Developing Cryogenic Energy Storage at Refrigerated Warehouses as an Interactive Hub to Integrate Renewable Energy in Industrial Food Refrigeration and to Enhance PowerGrid Sustainability

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Report on refrigerated food facility mapping

A survey will be developed to obtain information on large European refrigerated warehouses and food factories. The survey will be designed to be simple to complete in less than 5 minutes. The survey will collect information on: 1. Location of refrigerated warehouse or food factory. 2. Approximate size of refrigerated facilities. 3. The average and peak electrical input power to the facility. 4. Waste heat generation from the facility. 5. Whether renewable energy resources are currently installed on site. If so, their maximum capacity. 6. Whether RES could potentially be located on site. The survey will be electronic and translated from English into French, German, Spanish, Italian and Bulgarian. Information collected will be collated and displayed graphically using maps to show where in Europe the LAES could be directly applied currently.

CryoHub Risks Register Template

Setting-up of the risks register

Report on potential opportunities for Cryohub in Europe

Using information from WP2.1 and 2.2 it will be possible to identify where the CryoHub concept could be applied.

Energy profile report for EU member states

Report with analysis of EU member states’ energy supply profiles and carbon footprints; installed renewable energy supply and capacity and renewable energy economic, regulatory and policy drivers

Updated version of D10.2 - Report on policy recommendations that would maximise the benefits of CryoHub and similar projects

Assess the policy and regulatory barriers that could prevent the technology from being deployed (at EU and national level) How the technology, if deployed at scale, could impact other energy/food policy decisions NOTE - an interim version D10.2 was submitted in month 42, D10.4 is an updated version of D10.2.

Report of the potential benefits of CryoHub for grid balancing

Six (6) refrigerated warehouses or food factories will be used to generate case studies and cross-case comparisons which will identify the variability of potential benefits of CryoHub for grid balancing. Other benefits such as operational resilience, security, meeting carbon targets, will also be determined. The case studies will also identify barriers to implementation, including policy barriers. National differences will be highlighted.

Analysis of when and where integration of the technology would be most valuable for business and at the energy system level

Identify when and where LAES, combined with cold warehouse stores, should seek to be introduced to deliver maximum value to the operators and system Focus on analysis of four countries to represent diversity in energy systems, food distribution systems and geographic spread. How other countries may be similar to, or different from, these case studies will be described

Report on RES mapping

A further exercise carried out alongside 2.1 will be to map locations and power outputs of RES close to (less than 1 km) the refrigerated facilities.

CryoHub Quality Manual

Preparation of the CryoHub Quality Manual that will describe the management rules and procedures

Active role in engagement strategy to communicate the benefit of, and necessary policy improvements to further support, CryoHub

Set of policy recommendations which would enable the effective deployment of the technology, to benefit the economy and meet wider energy system/food supply goals

Contextual barriers and business strategy marketing and dissemination materials

Investigate alternative business strategies, models and concepts aimed at overcoming contextual barriers and increasing CryoHub market uptake and diffusion Market test alternative business strategies through discussion and focus groups at dissemination events in each participating project country Knowledge transfer to identify optimal means to disseminate outputs and to feed into marketing campaign

Report on policy recommendations that would maximise the benefits of CryoHub and similar projects

Assess the policy and regulatory barriers that could prevent the technology from being deployed (at EU and national level) How the technology, if deployed at scale, could impact other energy/food policy decisions

Academic article on the potential of CryoHub solution for grid balancing
Testing and optimisation report

Report on Cryohub testing and operation suggesting options/changes to further improve performance.

Report on the barriers to uptake of renewable and low carbon technologies

Review of relevant literature and research as it relates to organisational change related behaviours, socio-technical transitions and organisational responsiveness to the adoption of renewable energy and other low carbon and energy efficient technologies and practices especially where relevant to the cold storage and food manufacturing sectors

CryoHub tested

The LAES system will be checked against design performance predictions. If discrepancies are found, these will be investigated to see if the discrepancies are due to the system or predictive model.

