Techno-economics of solar re-powering and retro-fitting an existing district heating network
Artikel i vetenskaplig tidskrift, 2024

Most of the district heating systems today use higher operating temperatures than those in new-built systems, possibly limiting compatibility with solar energy. This study evaluates the cost-effectiveness in terms of unit heat cost of integrating solar heating into an existing district heating system compared to not using solar energy, under changing economic boundary conditions such as collector and fuel cost, in addition to discount rate. This is investigated for both a scenario where the solar heating and a boiler replacement is done concurrently, as well as a scenario where solar heating is added to an existing system without replacing the boiler. A theoretical district heating supply of 3 MW is modelled and simulated based on a real system and load profile. The heat supply is varied to include storage with or without solar heating. Results for a 3 % discount rate indicate that; Replacing a 3 MW boiler with a slightly smaller boiler of 2.5 MW and adding a storage is cost effective and yields a unit heat cost of 58.0 EUR/MWh (16.1 EUR/TJ) which is a reduction of about 6 %. Installing solar heating together with the boiler replacement yields a unit heat cost as low as 55.7 EUR/MWh (15.4 EUR/GJ) which is a reduction of about 8 %. When replacing the boiler, all system configurations have similar unit heat costs compared to a boiler-only system, so factors such as emission reductions due to solar heating are relevant when considering alternatives. Furthermore, adding solar flat plate collectors corresponding to a 13 % solar fraction without replacing the boiler can reduce the unit heat cost as low as 34.8 EUR/MWh (9.7 EUR/TJ), which is 32 % lower than without solar. Evacuated tube collectors can increase this solar fraction to 17 % with similar system size, although at a higher cost. At a discount rate of 5 % solar heating is cost-competitive when fuel cost is above 26 EUR/MWh (7.2 EUR/TJ) and at 7 % competitive when fuel cost is above 32 EUR/MWh (8.9 EUR/TJ). Increasing solar heating system size reduces the backup-boiler fuel use during summer maintenance and makes fuel type less relevant for the overall unit heat cost.

Retro-fit

Biomass

Solar heat

District heating

Heat storage

Cost-effective

Författare

Martin Andersen

Högskolan i Dalarna

Chalmers, Arkitektur och samhällsbyggnadsteknik, Installationsteknik

Chris Bales

Högskolan i Dalarna

Jan-Olof Dalenbäck

Chalmers, Arkitektur och samhällsbyggnadsteknik, Installationsteknik

Energy Conversion and Management: X

25901745 (eISSN)

Vol. 24 100799

Ämneskategorier

Energiteknik

Övrig annan teknik

DOI

10.1016/j.ecmx.2024.100799

Relaterade dataset

Data for article: Techno-economics of solar re-powering and retro-fitting an existing district heating network [dataset]

DOI: 10.17632/3wgwscbs2y.1

Mer information

Senast uppdaterat

2024-12-16