It is our goal to build an efficient and modern wastewater treatment plant of the 2020s that
Treats wastewater better
The resident-specific nutrient load on the Baltic Sea will be reduced from the current load. The goal is to remove from wastewater over 96% of the phosphorus and organic matter as well as over 90% of the nitrogen it contains.
The treatment goals are clearly stricter than the EU requirements and the recommendations of HELCOM (Helsinki Commission). Experiences, for example, from the Helsinki Viikinmäki treatment plant will help in reaching the challenging treatment goals cost-efficiently.
Operates reliably and safely
A large treatment plant operates more reliably than a small one because its overall management is better. Key factors in the reliability of the treatment plant include dimensioning the process while also keeping in mind maintenance situations, emergency equipment constantly on standby and ensuring the power supply. In a treatment plant excavated into bedrock, the temperature stays constant and working and maintenance conditions are better than at a plant under the open sky.
Great care will be put into the preparations for managing disturbances. Long wastewater transfer lines have their risks but these too have been taken into consideration in the plans. For example, wastewater can be temporarily dammed up in the long inlet tunnel leading to the treatment plant balancing the wastewater volume being treated at the plant and that enables stopping the treatment plant operations for maintenance. Treated wastewater will be led in the discharge tunnel first to Suomenoja and from there 7 km out to the sea. Also the reliability of the discharge tunnel will be improved.
Uses its own energy
The treatment plant produces heat energy above its own needs. Apart from the biogas power energy production, heat is recovered from treated wastewater, among others. Electricity produced from biogas generated in the anaerobic digestion facilities equates to more than the half of total electricity need of the plant. Heat generated by the electricity production and operations of large machines is recovered. It is used for instance for heating the sludge to be digested and supply air of the treatment plant.
Blends in with the surroundings
The treatment plant will be built mainly inside bedrock. The land area on top of the caves will remain unchanged for the most part. After the construction, the area can be utilised, just like today, as a green space and recreational area except for the treatment plant’s courtyard, which will be fenced in.
The treatment plant caves will be built so closely that its operations will not have any effect on the water economy of Teirinsuo or the adjacent nature conservation area. Smelling air of the treatment plant will be led via a tall chimney so high up in the outside air that it will not bother the area’s residents or people moving about in the recreational area. The machines of the plant are located indoors, mostly in the caves, so that they do not generate any noise to the surroundings.
We will invest in smooth traffic operations and in traffic safety both during and after the excavation. During the excavation, a maximum of approx. 250 loads of rock will be transported away from the caves per day. After the excavation, the volume of the site’s heavy traffic will decrease to about one tenth.
When the treatment plant is completed and in operation, a few heavy vehicles will cater the plant’s sludge and chemical transports during the day. A reception point for septic tank sludge has been planned in connection with the treatment plant because the smell of the sludge can be minimised very well at the plant. A few tanker-lorries per hour transporting septic tank sludge will drive in the area at the busiest times.