by Andy Lewry (02-Mar-2015)
Operators of commercial and public (ie non-domestic) buildings need clear and realistic guidance on targeting energy running costs for their properties and on the potential savings available. At their disposal are two seemingly irreconcilable indicators of performance: the asset rating (eg energy performance certificate or EPC), which provides a theoretical assessment of the asset under standard ‘driving conditions’ typical of that type of building in that location; and the operational rating (eg display energy certificate or DEC), which is based on energy bills so gives no indication of how much lower running costs could be. To truly understand how a building uses energy, it is necessary to know how the building has been designed and how it is used; this requires both an asset rating and an operational rating.
The difference between these ratings – or between the predicted and actual performance of buildings – is known as the ‘performance gap’. This Information Paper looks at a way to bridge this gap and bring together these two assessments using the Green Deal assessment tool for non-domestic buildings, which allows the input of non-standard operating conditions, hours of operation and occupancy patterns. By defining these aspects of the building ‘in use’, the predicted energy performance of the asset can be brought closer to the in-use reality.
This publication is aimed at all those working to identify energy waste and deciding on energy-saving measures and programmes.
1.1 What is the performance gap?
1.2 What are asset and operational ratings?
1.3 Why bridge the gap?
2 Resolving the performance gap
3 Asset ratings and energy performance certificates (EPCs)
3.1 How the interface to SBEM (iSBEM) works
3.1.1 Defining the asset
3.2 Limitations of iSBEM
3.3 What does iSBEM produce and what can it be used for?
4 Operational ratings and display energy certificates (DECs)
4.1 How ORCalc works
5 Bridging the performance gap
5.1 How can it be done?
5.2 The UK Green Deal (GD) tool
5.2.1 An introduction to the GD
5.2.2 How does the GD tool work and how can it be tailored?
5.2.3 What does the GD tool produce?
5.2.4 How can the GD outputs be used?
14 drawings, 2 photos