BRINGING ADVANCED HEAT BATTERIES IN RESIDENTIAL HEAT AND ELECTRIC SYSTEMS CLOSER TO MARKET THROUGH REAL LIFE DEMONSTRATION IN DIFFERENT CLIMATES

Interim Dissemination Activity Report. P2 (s’ouvre dans une nouvelle fenêtre)

This report will show all the dissemination of the second period Including the attention generated in the scientific community and to increase awerness over the developed technology from the pubblic opionion

Innovation Workshop - 1 (s’ouvre dans une nouvelle fenêtre)

This deliverable will report on an organized Innovation Workshop open to all kind of stakeholders. TNO and CEA, supported by Accelopment, will organise two innovation workshops to present the findings of the initial system definition and requirements (WP2) to end-user organisations and and to stakeholders in the field of heat storage.

Preliminary user requirements, stakeholder mapping (s’ouvre dans une nouvelle fenêtre)

In this deliverable a preliminary user requirements analysis and a stakeholders map will be done. In particular, ACC will execute a stakeholder mapping based on partners input, desktop search and publicly available information to identify and evaluate the different users of the HEAT-INSYDE technologies. These include house owner, housing co-operatives, heat energy distributors, industrial users, municipality and other public organizations. - The consortium will evaluate the requirements of the various users to optimize their utility and needs which will be taken into account in WP2. Interviews of commercial and industrial stakeholders as well as of policy and decision makers will help to establish a position for reimbursement/incentives under EU regulations. - The consortium will evaluate requirements and possible concerns of users regarding safety of operation and guaranties of lifetime expectations as well as end-of-life scenarios and recycling/disposal. - ACC will use the findings from the stakeholder mapping to adapt the project communication strategy and measures of WP8 and thereby strengthen the user awareness raising.

Project Website (s’ouvre dans une nouvelle fenêtre)

The target of this deliverable is to create a website for the project in the frst 2 months to ensure visibility from the beginning of the project. The project website will contain a public and a private area. The publicly accessible pages will disseminate project results and inform all stakeholder groups on topics relevant to the HEAT-INSYDE project. The private area will be restricted to the consortium through which project partners can share and disseminate research related knowledge and data. While Accelopment will be in charge for the technical maintenance and development of the website, all partners will contribute to its contents. A short video on the HEAT-INSYDE solution and an infographic illustrating facts and figures on the Energy Industry will be created by Accelopment, assisted by TNO’s communication unit, and published on the project website, YouTube and other social media platforms. Moreover, Accelopment will develop, with the input from partners, and disseminate 6-monthly newsletters via its own network and the partners` network, each one dealing with specific topics closely related to the HEAT-INSYDE project and outcomes.

Preliminary PESTLE Analysis (s’ouvre dans une nouvelle fenêtre)

The task leader with the support of all WP leaders will identify adoption barriers for the involved stakeholders (house owners, housing co-operatives, heat energy distributors, industrial users, municipality and other public organizations) and develop strategies to overcome these barriers by drawing a preliminary PESTLE (Political Economical Social Technological Legal Environmental) analysis to assess and monitor the factors that could have an impact on the HEAT-INSYDE project and technologies.

Interim Dissemination Activity Report. P3 (s’ouvre dans une nouvelle fenêtre)

This report will show all the dissemination of the third period. Including the attention generated in the scientific community and to increase awerness over the developed technology from the pubblic opionion.

User requirements, stakeholder mapping (s’ouvre dans une nouvelle fenêtre)

In this report a complete overview or the user requirements, including possible concerns of users regarding safety of operation and guaranties of lifetime expectations as well as end-of-life scenarios and recycling/disposal, will be given.Moreover, a comprehensive map of the stakeholders of heat-storing systems will be created, combining the findings of D1.1 and of the PESTLE analysis.

Interim Dissemination Activity Report. P1 (s’ouvre dans une nouvelle fenêtre)

This report will show all the dissemination of the first period Including the attention generated in the scientific community and to increase awerness over the developed technology from the pubblic opionion

Innovation Workshop - 2 (s’ouvre dans une nouvelle fenêtre)

This deliverable will report on an organized Innovation Workshop open to all kind of stakeholders of the projectTNO and CEA supported by Accelopment will organise two innovation workshops to present the findings of the initial system definition and requirements WP2 to enduser organisations and and to stakeholders in the field of heat storage

Final PESTLE Analysis (s’ouvre dans une nouvelle fenêtre)

The preliminary PESTLE analysis developed in deliverable D1.2 will be enforced with an analysis of the current legislative framework of reference for the proposed heat storage system, with the aim of identifying eventual gaps in legislation, therefore addressing policy aspects by developing policy recommendations aimed at stimulating take up of heat storage solutions by the market.The key findings of the PESTLE analysis will be used to define the “Opportunities” and “Threats” of the SWOT analysis to be undertaken as part of WP8.

