As we head towards a more sustainable world to live in, smart buildings will be the major role player. As they gain more prominence, the use of building analytics, as well as energy management systems in smart commercial buildings, will be more relevant.
This will be achieved through the help of major technological advancements, building energy management software, and integrated building analytics platforms. They will aid in better analysis of energy, managing energy consumption, and lowering costs. In this article, we will see what the future holds for energy management systems and what role building analytics plays.
Future of Smart Building Energy Management Systems
The role of building energy management systems has grown in the last decades. This is due to increasing advancement in building analytics and building automation. They do an exceptional task in optimizing energy efficiency and improving occupants’ comfort by collecting and analyzing data. With more and more buildings going smart, we will see energy management software as a major component of smart buildings.
Overall, energy management systems have proved to be an efficient and smarter approach to a sophisticated automated building.
6 Key Trends
The work regarding the utilization of smart building energy management systems is not a perfect one. It won’t even amount to its current status without the prioritization of some factors or key trends.
1. Increase the Use of Building Analytics Platforms
Integrating data with the help of such platforms will help you provide a better understanding of the building performance and give optimization strategies that will be beneficial. Strategies will be implemented in many areas like energy usage, better resident livelihood, and building maintenance.
These platforms will be a great ally in managing and controlling energy consumption. They will use BMS data to provide efficient analytics. Building performance is a major area that will be analyzed in detail in this analysis. In commercial buildings, where energy consumption is important, building analytics platforms will play a critical role in managing and controlling.
2. Advanced Analytics Using AI
AI, as in any field, will enhance the use and advantage of building energy management software. With the help of data and algorithms, building analytics using AI will enhance building performance in areas like detecting anomalies and equipment faults. They will also assist the facility managers in making well-thought decisions based on the analytics provided.
Since the AI will also be a cloud-based software, there will be easy and remote access. There won’t be any external cost, scalability will increase, and upgrades regarding the building analytics platforms will be easier.
3. More Focus On Occupants’ Comfort
Whether it is a commercial building or a residency, the occupant’s comfort and satisfaction are tied to the main goal of building energy management systems; improve building performance. Efficient utilization and building energy monitoring will boost the occupant’s wellness and comfort. This can be done through improvisation of air quality, temperature optimization, optimal lighting, and many aspects of the building. Sophisticated analysis and managing tools will be implemented to increase the occupant experience. This will lead to more, better, and well-deserved occupant comfort and wellness.
4. Improving Building Automation and Building Maintenance
Among the many advantages of building energy management software, building automation, and building maintenance are important aspects. Building automation refers to the automation and control of many building operations. These operations include AC and temperature control, air quality, HVAC, as well as security. When you pair these operations and a building energy management system, it yields better and improved building performance.
When it comes to building maintenance, it means, monitoring and managing the above operations, systems, and types of equipment. This is an important aspect to better all systems integrated as well as types of equipment. It then reduces energy consumption and reduces costs. Both building maintenance and building automation go hand-in-hand in providing better overall performance.
5. Integration of Smart Energy Sources
Smart energy utilization and integration is not only the goal of smart buildings but every advanced industry. When it comes to energy control and maintenance, the integration of smart energy sources only has an upward scaling benefit. Energy sources such as on-site solar, electric vehicles, and on-site energy storage are the most common renewable energy sources.
Since the use of the mentioned energy sources has become widespread, utilization of them alongside buildings with energy management systems will help in smart charging and optimization of the resources. The systems will have access to these energy sources’ demands, control, and distribution. This can only be done by using the most cost-effective and efficient building energy management systems.
6. Utilization of IoT
The Internet of Things or IoT in short is a wide array of networks consisting of physical devices including buildings and enabling them to collect and integrate data via the Internet. Incorporating IoT alongside smart commercial or residency buildings can be seen in smart security systems, automated AC and temperature, and many others.
As mentioned above IoT collects and integrates data over the Internet which will help build analytics to assess and collect well-analyzed data. This in turn grants deeper insights into the building operations which will help in building maintenance and improving the overall performance.
For instance, smart sensors track and monitor many building operations such as temperature, light, and energy. Then the building energy management system will use the collected data and analyze it. It will then suggest and offer optimization strategies such as heat optimization, light optimization, and so on.
You can also apply interoperability between building systems, their IoT devices, and the building energy management systems. This will enhance robust and unified solutions for the system and the building.
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Challenges Facing the Implementation of Energy Management Systems
Everything has a price because it comes with one. The integration and utilization of building energy management systems will not be smooth sailing. There will be some bumps along the way and knowing how to deal with them will be thinking one step ahead. Some of the challenges are:
- Cost: To set up and implement an energy management system a big investment is needed. The cost will cover technologies, software, processes, and training. It might be hard for small scaled organizations, but for commercial buildings, it is possible, Seeing the plethora of benefits it will bring, a mere investment will look like a sound choice.
- Lack of data and visibility: As mentioned above repeatedly, data is an integral part of this system which passes through analysis, process, and maintenance. Many institutions lack data and visibility which will cast a shadow on the performance of the system.
- Complexity: Many components contribute to the success of these systems. Components like technologies, data, facilities, and many more are required and need to be integrated for efficiency. When complexity occurs, it will cause issues in the implementation and overall performance.
Conclusion:
In summary, building energy management systems are what will shape the future of smart buildings with the help of building analytics software and integrated platforms. To create a better smart connected building, it is crucial to focus on important trends such as the use of AI, integration of IoT, implementation of building analytics, and more. Checking these important aspects will help avoid or deal with the potential challenges that may come with the system.