This paper presents a comprehensive simulation analysis of the energy efficiency and interior comfort impacts of a novel class of spectrally selective dual-band electrochromic windows,
Developing energy-efficient smart windows that reduce energy consumption while maintaining natural lighting and aesthetic appeal has become
Abstract Smart Building Integrated Photovoltaic Windows (BIPVWs), characterized by the integration of photovoltaic technologies with responsive smart materials, have emerged as essential
As such, enhancing window energy conservation performance and developing innovative smart windows with energy-saving potential have become a significant topic of building thermal
Smart windows for energy efficiency of buildings Marco Casini Abstract – The increasing attention to issues of visual comfort and energy
A novel liquid flow electrochromic smart window was developed, capable of significantly reducing building energy consumption in most climate zones around the world.
Abstract Conferring smart windows with sensible heat storage capacity could enable powerful energy and optical modulation capacity in buildings toward the desired net-zero carbon
In comparison to traditional static windows, dynamic solutions like adaptive and controllable smart windows have the ability to adjust their optical properties in response to changing
EC smart windows have been used in fenestration that blocks heat on demand, with or without optical transparency. This could significantly reduce energy consumption while provide
Photochromic smart windows have drawn increasing attention as an approach to improve building energy efficiency and enhance indoor daylight comfort.
We suggest a novel smart window structure using photonic crystal to regulate the solar radiation intensity by preventing it from penetrating the buildings in summer.
Thermochromic smart windows often face trade-offs among luminous transmittance, solar modulation, and transition temperature, limiting their effectiveness in building energy savings. Here,
The global energy system transforming from fossil fuels to renewable green energy through the adaption of innovative and dynamic green
Smart photovoltaic windows (SPWs) offer a promising platform for designing ESBs due to their unique feature. They can modulate solar energy
Thermochromic window technologies promise pioneering architectural windows with energy-saving capabilities through the intelligent regulation of indoor solar irradiation and modulation
It is expected that our device can achieve greater annual energy savings in comparison with commercial glass anywhere in the world and promote the progress of thermochromic windows
Thermochromic smart windows (TSWs) exist passive regulation for building energy conservation, which are challenging to be artificially manipulated.
Summary Adaptive thermal regulation is crucial for year-round energy savings in buildings, especially in mid-latitude regions. Here, leveraging the seasonally varying angles of direct
In this work, we introduce a humidity-responsive light-regulating film that dynamically adapts to environmental conditions through a mechanically
Windows are an important part of buildings and transmit light between indoors and outdoors. Frequent heat exchange through windows increases building energy consumption. Smart
Herein, an energy-efficient smart window that enables heat storage capacity and multimode optical modulation is demonstrated by integrating a thermochromic (TC) hydrogel with
Such endeavors have boosted smart windows to modulate full-spectrum solar regulation and to achieve efficient all-climate building energy saving. Next generation smart windows will not
Electrochromic smart windows can be low-power routes to control building temperatures. This Review describes the working modes, assembly protocols and implementation of these windows.
This study examines the integration of IoT and AI in energy-efficient smart buildings, emphasising applications and challenges. A qualitative
The synergistic, thermo-reversible properties of TRTW offer significant potential for creating intelligent and energy-efficient building envelopes that actively adapt to daily environmental
Additionally, smart glass enhances energy-saving efficiency by intelligently regulating the indoor temperature and natural lighting, thereby
Field experiments and simulations show that our device exhibits higher energy savings than a commercial low-emissivity glass in most climate zones around the world.
Abstract Electrochromic smart windows (ESWs) offer a promising energy-saving strategy for modern buildings by enabling on-demand transmittance modulation via electrical stimuli.
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