A Shopping Center The Size of a City
BTC City Ljubljana is one of the largest business, shopping, entertainment, recreation and cultural centers in Europe, located just three kilometers from Ljubljana city center and 200m from the Ljubljana ring road. It is considered a must-visit destination by city residents and tourists.
Due to the large number of facilities, wide area, high consumption of electricity, water and heating, BTC’s energy needs are comparable to those of urban centers.
“Energy management is an economic necessity,” says Tomaž Damjan, Energy Manager at BTC City.
In a bid to reduce energy consumption and costs as well as subsequent CO2 emissions, BTC sought to implement an energy management (EM) system for its multi-purpose facilities, such as those used by Smart Cities, and in line with the ISO 50001 standard, aimed at supporting organizations to conserve resources and tackle climate change.
BTC turned to Solvera Lynx, the region’s leading provider of comprehensive energy management solutions, to help devise their own system to monitor and reduce energy consumption.
Specialists from Solvera Lynx described the key to greater efficiency and energy management coordination was to provide BTC City with “systematic control” over energy consumption.
“Due to the large number of BTC facilities, it was important to control the consumption of individual energy products and monitor consumption by individual end-users,” explained Janez Klančnik, Project and Energy Manager at Solvera Lynx. “BTC needed tools that allowed the easy collection of data, performance analysis and production of automated reports.”
Applying Smart City Energy Management Tools
Solvera Lynx set several objectives for implementing their Smart City EM solutions:
- To gain remote control over energy consumption
- To implement an alarm system
- To define and analyze key energy efficiency indicators in real time
- To introduce an energy accounting system with a clear, transparent view of energy use
- To provide a tool for employees to carry out relevant and efficient energy management activities
To achieve these objectives for BTC, Solvera Lynx had four types of communication equipment in mind: GsmBox.WG, ComBox.M, ComBox.L and GsmBox.X4. These wireless, long-range sensors utilize LoRaWAN technology to send data to GemaLogic, an advanced energy management software platform.
The idea was to connect and deploy this network of sensors and communication equipment throughout the entire BTC City, digitizing utility meters that could then send data on electricity, heat, natural gas and water consumption from all facilities to the GemaLogic software, where energy managers could constantly gather, process and analyze the data and produce automated reports.
Deploying a network of indoor/outdoor sensors requires a special communication technology to overcome a variety of obstacles. LoRaWAN was the natural choice and Actility supported the Solvera Lynx team on its use.
To easily understand the benefits of LoRaWAN-enabled sensors, it is useful to compare it to WiFi, the commonly known indoor, wireless networking technology. Covering the wide area of BTC City would require dozens of WiFi access points, whereas only two LoRaWAN gatewayswere needed. With LoRaWAN, BTC City was able to set up its own private network within a week.
In addition, the battery life of LoRaWAN-powered sensors is much higher—5 to 8 years on average.
The most exciting aspect for Klančnik was observing the small time intervals of sending data from normally inaccessible places.
“Once we connected the meters in the water shafts to the ComBox.L devices, we could receive data on water consumption every 15 minutes. Before, that was not possible and water leakages were not detected in time,” said Klančnik.
This was just the tip of the iceberg.
Steep Reduction in Costs and Consumption
Once Solvera Lynx implemented the network, deployed the sensors and connected them to the GemaLogic platform, results were instantly observed.
For example, once the energy data was digitized, energy managers could immediately start monitoring and analysis in real time, and start benchmarking and forecasting. Solvera Lynx EM solutions also include an alarm system that can detect deviations in consumption, such as those caused by a water leakage, alerting the managers for a quick response. EM systems can be improved over time and the easy monitoring leads to taking effective measures to continuously increase BTC City’s efficient consumption of energy.
In fact, after one year of implementing Solvera Lynx’s EM system, BTC City has reduced its energy consumption by 5%. Even more staggering, BTC City has observed that before, water loss was measured at 40%, whereas after the EM solutions were installed, that figure plummeted to 4.5%. Moreover, early detection of equipment defects, such as in air-conditioning units, has led to replacement of parts that have cut electricity consumption by half!
In the past year BTC has invested massively in its infrastructure to guarantee and maintain the highest level of efficiency for its operations. The company has a strong environmental strategy and is dedicated to optimizing and reducing water leakages and energy consumption, serving an example of sustainability on a national level.
With all the measures the BTC energy team have introduced they have reached successful results – in the last 10 years of constant monitoring and improving they have reduced water leakages up to 20% ”
“The system has paid-off,” said Tomaž Damjan, Energy Manager at BTC City. “We will continue using the GemaLogic energy management platform.”
Meanwhile, the case study has also been a major win for the collaboration between Solvera Lynx and Actility, according to the former’s Toni Žužek.
“We really appreciate the timely and professional support from Actility’s experts,” said Žužek. “They helped meet our needs and strategic milestones, as well as plan and organize more effective sales and marketing activities in order to promote our advanced EM software and hardware solutions.”
Guarantee traceability throughout the disposal chain
Recycling bins throughout Dutch cities provide clear evidence of this successful IoT implementation. A sensor placed in each bin signals to collectors when it is full. As a result, waste vehicle collection routes can be optimized to reduce cost, traffic, and pollution. The same solution is deployed in public places such as airports and train stations. The cleaners are informed when trash bins need to be emptied, improving the workload and efficiency of the cleaning staff. In both cases, IoT brings a higher quality of service and well-being for everyone.
Suez is also connecting waste collection trucks, equipped with load sensors. Treatment facilities are informed almost in real-time of the amount of trash expected from each truck. LPWA technologies ensure that even in complex city environments and at long distances in the countryside the trucks remain connected, improving their operation and streamlining the process. Optimal visibility and control of waste management are particularly critical when collecting hazardous waste: knowing exactly how much waste has been collected is a key tool in optimizing the treatment phase. For companies dealing with industrial waste, Suez’ IoT innovations help improve collection and especially guarantees traceability throughout the disposal chain.
Some cities are encouraging their homeowners to sort their waste by installing smart bins in individual homes. These bins weigh the amount of litter received, allowing for per usage consumer billing. This incentive-based program encourages everyone to be proactive and responsible in their personal behaviors.
Suez is proud to lead the waste management revolution to make it more:
- circular since it aims to regenerate resources essential to life
- concrete in so far as it involves tangible and innovative actions securing resources
- collaborative: it engages every contributor to better manage resources for the future.