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Plug-N-Harvest

Plug-N-Harvest. WP 7 - Task 7.1 : Project overview ORGANIZATION: Certh PRESENTER(S ): DR . Iakovos michailidis MEETING: Kick-off Meeting, Aachen, 21 September 2017. Plug-N-Harvest: Contact Information. Cordis Europa URL: http://cordis.europa.eu/project/rcn/211287_en.html

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Plug-N-Harvest

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  1. Plug-N-Harvest WP7 - Task 7.1: Project overview ORGANIZATION: CerthPRESENTER(S): DR. IakovosmichailidisMEETING: Kick-off Meeting, Aachen, 21 September 2017 PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  2. Plug-N-Harvest: Contact Information Cordis Europa URL: http://cordis.europa.eu/project/rcn/211287_en.html Project Acronym : PLUG-N-HARVEST Project ID: 768735 Funded under: H2020-EU.2.1.5.2. - Technologies enabling energy-efficient systems and energy-efficient buildings with a low environmental impact Project Start Date: 1st of September 2017 Duration: 51 months PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  3. Plug-N-Harvest: Main Goal […] The strategic goal of PLUG-N-HARVEST is to deliver a modern building “coating” solution, deployable to almostany type of building, aiming at minimizing energy use and maximizing energy harvesting levels both at the single-building and the district scale. […] PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  4. Plug-N-Harvest: Current Practice • Conventional Retrofitting (CR): • High installation and re-construction costs. • High thermal insulation. • Building Automation (BA): • Complex Control: design of an energy-efficient control strategy is a complex task. • Poor Long-Term Performance: not able to self-tune and adapt the initially designed control strategy during operation. • Medium-Low installation costs. • Adaptable/Dynamic Building Envelope (ADBE): • Unable to self-coordinate and fully-exploit its assets in an intelligent and delicate manner. • Medium-Low installation costs: easy and modular replacement of part or the whole of the ADBE system. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  5. Plug-N-Harvest: At a glance • Design, develop, demonstrate and exploit an enhanced ADBE system presenting the following attributes: • Modular: Flexible, tile-based aluminium profile design together with platform agnostic S/W elements enableseamless hardware and software components management. • Plug-n-Play: Deployable to almost any conventional building design/ available BMS. • Scalable: Able to operate atsingle-building and district level. • Self-tuning: No need for highly skilled/paid experts for tuning the system operations. • Adaptive: Able to respond and adapt to highly stochastic incidents (changes due to weather, occupancy, failures, etc.). • Safe & Secure: privacy mechanisms for data collection in all data aggregations points, secure framework for protecting the infrastructure elements and data exchange from external attacks and possible threats through encrypted standard security practises. • Green and Viable: adopting circular economy principles, allowing new business models based on leasing and renting modes. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  6. Plug-N-Harvest: The Concept The foreseen architectural topology comprises 4 main functional layers according to their responsibilities and origin: • Adaptive Dynamic Building Envelope (ADBE): consisted by flexible aluminum façade design with high insulation layer and energy-harvest enabling elements, • Interconnected Elements Ecosystem (IEE): interconnection of existing and new sensing and controllable elements within a unified network, • Security and Safety Mechanisms (SSM): consisted by safety and security preserving elements forming an encrypted, ICT-based shield for the acceptable operation of the developed digital modules of PLUG-N-HARVEST, and; • Energy Management Systems (EMS): consisted by interoperable ICT-based energy management tools at building (IMCS) and district scale (DRFFO and OEMS), as discussed below. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  7. Plug-N-Harvest: The Concept – Layer 1: ADBE Layer 1 employs: • Modern, flexible construction specifications enabling its installation to pretty much any building’s architectural design – extends the existing building cell (envelope). • Construction outside of the existing building, which enables a refurbishment under operation of the building without any technical incidents. • Aluminum-based profile ensuring construction inexpensiveness, stability, solidity and lightness as well as mounting flexibility. • Off-the-shelf solar collectors, cooperating batteries and cooling/heating/ventilation units can be adjusted according to the building’s orientation, structural design and illumination needs. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  8. Plug-N-Harvest: The Concept – Layer 2: IEE Layer 2 employs: • on-frame mounted energy generation meter, • storing and consumption measurements, • indoor temperature sensor per thermal zone (e.g. apartment, office) and; • an energy-flow metering device for monitoring energy flows from the grid (in case where on-frame mounted HVACs exist). Note: All existing and additional infrastructure will be interconnected to a central control station at local level where Layer 3 and Layer 4 will be also hosted during the full building operation. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  9. Plug-N-Harvest: The Concept – Layer 3: SSM The 3rd layer employs ICT-based mechanisms ensuring: • operational safety, • secure communication, • different type and level of authorization, guaranteeing data is accessed only by certainly authorized legal entities. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  10. Plug-N-Harvest: The Concept – Layer 4: EMS The 4th layer comprises 3 cooperating ICT-based elements: • the Intelligent Management & Control System (IMCS): responsible for controlling and coordinating the energy use (flow) from the energy-generating, storing and consuming elements installed at a local building scale and; • the Optimal Energy Management System (OEMS) together with the Demand Response Flexibility Forecasting and Optimization Tool (DRFFO): responsible for orchestrating the energy use (flow) at a district level. PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  11. Plug-N-Harvest: BuildingUse Cases PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  12. Plug-N-Harvest: Work Progress – Current Situation ADBE & IEE, L: RWTH, KO1 L: AIGUASOL SSM & EMS, L: CERTH, KO2,3,4 L: ALUMIL, KO6 L: AIGUASOL, KO5 L: CERTH L: CERTH PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  13. Plug-N-Harvest: Work Progress – 1st Implementation Cycle ADBE & IEE, L: RWTH, KO1 L: AIGUASOL SSM & EMS, L: CERTH, KO2,3,4 1st Cycle M1-M18 L: ALUMIL, KO6 L: AIGUASOL, KO5 L: CERTH L: CERTH PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  14. Plug-N-Harvest: Work Progress – 2nd Implementation Cycle ADBE & IEE, L: RWTH, KO1 L: AIGUASOL SSM & EMS, L: CERTH, KO2,3,4 2nd Cycle M19-M39 L: ALUMIL, KO6 L: AIGUASOL, KO5 L: CERTH L: CERTH PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  15. Plug-N-Harvest: Work Progress – 3rd Implementation Cycle ADBE & IEE, L: RWTH, KO1 L: AIGUASOL SSM & EMS, L: CERTH, KO2,3,4 3rd Cycle M39-M51 L: ALUMIL, KO6 L: AIGUASOL, KO5 L: CERTH L: CERTH PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

  16. THANK YOU PLUG-N-HARVESTID: 768735 - H2020-EU.2.1.5.2.

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