Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Green building monitoring equipment based on big data
The invention discloses green building monitoring equipment based on big data, the equipment comprises a building body, a carbon monitoring mechanism is arranged in the building body, and the carbon monitoring mechanism comprises an absorption mechanism for absorbing indoor air and a urea hydrolysis mechanism for generating ammonia gas. The invention provides equipment capable of visualizing and digitizing the energy-saving and emission-reducing effect of the green building, indoor air is absorbed and detected through the absorption mechanism, ammonia gas in urine is extracted through the urea hydrolysis mechanism, the ammonia gas and carbon dioxide are reacted and combined through the reaction mechanism, the content of carbon dioxide is detected through the detection mechanism, ammonia gas and carbon dioxide are decomposed through the heating mechanism, tail gas is absorbed through the greening mechanism, and carbon dioxide in indoor air can be detected and absorbed, so that energy conservation and emission reduction are more visual and large-digitized, and data of green buildings can be collected and fed back, and then improved.
本发明公开了一种基于大数据的绿色建筑监控设备,包括建筑体,所述建筑体内设置有碳监测机构,所述碳监测机构包括用于室内空气吸取的吸收机构、用于氨气生成的尿素水解机构,本发明提供了一种可以将绿色建筑的节能减排效果进行直观化和数据化的设备,通过吸收机构将室内的空气进行吸收检测,通过尿素水解机构将尿液中的氨气提取出,通过反应机构将氨气和二氧化碳进行反应结合,通过检测机构进行二氧化碳含量的检测,通过加热机构使得氨气和二氧化碳进行分解,通过绿化机构将尾气进行吸收,能够将室内空气中的二氧化碳进行检测吸收,使得节能减排更加直观,大数据化,能够将绿色建筑的数据进行收集反馈,然后进行改进。
Green building monitoring equipment based on big data
The invention discloses green building monitoring equipment based on big data, the equipment comprises a building body, a carbon monitoring mechanism is arranged in the building body, and the carbon monitoring mechanism comprises an absorption mechanism for absorbing indoor air and a urea hydrolysis mechanism for generating ammonia gas. The invention provides equipment capable of visualizing and digitizing the energy-saving and emission-reducing effect of the green building, indoor air is absorbed and detected through the absorption mechanism, ammonia gas in urine is extracted through the urea hydrolysis mechanism, the ammonia gas and carbon dioxide are reacted and combined through the reaction mechanism, the content of carbon dioxide is detected through the detection mechanism, ammonia gas and carbon dioxide are decomposed through the heating mechanism, tail gas is absorbed through the greening mechanism, and carbon dioxide in indoor air can be detected and absorbed, so that energy conservation and emission reduction are more visual and large-digitized, and data of green buildings can be collected and fed back, and then improved.
本发明公开了一种基于大数据的绿色建筑监控设备,包括建筑体,所述建筑体内设置有碳监测机构,所述碳监测机构包括用于室内空气吸取的吸收机构、用于氨气生成的尿素水解机构,本发明提供了一种可以将绿色建筑的节能减排效果进行直观化和数据化的设备,通过吸收机构将室内的空气进行吸收检测,通过尿素水解机构将尿液中的氨气提取出,通过反应机构将氨气和二氧化碳进行反应结合,通过检测机构进行二氧化碳含量的检测,通过加热机构使得氨气和二氧化碳进行分解,通过绿化机构将尾气进行吸收,能够将室内空气中的二氧化碳进行检测吸收,使得节能减排更加直观,大数据化,能够将绿色建筑的数据进行收集反馈,然后进行改进。
Green building monitoring equipment based on big data
一种基于大数据的绿色建筑监控设备
MO SHUTING (Autor:in)
04.01.2022
Patent
Elektronische Ressource
Chinesisch
IPC:
B01D
SEPARATION
,
Trennen
/
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
/
G01N
Untersuchen oder Analysieren von Stoffen durch Bestimmen ihrer chemischen oder physikalischen Eigenschaften
,
INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES