Urban sustainability
Innovative simulation tools
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Modelling Optimization of Energy Efficiency in Buildings for Urban Sustainability

      MOEEBIUS introduces a Holistic Energy Performance Optimization Framework that enhances current modelling approaches and delivers innovative simulation tools which deeply grasp and describe real-life building operation complexities in accurate simulation predictions that significantly reduce the “performance gap” and enhance multi-fold, continuous optimization of building energy performance as a means to further mitigate and reduce the identified “performance gap” in real-time or through retrofitting.  

 


The next scientific publication available for all

What are the potential impacts of MOEEBIUS? How are we implementing our technological approach in order to achieve the most important scientific goals and expected energy savings? Please read our newest publication and find an answer to all these questions!

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MOEEBIUS presented at Energy in Buildings 2017

During the event, we presented paper entitled "A Holistic Demand Flexibility Profiling Framework for the energy management environment”.

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MOEEBIUS on ReserachGate

If you are interested in MOEEBIUS scientific results, please visit ResearchGate and follow our new project account!

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MOEEBIUS at “Energy Efficiency in Buildings” seminar!

MOEEBIUS presented during the seminar entitled “Energy Efficiency in Buildings” which was held on 30th November in Instituto Politécnico de Leiria (Portugal).

MOEEBIUS General Assembly in London

The MOEEBIUS project consortium met in London, UK (13th-15th November 2017). The meeting was organized by KiWi Power which is the UK’s leading demand response aggregator and has been a key player in the UK energy market since 2009.

MOEEBIUS pilot site in Belgrade – different buildings, interesting results

MOEEBIUS solutions are tested in Stepa Stepanovic entire district which comprises 48 diverse - functionally and operationally – buildings that have a built area of 434,000 sq.m. and an annual electricity consumption of 12,400 MWh. All buildings share a central district heating infrastructure which is collectively managed by BEOELEK (project Partner). The buildings house almost 12,000 occupants making this pilot site by far the largest pilot site of the MOEEBIUS project and a convincing platform for the demonstration of the framework’s value.

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