CryoHub installed

The CryoHub components will be installed into the refrigerated warehouse/food production facility. Instrumentation will be installed, tested and checked

Project branding and identity

A project identity will be created (logo, PowerPoint presentation, project information brochure, posters and banners). The publicity information will be initially produced in English but will be translated into 5 languages (French, German, Spanish, Italian and Bulgarian)

Project website

A multilingual project website will be set up and linked to the partners’ websites

Workshops and Conferences

Conferences (at least 1 major and 4 mini) and workshops (at least 1 in each of the 5 main countries) will be organised

Press Releases

Press releases adapted to the targeted audience will be issued in scientific and trade press, including consumer magazines and organisation It is anticipated to have the first press release at the end of the 1st year and subsequently to have at least 2 press releases per country per year

Publication

Each partner will publish articles in trade press in each partner country to publicise work and recruit companies to be a member of the stakeholders group The academic partners will all contribute to articles to be published in peer reviewed scientific journals (all open access)

Newsletters

Throughout the project, an electronic newsletter will be issued every 6 months to disseminate the results to industry, trade bodies and policy makers. It will be initially produced in English but will be translated into 5 languages (French, German, Spanish, Italian and Bulgarian)

Publications

Cryogenic heat exchangers for process cooling and renewable energy storage: A review

Auteurs: Dimityr Popov, Kostadin Fikiin, Borislav Stankov, Graciela Alvarez, Mohammed Youbi-Idrissi, Alain Damas, Judith Evans, Tim Brown
Publié dans: Applied Thermal Engineering, Numéro 153, 2019, Page(s) 275-290, ISSN 1359-4311
Éditeur: Pergamon Press Ltd.
DOI: 10.1016/j.applthermaleng.2019.02.106

Liquid Air Energy Storage (LAES) as a large-scale storage technology for renewable energy integration – A review of investigation studies and near perspectives of LAES

Auteurs: Cyrine Damak, Denis Leducq, Hong Minh Hoang, Daniele Negro, Anthony Delahaye
Publié dans: International Journal of Refrigeration, Numéro 110, 2020, Page(s) 208-218, ISSN 0140-7007
Éditeur: Elsevier BV
DOI: 10.1016/j.ijrefrig.2019.11.009

Multipurpose System for Cryogenic Energy Storage and Tri-Generation in a Food Factory: A Case Study of Producing Frozen French Fries

Auteurs: Dimityr Popov, Stepan Akterian, Kostadin Fikiin, Borislav Stankov
Publié dans: Applied Sciences, Numéro 11/17, 2021, Page(s) 7882, ISSN 2076-3417
Éditeur: Applied Sciences
DOI: 10.3390/app11177882

Cryogenic energy storage for renewable refrigeration and power supply

Auteurs: Kostadin Fikiin, Borislav Stankov
Publié dans: Food Processing Industry magazine, Numéro 7, 2018, Page(s) 31-36, ISSN 1311-0179
Éditeur: FPI Publishing House

Refrigerated warehouses as intelligent hubs to integrate renewable energy in industrial food refrigeration and to enhance power grid sustainability

Auteurs: Kostadin Fikiin, Borislav Stankov, Judith Evans, Graeme Maidment, Alan Foster, Tim Brown, Jonathan Radcliffe, Mohammed Youbi-Idrissi, Adrian Alford, Liz Varga, Graciela Alvarez, Ivan Evg. Ivanov, Carole Bond, Ina Colombo, Gabriel Garcia-Naveda, Ivaylo Ivanov, Kazuhiro Hattori, Daisuke Umeki, Tsvetan Bojkov, Nikola Kaloyanov
Publié dans: Trends in Food Science & Technology, Numéro 60, 2017, Page(s) 96-103, ISSN 0924-2244
Éditeur: Elsevier BV
DOI: 10.1016/j.tifs.2016.11.011

Analysis of when and where the integration of LAES with refrigerated warehouses could provide the greatest value to Europe

Auteurs: Daniel Murrant, Jonathan Radcliffe
Publié dans: Energy Procedia, Numéro 151, 2018, Page(s) 144-149, ISSN 1876-6102
Éditeur: Elsevier Ltd.
DOI: 10.1016/j.egypro.2018.09.039

