Swarm Logic unlocks HVAC energy savings
Type: White Paper
Categories: Commercial, Energy Efficiency
Date Published: 11/28/2018
Source: Encycle Corporation
Primary Topic: Energy Efficiency
While HVAC is a typical commercial building's biggest energy consumer, the lack of financially attractive options has hindered efficiency efforts in recent years. The design of HVAC rooftop units (RTUs) and building controls pose inherent limitations that result in energy waste and excessive peak demand.
This white paper, presented by Encycle Corporation, provides insight into Swarn Logic®, a patented cloud-based system that maximizes the efficiency of multi-rooftop units (RTUs), especially across multiple locations, by creating a network of smart RTUs . The report features a look at how one big box retailer achieved significant reductions in HVAC-related electricity consumption and peak demand.
Read this white paper to explore how the adoption of IoT-enabled technologies and services can lead to dramatic savings.
Please fill out the form below to download the white paper. We value your privacy!
Share this valuable information with your colleagues using the buttons below:« Back to Research
Check out some of the key moments at SED's Innovation Summit!
- Benchmarking and Transparency: Resources for State and Local Leaders
- Capturing the Full Value of Renewable Energy for Businesses in ERCOT
- Innovation Summit Presentation: Collaboration Enables Merck to Take a Huge, Sustainable Leap Forward
- A Comparison of Fuel Choice for Backup Generators
- Aurora Public Schools Energy Management System
- Michigan State's long-term view on renewable energy
- Solar Tax Credits Are Stepping Down Next Year: What Does This Mean for Corporate Solar Projects?
- Top 3 corporate sustainability trends all business leaders should be watching in 2019
- REI's net zero distribution center
- Energy and facility managers deserve access to modern technology
- The secret behind Iron Mountain’s long-term strategy for setting a Science-Based Target? A phase-based approach.