1. i Goal Rimco Veenje Laura Pinter Antti Pietiläinen Antoine Marisael Francois Kaltenbach Maria Teresa Fronterotta Hans De Vries

2. The Concept Self sustainable Energy Food Own solid waste processing Own wastewater processing

8. WASTE in Finland 522 kg/ab y x 1.400 ab = 731 ton/y

9. PLASTIC, PAPER…. BIOLOGICAL WASTE WASTE RYCICLE

10. Farm Cogeneration Farm BIOLOGICAL (ORGANIC) WASTE

11. + District heating Cogeneration Biogas producted by organic waste and wastewater treatment BIOLOGICAL (ORGANIC) WASTE

12. Waste water treatment Waste water produced: 64000 m 3 /a The two caverns can be used as water treatment plant ◦ Sedimentation clarificatrion ◦ Nitrification-denitrification process Anaerobic treatment of sludge ◦ Methane used in electricity and heat generation

13. Cogeneration system

14. Reducing energy consumption Keycards Wall panels Common wood fired saunas Efficient lighting Common freezer areas Common laundry/drying rooms Up to 45 % reduction

15. Energy production WindSide turbines on the roofs and by the shoreline PV panels and windows Thermoelectricity Methane combustion Floor tiles Smart grid

16. o Any hot water that goes down the drain carries away energy with it. That's typically 80–90% of the energy used to heat water in a home. Waste water heat recovery systems capture this energy to heat cold water entering the water heater or going to other water fixtures. o Drain-water heat exchangers can recover heat from the hot water used in showers, sinks, dishwashers, and clothes washers. They generally have the ability to store recovered heat for later use. o The waste water maintains a temperature between 10 and 20°C in the lines, whatever the season.

19. o Hot water quickly o No waste water Advantages