In this work, a novel self-luminous wood composite based on phase change materials (PCMs) with superior thermal energy storage and long afterglow luminescence (LAL) materials with excellent light energy storage is reported.
内容提示: ICS 93.080 P 66 DB33 浙 江 省 地 方 标 准 DB33/T 2033—2017 公路隧道蓄能自发光应急诱导系统设置 技术规程 Technical specification for setting up the energy storage self luminous emergency guidance system of the highway tunne 2017 -05- 22 发布 2017- 06 - 22 实施 浙 江 省 质 量 技 术 监 督
Accordingly, the necessity of equipping road tunnel with energy sto-rage self-illuminating system is pointed out. The composition, technical requirement of energy storage self-illuminating material, and evacuation signage are analyzed as well.
From the perspective of safety, the energy-storage self-luminous induction technology can effectively alleviate optical illusions, improve the driving environment.
Overall, strontium aluminate doped with Eu2+ co-doped with Dy3+ (SrAl2O4:Eu2+, Dy3+) phosphors and self-luminous pavement for energy storage had great prospects in improving road safety and reducing energy consumption.
From the perspective of safety, the energy-storage self-luminous induction technology can effectively alleviate optical illusions, improve the driving environment.
公路隧道蓄能自发光诱导系统设置技术规范 Technical specification for setting up the energy storage self luminous guidance system of the highway tunnels 【标准号】 DB33/T 2033-2023 【发布日期】 2023-12-12 【标准状态】 现行 【实施日期】 2024-01-12 【替代以下标准】 DB33/T 2033-2017
Developing a novel sustainable and durable self-luminous pavement material with solar energy absorption capability Self-luminous pavement materials can autonomously absorb solar energy and emit light at night, offering a novel approach to
Overall, strontium aluminate doped with Eu2+ co-doped with Dy3+ (SrAl2O4:Eu2+, Dy3+) phosphors and self-luminous pavement for energy storage had great prospects in improving road safety and reducing energy consumption.
Highway tunnels are special road sections on highways, with narrow spaces and large changes in light. Not only are vehicle speeds high and traffic volume is large, but also vehicle exhaust emissions are not easy to disperse,...
To address this, this paper aims to develop a novel sustainable and durable self-luminous pavement material and thin layer. The development involved optimizing high-transparency epoxy resin based on mechanical properties and ultraviolet aging resistance, as well as selecting long afterglow materials based on luminous performance.
