Water Conservation Technology Is Key to Tomorrow’s Smart Buildings

2 mins read
Smart building technologies Water resource management Sustainability Smart water management Conservation

Lighting, heating/cooling, and ventilation have been the main areas of focus for smart building technologies that reduce utility efficiency and sustainability for years. After all, these are the regions with the highest cost per square foot. Yet, many are starting to look to other utilities to continue their drive to lower utility costs and their sustainability commitment because cutting-edge building technologies have frequently now been integrated to create efficiencies in these areas.

One of the top priorities in bright buildings today is water resource management. Water consumption for home use has increased by 600 % over the past 50 years, much more than the amount used for industry or irrigation, according to a recent study by the World Resources Institute

As a result, more people are interested in current technologies to properly and effectively manage water consumption. Let’s examine a few of the innovations that are driving the development of smart water management.

Smart Building Water Management Technologies Types

Idrica, a renowned international water technology company, recently published an article that lists many ways that brilliant water management can be used in various verticals. These technologies, which are focused on bright building efficiency, include:

    monitoring and water management. These systems precisely gather and track water usage across a structure or campus. In order to identify areas of inefficiencies, the gathered data is analyzed. Frequently, intelligence is also included in the analysis, which offers suggestions for where and how water can be conserved more effectively.

  • intelligent sensors and taps. Water sensors are installed inside buildings to measure water specifically and locate areas where water is being consumed or where possible leaks are occurring. They are used in conjunction with water management systems. Additionally, measurement tools like bright taps are used to gather information. However, depending on where the occupants are within a building or campus, these taps even assist in maximizing consumption.
  • sensors for humidity and climate. Based on measurements of domestic and external humidity and weather, these sensors determine the ideal amount of water needed for HVAC and ventilation purposes.
  • purification and treatment of water. The potential environmental harm that could harm sustainability efforts is reduced by using brilliant filters that clear and clean water for reuse.
  • Digital twins. Digital twins simulate different proposed changes to building or campus water management processes to see what good or negative benefits those changes would have if implemented on production water Management systems. These simulations are arguably the most recent technology in the field. This enables building owners and operators to more precisely implement water conservation and sustainability measures without having to conduct expensive and time-consuming trial-and-error tests.
  • intelligent irrigation systems these include climate and humidity sensors that can be used to calculate how much water to use and when it is important. This makes irrigation of gardens and natural spaces more effective. Although this is more frequently linked to agriculture, its use in bright buildings is now a reality because it enhances water efficiency and environmental sustainability, which lowers energy consumption.

The New Smart Building Target for Practitioners Conservation

The “low-hanging fruit” of lighting, heating/cooling, and ventilation have probably already been addressed for building owners and operators who are already on the intelligent building path. As a result, it is possible that their novel goal for the upcoming years will change to sustainability and water conservation. As a result, what is currently feasible should be built on the types of technologies and strategies mentioned above. These systems can help protect our environment for future generations in addition to saving enormous amounts of money on water utility spending if they are correctly implemented and managed.

Leo Portal

Leo is an expert in the field of smart city research and an overall tech-enthusiast with an emphasis on smart energy, IOT, smart homes and governance. After a master degree in international administration at the University of Gothenburg in Sweden, and a master in public management at Fudan University in China, he pursued research studies in the field of smart cities at the European University Institute. This led him to publish multiple articles on smart cities. Among them “Using Smart People to Build Smarter: How Smart Cities Attract and Retain Highly Skilled Workers to Drive Innovation (Belgium, Denmark, the Netherlands, Poland)” published in the Smart Cities and Regional Development Journal (SCRD) and “Establishing Participative Smart Cities: Theory and Practice”, also published in the SCRD Journal. He regularly audits and advises municipalities and regional governments on their smart city strategies. He is currently writing a chapter for Springer on smart mobility in French smart cities.

Leave a Reply

Your email address will not be published.

AI innovation Global governance International cooperation Ethical AI Regulatory frameworks
Previous Story

Bringing the world together on AI Innovation

Battery recycling regulations Global initiatives Circular economy Sustainable technology Electric vehicle (EV) movement
Next Story

USA Battery Recycling: Regulations and Innovations in 2024 and Beyond

Latest from Technology

Don't Miss