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OPTiOptimisation of District Heating  Cooling systems

OPTiOptimisation of District Heating Cooling systems

Objective

“With a user-centric design, we will contribute to next-generation District Heating & Cooling systems”

The OPTi project aspires to create a long-lasting impact by rethinking the way DHC systems are architected and controlled. The overarching goal is to create business benefit for the industry as well as to ensure optimal end-consumer satisfaction.
OPTi will deliver methodologies and tools that will enable accurate modelling, analysis and control of current and envisioned DHC systems. The methodology will be deployed both on a complete system level, and on the level of a building(s).
OPTi will treat the DHC system as a system subject to dynamic control, and will treat thermal energy as a resource to be controlled for DHC systems towards saving energy and reducing peak loads. This will lead to the most environmentally-friendly way of utilizing energy sources, thus reducing the reliance on additional boilers running on oil and/or electricity and overall providing a socio-economically sustainable environment.

OPTi will help energy companies to operate both today’s and future DHC systems in an optimal way:
• System level: We envision opportunities for SMEs to provide new services/solutions
• House level: More intelligent home DHC control systems like remote control and the consumer “virtual knob” (
• General: We foresee that the OPTi framework will enable engineers to design and plan DHC

Luleå Energi AB invests 45 MEUR (2014-2018) in their DHC to meet the requirements from the expanding Luleå City. This will enhance the system and allow for new solutions to be deployed and is directly beneficial for this project.
• Saving 30% of energy for water and heating on a system level
• Saving 30-40% of peak consumption on houses/clusters of houses
• Promote ways of operating today’s and future DH/DC systems in more optimized and environmentally friendly way including alternative energy sources and energy storage methods

Coordinator

LULEA TEKNISKA UNIVERSITET

Address

Universitetsomradet Porson
971 87 Lulea

Sweden

Activity type

Higher or Secondary Education Establishments

EU Contribution

€ 647 250

Participants (7)

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ATHENS UNIVERSITY OF ECONOMICS AND BUSINESS - RESEARCH CENTER

Greece

EU Contribution

€ 289 375

IBM India Private Limited

India

EU Contribution

€ 321 005

SAMPOL INGENIERIA Y OBRAS S.A.

Spain

EU Contribution

€ 177 500

LULEA ENERGI AB

Sweden

EU Contribution

€ 148 750

TWT GMBH SCIENCE & INNOVATION

Germany

EU Contribution

€ 234 375

RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN

Germany

EU Contribution

€ 135 625

OPTIMATION AB

Sweden

EU Contribution

€ 146 250

Project information

Grant agreement ID: 649796

  • Start date

    1 March 2015

  • End date

    30 April 2018

Funded under:

H2020-EU.3.3.1.

  • Overall budget:

    € 2 100 130

  • EU contribution

    € 2 100 130

Coordinated by:

LULEA TEKNISKA UNIVERSITET

Sweden