Excess heat from hospital chillers in Viborg, Denmark

This case study is part of a project catalogue produced by ReUseHeat to inspire how to utilize excess heat from urban sources for heating and cooling purposes. The catalogue contains 25 existing or planned projects, 12 of which are Danish and 13 from other European countries.

Description

A heat pump solution at the Regional hospital in Viborg will utilize excess heat from chillers and distribute it to the local district heating network. This will harvest large amounts of unused energy from the hospital dry chillers.

The project comprises a new heating distribution system for the Regional hospital in Viborg. Excess heat from the dry-cooling process is enhanced through heat pumps to deliver district heating to the local district heating company, Viborg Fjernvarme. Thus, the existing steam boilers can be decommissioned.

The hospital's cooling needs not only fluctuate annually but also with hour-to-hour variations within a single day. Reusing some of this unused heating internally at the hospital in Viborg is possible, and excess heat will not be delivered during winter. The excess heat is accordingly available from April until the beginning of November. The heating potential is 4700 MWh annually, the majority of which is in the three hottest months: June, July and August. During the daytime, the excess heating capacity reaches approximately 3 MW while it drops to, or close to, zero at night. The operation hours will be limited to specific periods of the year. There are, however, no problems with heat allocation, as the heat demand in Viborg is sufficient during summer.

The cooling water is 43 degrees Celsius when it reaches the heat pumps and 36 degrees Celsius when it returns to the cooling unit. With district heating temperatures increasing from 40 to 65 degrees Celsius, the COP is very high. At the given temperatures and operation conditions, the cooling capacity of one heat pump is approximately 1 MW. Calculations on the optimal heat pump system show, that two heat pumps can utilize 87% of the total excess heat. The result is that a COP of 7.9 is reached.

The two heat pumps reach a high utilization ratio and a low electricity consumption. The total cooling capacity of the system is approximately 2 MW, while the heating capacity is approximately 2.5 MW. The heat pumps can cover the main cooling needs during summer. However, the existing dry-cooling system still needs to supply cooling peaks. The two heat pumps are serially connected to the district heating grid, increasing the temperature in two stages from 40 to 53 degrees Celsius and from 53 to 65 degrees Celsius.

The total investment costs are expected to be approximately € 1.0 M, of which € 537,000 are for the heat pump facility. Other costs include buildings, district heating connections, and electricity connections. The total heat cost is expected to be € 28 per MWh of heat, which is low compared to other heating production units. Of this, the majority is capital investment costs and expenses for electricity consumption.

Viborg, Denmark, ReUseHeat, Project began in 2017, IVL Swedish Environmental Research Institute

External links:

The Regional hospital in Viborg, Planenergi/Viborg Fjernvarme, Handbook – 25 cases of urban waste heat recovery