Technical description of each demonstration site, boundary conditions (s’ouvre dans une nouvelle fenêtre)

The HEAT-INSYDE project aims to offer demonstration sites in 3 different European climates: 1. Multiple single family houses (privately owned and social houses) in Eindhoven (NL) by TRU and EHV. 2. Single family house in Gdansk (Poland) by FAS. 3. Single family house in Saint Paul Lès Durance (France) by CEA and VAS. In this deliverables a technical description of each demonstration site, boundary conditions will be provided. The overall architecture of the demonstration site will be defined together, with its energy management system. This will define how the heat battery physically connects to the heat distribution (space heating, domestic hot water tank), to the available energy sources (solar, low/mild temperature heat), and to the existing heating equipment (heat pump, gas furnace…).

Communication and Dissemination Plan (CDP) (s’ouvre dans une nouvelle fenêtre)

Accelopment will set up a comprehensive CDP with the support of all partners and particular input from TNO and TU/e. The CDP will identify dissemination tools and channels, define target groups and key message to disseminate as well as key measures to be implemented.

Delivery of UOP for emulator tests (s’ouvre dans une nouvelle fenêtre)

The real-size closed loop system and other components for the storage system (UOP) for emulator will be delivered. The system contains 1 m3 of storage material.This real-size module has a design based on demo version of TNO/TUE for emulator tests. The baseline is to develop transportable modules that enable easy transportation and installation in existing buildings.To deliver the UOP module it will be necessary to:- assess and advice on installation aspect of the real-size modules;- define the filling and commissioning procedures;- produce fabrication drawings of components and modules;- ordering and pre-fabrication of components and modules;- manufacturing and installation of sensors in storage modules;- specify the commissioning tests for dedicated components, storage modules and control.

Delivery of URP-v2 at DEMO locations (s’ouvre dans une nouvelle fenêtre)

Delivery of URP-v2 at DEMO locations by upscaled production of closed loop system with 1 m3 of TCM.3 demo-versions of the URP system adapted to the specific needs of the test location will be delivered.

Delivery of URP-v1 for emulator tests (s’ouvre dans une nouvelle fenêtre)

The goal of this deliverable is to complete the URP-v1 for emulator tests.A real-size module design using output from WP3, 4 and task 5.2 will be created.The baseline is to develop transportable modules that enable easy transportation and installation in existing buildings.Moreover, it will be:- assess and advice on installation aspect of the real-size modules;- define the filling and commissioning procedures;- produce fabricate drawings of components and modules;- order and pre-fabricate the components and modules;- manufacture and install sensors in storage modules;- specify the commissioning tests for dedicated components, storage modules and control (based on WP 6).

0,2 m3 uncoated TCM material for tests in WP 4 (s’ouvre dans une nouvelle fenêtre)

CAL will produce 0,2 m3 of uncoated TCM material for tests in WP 4, based on the K2CO3 supplied by EPM. K2CO3 is selected as starting material, and compaction as the method for TCM.

1 m3 uncoated TCM material for emulation at CEA (s’ouvre dans une nouvelle fenêtre)

EPM will produce 1 m3 of base material (K2CO3) of uncoated TCM material for emulation at CEA.CAL will manipulate (compact) the base material in grains, which can be used in the emulation tests. The grains will have >1 mm diameter, the bulk density >1.4 kg/dm3 and will be delivered in hydrated state.

Installation and commissioning (s’ouvre dans une nouvelle fenêtre)

The first aim of this deliverable is to install the HEAT-INSYDE heat battery in each demonstration site with its advanced monitoring system. On-site delivery, installation and commissioning are arranged by the responsible of each demonstration site.Monitoring instrumentation will be selected and validated, so that selected KPI can be calculated based on the specific location. The monitoring process will be supervised, data will be regularly checked during the demonstration campaign and KPI will be analyzed continuously.For each demonstration site, the main outcomes of this task is a performance report of the energy system during a full season. KPI measured levels will be compared to expected energy consumption reduction goals with respect to a reference case built upon local site pre-existing equipment.