Welcome to LiftEnergy+ website. Don’t forget to check out the explainer video on the home page
Welcome to LiftEnergy+ website. Don’t forget to check out the explainer video on the home page
Energy Monitoring
By continuously monitoring the energy consumption of lifts, these devices help identify inefficient usage patterns and allow for optimization. This can lead to energy cost savings over time.
Lifts are a significant source of energy consumption in buildings. Monitoring and optimizing their energy use can contribute to a reduction in a building's overall carbon footprint, promoting environmental sustainability.
The device can be installed before and after the installation of energy saving devices to validate the energy saving. Likewise, they can be installed before and after lift modernisation or replacement to confirm the energy saving.
With knowledge of the savings of energy costs through implementing energy saving devices and/or lift modernisation/replacement, life cycle planning can be optimised for reduced costs.
By tracking the usage patterns, building managers can schedule maintenance and repairs more effectively. This can help in reducing downtime and minimizing disruptions for building occupants.
Usage data can be used to optimise energy consumption. For example, lifts can be programmed to go into an energy-saving mode during periods of low usage, reducing operational costs.
Usage patterns can reveal trends in building occupancy, helping with capacity planning. For example, If certain times of day/week/month consistently show higher lift usage, this information can inform decisions about present occupation planning and, future building expansions or renovations.
By optimising lift usage, building managers can extend the lifespan of lift equipment, reduce maintenance costs, and potentially lower energy bills, leading to cost savings over time.
An efficiently managed lift system can contribute to tenant satisfaction and retention. Businesses and residents are more likely to stay in a building where their daily routines are not disrupted by lift issues.
Having data on lift reliability allows building managers to hold lift service providers accountable for their performance and service level agreements.
Downtime monitoring allows building managers to identify and address the root causes of lift downtime promptly. This helps minimize service interruptions and ensures that lifts are available when needed, reducing tenant frustration and inconvenience.
Knowledge of when the lift goes out of service or experiences issues allows building managers to schedule proactive maintenance and repairs. This can help prevent unexpected breakdowns and reduce downtime, which can be especially critical in buildings with heavy lift usage.
Working on arrival callouts are frequent across the industry. The status on the lift can be monitored through the device firstly whether it is in/out of service. If it is in service, is it undertaking lift journeys and consuming energy? If the answer is yes, then this remote confirmation of the status can reduce abortive call-outs.
Proactively addressing lift issues can minimize disruptions to building occupants, ensuring they have reliable access to the lifts. This can lead to higher tenant satisfaction and retention.
Building managers can use reliability data to communicate with tenants and building occupants. They can provide updates on maintenance schedules and expected downtime, managing expectations and minimizing inconvenience.
Reliability data can be used to make data-driven decisions about when to replace or modernize lift systems. It helps in optimizing capital expenditure planning for building upgrades.
