Energy-efficient homes have been the subject of so much writing and discussion that homeowners may need assistance making sense of it all. How is the measure of efficiency made? How is it calculated? Will an efficient "thing" I purchase today be deemed efficient next year, or in the next ten years? The terms "smart home" and "connected home" are frequently used interchangeably to refer to homes with internet-connected appliances, lighting, air conditioning, security monitoring devices, and sensors, all integrated into one automated system that can be controlled remotely with other smart devices. Or at least that is the intended outcome.
Here's another phrase to add to the nomenclature of energy-efficient homes: High-performance home.
So, what is a high-performance home?
Sara Gutterman, CEO of Green Builder Media, summarized it best: “It’s a home in which all the elements of the house work together in tandem to enhance the home’s performance.”[1] Still, what does this mean for the typical homeowner, and is there a true financial benefit to owning an energy-efficient home?
This week, learn how homeowners can take advantage of smart home automation to reap the rewards of an energy-efficient, high-performance home using advanced heat pump technology.
Technological advancements offer a myriad of energy-saving solutions for homes, regardless of age. Implementing these approaches enhances energy efficiency, potentially leading to a high-performance home. Even simple tasks like installing door seal kits and improving insulation yield noticeable benefits, evident in lower monthly electric bills. However, while optimizing energy efficiency in homes is achievable through straightforward actions, achieving true high performance presents challenges.
Home energy improvements vary in cost, and efficiency is subjective to each home's unique characteristics. Fortunately, homeowners have options to evaluate their efficiency needs and access financial incentives for upgrades. Various organizations offer resources and guidance to assist homeowners in assessing their homes for energy efficiency opportunities.
Here are some independent third-party resources:
Achieving a balance between cost and efficiency entails a thorough assessment of the home’s energy loss, considering comfort and budget constraints. With new strides in heat pump technology, striking this balance is becoming more attainable than ever.
Recent advancements in heat pump technology have been designed to combat freezing temperatures in cold climates, leading to greater efficiency and reliability in frigid conditions. These advancements also offer improved comfort and contribute to sustainability efforts by reducing energy consumption and greenhouse gas emissions in regions with harsh winter weather.
Key advancements include:
This week’s New Tech Tuesday features products from Omron Electronics that add safety and efficiency to the latest heat pumps.
The Omron Electronics G6RN PCB Miniature Power Relays offer robust 1-pole 10A switching with a compact 15mm height, 60 percent lower than the G2R model, and consume just 220mW. These relays, configurable with SPDT (1c) or SPST-NO (1a) contact forms and coil voltages of 5, 6, 12, and 24VDC, feature high switching current capability. With options for plastic seal or flux-resistant protection, high-capacity types provide resistive load ratings of 10A at 250VAC (N.O.) or 5A at 30VDC with AgSnIn contacts (Cd free). They boast a swift operation time of 15ms and release time of 5ms, enduring 10 million mechanical operations at 36K operations per hour. Meeting UL/C-UL recognition, as well as VDE EN/IEC and TÜV EN/IEC standards, these relays excel in flammable gas environments and suit applications like heat pumps, boilers, air conditioners, industrial machinery, and factory automation, including controllers, inverters, servo amplifiers, and temperature controllers.
Heat pump technology improves comfort, sustainability, and energy efficiency. Advances like broader operating ranges and variable capacity technologies have improved the efficiency and dependability of heat pumps, especially in colder climates. These enhancements support the objectives of environmentally friendly housing by lowering energy consumption, operating expenses, and carbon emissions. Homeowners looking to build toward a high-performance house can maximize energy efficiency and raise living standards by utilizing smart home automation and energy-saving solutions, resulting in significant financial savings and environmental benefits in the long run.
Sources:
[1] “What Is a High-Performance Home?” HpHUB, https://hphub.io/blog/h35zr0upt9d2xq76ac48e9fzywaucm.
Rudy Ramos brings 35+ years of expertise in advanced electromechanical systems, robotics, pneumatics, vacuum systems, high voltage, semiconductor manufacturing, military hardware, and project management. Rudy has authored technical articles appearing in engineering websites and holds a BS in Technical Management and an MBA with a concentration in Project Management. Prior to Mouser, Rudy worked for National Semiconductor and Texas Instruments..