽

District Heating Systems ◽

Operating Temperatures ◽

New Research ◽

Levelized Cost Of Heat

In a pursuit to increase the efficiency of district heating system there has been a continuous focus to reduce the system operating temperatures. This has led to the current state of the art district heating systems, commonly referred to as the 4th generation district heating, also known as low temperature district heating (LTDH). The success of the LTDH has fuelled a lot of research interest in district energy systems, one of the new research topics has been focusing on reducing the operating temperatures down to the ambient temperature (ATDH), commonly referred as 5th generation district heating. In these systems the supply temperature is insufficient for fulfilling the heating demands of the connected buildings, which then requires end-user located heat pumps to raise the supply temperature to the level required by the buildings. As of today, number of ATDH systems have been realized as part of various research projects. The question however remains if ATDH brings additional benefits compared to LTDH. This paper compares the levelized cost of heat from these two systems types for two countries with different climate zones. The results of the analysis indicate that LTDH is the favourable solution in both countries.

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