What is Submetering
Submetering is a key tool for energy-efficient and future-proof buildings. It provides precise data on energy consumption at the unit, zone, or system level, enabling fair cost allocation based on actual usage rather than estimates. Submetering is essential for energy-efficient and future-proof buildings. It measures energy use at the unit, zone, or system level, ensuring fair cost allocation through consumption-based billing - where tenants pay only for what they use instead of fixed estimates. This promotes energy-conscious behaviour, reducing both costs and overall consumption.
How It Works
Meters and submeters track real-time energy consumption, feeding data into energy management systems. This enables precise cost distribution and helps identify inefficiencies, optimise energy use, and support smart building solutions.
Why It Matters
Submetering powers data-driven efficiency. By integrating with automation and optimisation technologies, it helps building managers reduce waste, predict maintenance needs, and improve sustainability - ensuring smarter resource use and lower emissions.
Studies
Numerous studies have demonstrated that implementing metering and submetering can lead to substantial energy savings. Research findings indicate that consumption-based billing through these devices typically results in energy savings of 15–30%, depending on the building's energy efficiency and user behaviour.
Key studies supporting these findings include:
Felsmann & Schmidt (2013): Found that consumption-based billing leads to energy savings of 20% in existing buildings and up to 30% in new buildings.
Madlener et al. (2014, FCN Project Study): Highlighted that sub-annual billing information can enhance energy efficiency by encouraging behavioural changes among consumers.
Felsmann, Schmidt & Mróz (2015): Conducted a potential assessment across multiple EU member states, confirming an average 20% reduction in energy consumption with metering and submetering.
Eurac Research (2019): Reported savings ranging from 8% to 40%, depending on climate conditions and building characteristics.
Canale et al. (2023): Found that individual metering in residential buildings led to a 14% decrease in daily energy consumption for domestic hot water and a 32% reduction in DHW volume usage.
Additional savings due to psychological and Behavioural Impacts
Beyond these efficiency gains, studies have highlighted that frequently provided data increases energy savings due to behavioural changes of the tenants. When residents receive detailed feedback on their energy usage, they tend to adopt more energy-conscious habits, leading to additional savings:
Stumpf (2014) reported that behavioural changes alone accounted for a 9% reduction in energy consumption.