Dynamic energy model of a refrigerated warehouse operating synergistically with a cryogenic energy storage system

Auteurs: Stankov B., Fikiin K., Garcia G., Kalms A., Estevez M., Garde R.
Publié dans: 25th IIR International Congress of Refrigeration (ICR2019), 2019, Page(s) 3558-3565, ISBN 978-2-36215-035-7
Éditeur: International Institute of Refrigeration
DOI: 10.18462/iir.icr.2019.1794

Modelling and simulation of the thermal behaviour of a refrigerated warehouse in dynamic operation mode

Auteurs: Borislav Stankov, Kostadin Fikiin
Publié dans: 23rd Scientific Conference FPEPM-2018, 2018
Éditeur: Technical University of Sofia
DOI: 10.13140/rg.2.2.32673.33126

Europe-wide energy mapping and co-locating of large refrigerated warehouses with renewable resources as key enablers for cryogenic energy storage

Auteurs: Kostadin Fikiin
Publié dans: Congreso de Ciencias y Técnicas del Frío (CYTEF2020), 2020, Page(s) 103
Éditeur: Public University of Navarra
DOI: 10.13140/rg.2.2.33030.29763

Energy mapping of large refrigerated warehouses co-located with renewable energy sources across Europe

Auteurs: Fikiin K., Mazzucchelli P., Foster A., Evans J., Akterian S., Alvarez G., Leducq D., Hoang M., Garcia, G., Varga L., Truckell I., Brown T., Colombo I.
Publié dans: 25th IIR International Congress of Refrigeration (ICR2019), 2019, Page(s) 3550-3557, ISBN 978-2-36215-035-7
Éditeur: International Institute of Refrigeration
DOI: 10.18462/iir.icr.2019.1790

Financial viability of liquid air energy storage applied to cold storage warehouses

Auteurs: Foster A., Negro D., Varga L., Hu Y., Fikiin K., Evans J.
Publié dans: 5th IIR International Conference on Sustainability and the Cold Chain, Beijing, China, 2018, ISSN 0151-1637
Éditeur: International Institute of Refrigeration
DOI: 10.18462/iir.iccc.2018.0067

Model-based study of transient operation modes of a series of turbogenerators in a cryogenic energy storage system

Auteurs: Dimityr Popov, Kostadin Fikiin, Borislav Stankov
Publié dans: 23rd Scientific Conference FPEPM-2018, 2018
Éditeur: Technical University of Sofia
DOI: 10.13140/rg.2.2.15896.11528

Cryogenic energy storage for renewable refrigeration and power supply

Auteurs: Kostadin Fikiin, Borislav Stankov
Publié dans: 22nd Scientific Conference FPEPM-2017, 2017
Éditeur: Technical University of Sofia
DOI: 10.13140/rg.2.2.36028.77445

Modelling of liquid air energy storage applied to refrigerated cold stores

Auteurs: Daniele Negro, Tim Brown, Alan M. Foster, Alain Damas, Jorge Ernesto Tovar Ramos, Judith A. Evans
Publié dans: 5th IIR International Conference on Sustainability and the Cold Chain, 2018, Page(s) 206-215, ISBN 978-2-36215-024-1
Éditeur: International Institute of Refrigeration
DOI: 10.18462/iir.iccc.2018.0027

Cryogenic energy storage systems as a synergistic contributor to the cooling and heating supply of a refrigerated warehouse or food factory

Auteurs: Popov D., Fikiin K., Stankov B., Zlateva M.
Publié dans: 6th IIR International Conference on Sustainability and the Cold Chain, 2020, ISBN 978-2-36215-036-4
Éditeur: International Institute of Refrigeration
DOI: 10.18462/iir.iccc.2020.298915

Small-scale demonstrator of a cold thermal store for liquid air energy storage

Auteurs: Damas A., Negro D., Leducq D., Dallais A., Alvarez G., Brown T., Evans J., Foster A.
Publié dans: 6th IIR Conference on Sustainability and the Cold Chain, 2020, ISBN 978-2-36215-036-4
Éditeur: International Institute of Refrigeration
DOI: 10.18462/iir.iccc.2020.295155

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