Abstract
This study proposes to use gas-fired boilers as peak shaving heat sources in heating substations due to their capability to increase the reliability, flexibility and heat capacity without the need to change the district heating network (DHN). However, the design and operational requirements with different connection modes for this kind of DH system are still not clear. This paper presents a systematic study on this kind of DH system, analyzes the connection modes of series and parallel connections between the gas-fired boilers and the heat exchangers. For each connection mode, we figured out the thermal balances and obtained the design and operational parameters including the supply temperatures of the heat exchangers, gas-fired boilers and their variations under different network temperature levels and the base load ratios (β). Under the series connection mode, the design supply temperature of the heat exchangers has no relation with the design peak shaving flow ratio (ω′); it decreases linearly along with smaller β, and the decreasing slope is higher with bigger temperature difference (Δt) of the DHN. However, the design supply temperatures of gas-fired boilers increase linearly when β and/or ω′ are smaller, and the increasing speed is proportional to Δt. For the parallel connection mode, the design supply temperatures of the heat exchangers and gas-fired boilers are all affected by β, ω′ and Δt. The former decreases when β and/or ω′ are smaller, while the latter increases at the same time. Finally, the design peak shaving flow ratio ω′ are determined for the peak boilers with series and parallel connection modes. The study provides a theoretical basis for the design and operation of the DH system with peak heating boilers in substations in order to reach a lower investment and higher efficiency.
Highlights
Nowadays, most of the district heating (DH) systems have multiple heat sources, including the base load heat sources, e.g., combined heat and power (CHP) plants or large heat only boilers (HOB), and the peak shaving heat sources located either in the base plant or in the heating substations
This paper mainly focuses on the combined DH system with peak shaving gas-fired boilers in heating substations
The peak shaving boilers are decentralized, they are connected to the DH system and different from the detached heating systems, which are often used in the areas where it is not economically feasible to connect to a district heating network (DHN)
Summary
Most of the district heating (DH) systems have multiple heat sources, including the base load heat sources, e.g., combined heat and power (CHP) plants or large heat only boilers (HOB), and the peak shaving heat sources located either in the base plant or in the heating substations. This paper mainly focuses on the combined DH system with peak shaving gas-fired boilers in heating substations. The peak shaving boilers are decentralized, they are connected to the DH system and different from the detached heating systems, which are often used in the areas where it is not economically feasible to connect to a district heating network (DHN). For a combined DH system, in the beginning and end of the heating season, the base load heat source provides the whole heat demand with high average efficiency and low operating cost; but during the cold period, when the base load heat production is insufficient, peak shaving heat sources will be operated [1] to satisfy the supply water temperature and heat demand
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