| No | Deliverable | Status | Link |
| D3.1.1 | Report describing the feasibility of heat recovery from waste water, PVT and heat storage in multi-family buildings and recommendations for demonstration including final design notes | Completed | Public |
| D3.1.2 | Report on feasibility of the investigated technologies for utilising surplus heat from industry | Completed | Restricted |
| D3.1.3 | Design note for implementing ORC technology | Complteted | Restricted |
| D3.2.1 | Report with design notes on low-temperature district heating consumer substations for demonstration in multi- and single-family buildings | Completed | Restricted |
| D3.2.2 | Report describing energy system benefits of low-temperature district heating | Completed | Restricted |
| D3.3.1 | Guidelines for smart metering implementation and data collection for use in DH system optimization | Completed | Public |
| D3.3.2 | Documentation of model development for optimised DH network operation based on smart metering data | Completed | Restricted |
| D3.4.1 | Report with design notes and analysis of District Cooling (DC) demonstration projects in Växjö | Completed | Restricted |
| D3.4.2 | Report describing the innovative solutions for DC developed and proposed for the district in Aarhus | Completed | Restricted |
| D3.4.3 | Report describing the dissemination case study featuring the city of Kaunas | Completed | Restricted |
| D.3.5.1 | Report describing the outcome of task 3.4.1-3.4.3 in relation to analysis of innovation level and suggestions for improvements in demonstration projects | Completed | Restricted |
| D3.5.2 | Report describing the concept for holistic design of integrated energy systems for high performance-energy districts | Completed | Restricted |
| D3.5.3 | Report describing the replication pilot for holistic design of integrated energy systems in Kaunas | Completed | Restricted |
| D3.5.4 | Ph.D. thesis on pricing | Completed | Public |
| D3.5.6 | Ph.D. thesis on optimization of building retrofit in an integrated energy system based on renewable energy | Completed | Public |
| D3.5.5 | Ph.D. thesis on consumer incitements to be flexible in consumption patterns and the consequence of this on future renewable energy-based supply systems. | Completed | Public |
