Have you heard about the “The Edge” building in Amsterdam? If you look at it from the outside, you will think of it as just another commercial office building. But it is a Smart Building. Let me describe what it means. It has a smart LED lighting system with 30,000 sensors. IoT connects these sensors to the building management system. This lighting system automatically optimizes the energy usage by measuring and monitoring the motions, radiation, temperature, and light levels. When there is nobody on a floor, the lights switch off automatically and the heating and cooling is adjusted to the minimum. The occupants can also personalize temperature and light settings through an app. It shouldn’t surprise you that The Edge uses 70 percent less electricity than other commercial office buildings! That’s the power of IoT-enabled energy management.
IoT is no more just a fashionable concept – It is being implemented across sectors and is presenting new opportunities to create smart environments. Today, while energy is one of the highest manufacturing costs, it is also not easy to track down the energy utilization and wastage. The good news is, though the advances in the Internet of Things (IoT) can bring significant benefits for energy efficiency.
Studies show that if the energy efficiency of commercial and industrial buildings is improved even by 10 percent, the total cost saving will be approx. $20 billion. (Source)
In today’s tough economic and competitive business environment, businesses are forced to look at areas for cost saving. One of the prime areas of focus is the cost of energy – businesses are seriously rethinking strategies for energy saving and environmental sustainability. Organizations are working towards minimizing their energy consumption without hampering the comfort and other considerations such as fresh air, level of carbon dioxide, humidity etc. The ultimate goal is to optimize energy consumption across heating, ventilation, and air conditioning (HVAC) systems (which consume 30-50 percent of the energy in buildings), lights, refrigeration, and other systems such as security or fire systems.
However, there are some challenges in energy management. These include:
A few years ago, we had helped a very large IT park in developing an IoT-enabled smart energy management solution. Also, propositions for various commercial buildings (and malls, chain of movie theatres) in metro cities. Apart from a Building Management System, the park and the commercial building had other decentralized and manual systems for monitoring boilers, chillers, water supply, gas pipelines, and generators. One of the main issues which the IT park, as well as commercial buildings and chain of movie theatres, was facing was the continuous complaints from the occupants on comfort levels maintained by the HVAC systems. The HVAC operators were stressed about maintaining the comfortable levels while optimizing the energy consumption. Other issues in context to OEE (Overall equipment effectiveness) of OEM supplied equipment, and further productivity and efficiency o the workforce too.
An IoT-enabled smart energy management solution we developed included a cloud-based remote monitoring, control and analytics, and with focus on big data analytics solution to analyze indoor air quality (IAQ) and HVAC energy consumption.
The dashboards offered by the solution provided real-time analysis of actual temperature vs. moisture ratio plotted per ASHRAE standard 55 comfort chart. These dashboards helped the HVAC operators in optimizing the energy consumption. The HVAC operators could reduce the energy consumption by 2% - 3% - resulting in a huge cost saving.
Typically, the smart energy management solution helps in the monitoring of industrial equipment, processes, discrete equipment, waste water effluent disposal, and utilities. It also helps in Continuous Measurement and Verification (CMV) and management of energy, inventory and workforce optimization.
The smart energy management solution gathers, transfers, stores and uses the data for further processing. The data is gathered from multiple sources and transferred to the cloud for storage and further processing.
The goal of analytics offered by the smart energy management solution is to identify gaps, measure the performance against set goals, and optimize the resources to reduce the carbon footprint. Provide the benchmarking provision and ultimately help for overall decision support systems.
The energy consumption reports offered by the smart energy management solution –
Maintenance Monitor is one of the crucial components of the smart energy management solution. It provides information on interlock, trips, and alarm analysis.
Let us have a quick look at some of the numerous benefits of smart energy management -
Sounds interesting, isn’t it? While I described all this for small establishments such as IT parks or malls, such massive scale energy optimization is being done for the whole of Las Vegas city. NV Energy has integrated predictive energy optimization in 2013 through its program called mPowered. With this, the famous casinos and resorts at Vegas have become Smart Buildings. Through an IoT-enabled solution, NV Energy manages the energy distribution based on the real-time demand for energy, resulting in tremendous energy optimization. This is just an example of what all is possible for a building or even a city.
The technology is already available for you to avail. We are all set to welcome the world of smart buildings, smart facilities and smart cities. Are you ready?
If you want to discuss how you can leverage the IoT revolution in facilities management, just connect to me OR drop me an e-mail or message me on LinkedIn, and I will be happy to get in touch with you.