Design a mobile atmospheric purifier containing: - **Prototyping

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design a mobile atmospheric purifier containing: - **Prototyping:** Digital prototypes were designed using 3D modeling software, followed by the creation of physical prototypes for testing under simulated pollution conditions in Medellín. **Individual design:** - **Advanced purification system:** - **HEPA filters:** Adapted to capture fine PM2 particles.5, that are prevalent in the air of Medellin. - **Ionization technology:** To neutralize gaseous pollutants and improve air quality more effectively. - **Catalysts:** To break down volatile organic pollutants (COV) common in urban industrial areas. - **Mobility system:** - **Omnidirectional wheels:** They allow the PAM to move easily in narrow and congested streets., Characteristics of many areas of Medellin. - **Electric motor:** Designed to be powered by both rechargeable batteries and solar panels, Taking advantage of Medellin's sunny days for a sustainable operation. - **Smart sensors:** - **Air quality detectors:** Configured to identify city-specific pollutants. - **GPS for navigation:** Customized for the urban environment of Medellin, optimizing routes to the most polluted areas. - **Proximity sensors:** PAM security guaranteed on busy city streets. - **Control unit:** - **microprocessor:** Processes sensor data and adjusts PAM operation in real time. - **Wi-Fi connectivity:** It allows the transmission of data to a central base located in Medellín, for urban analysis and planning. - **User interface:** - **Mobile app:** Allows local authorities and users to remotely monitor and control PAM, adjusting their operations to the specific needs of the day.

M

M

ติดตาม

รีมิกซ์

คำพรอมต์

คัดลอกคำพรอมต์

design a mobile atmospheric purifier containing: - **Prototyping:** Digital prototypes were designed using 3D modeling software , followed by the creation of physical prototypes for testing under simulated pollution conditions in Medellín . **Individual design:** - **Advanced purification system:** - **HEPA filters:** Adapted to capture fine PM2 particles . 5 , that are prevalent in the air of Medellin . - **Ionization technology:** To neutralize gaseous pollutants and improve air quality more effectively . - **Catalysts:** To break down volatile organic pollutants (COV) common in urban industrial areas . - **Mobility system:** - **Omnidirectional wheels:** They allow the PAM to move easily in narrow and congested streets ., Characteristics of many areas of Medellin . - **Electric motor:** Designed to be powered by both rechargeable batteries and solar panels , Taking advantage of Medellin&#39 ; s sunny days for a sustainable operation . - **Smart sensors:** - **Air quality detectors:** Configured to identify city-specific pollutants . - **GPS for navigation:** Customized for the urban environment of Medellin , optimizing routes to the most polluted areas . - **Proximity sensors:** PAM security guaranteed on busy city streets . - **Control unit:** - **microprocessor:** Processes sensor data and adjusts PAM operation in real time . - **Wi-Fi connectivity:** It allows the transmission of data to a central base located in Medellín , for urban analysis and planning . - **User interface:** - **Mobile app:** Allows local authorities and users to remotely monitor and control PAM , adjusting their operations to the specific needs of the day .

ข้อมูล

คำพรอมต์

design a mobile atmospheric purifier containing: - **Prototyping:** Digital prototypes were designed using 3D modeling software, followed by the creation of physical prototypes for testing under simulated pollution conditions in Medellín. **Individual design:** - **Advanced purification system:** - **HEPA filters:** Adapted to capture fine PM2 particles.5, that are prevalent in the air of Medellin. - **Ionization technology:** To neutralize gaseous pollutants and improve air quality more effectively. - **Catalysts:** To break down volatile organic pollutants (COV) common in urban industrial areas. - **Mobility system:** - **Omnidirectional wheels:** They allow the PAM to move easily in narrow and congested streets., Characteristics of many areas of Medellin. - **Electric motor:** Designed to be powered by both rechargeable batteries and solar panels, Taking advantage of Medellin's sunny days for a sustainable operation. - **Smart sensors:** - **Air quality detectors:** Configured to identify city-specific pollutants. - **GPS for navigation:** Customized for the urban environment of Medellin, optimizing routes to the most polluted areas. - **Proximity sensors:** PAM security guaranteed on busy city streets. - **Control unit:** - **microprocessor:** Processes sensor data and adjusts PAM operation in real time. - **Wi-Fi connectivity:** It allows the transmission of data to a central base located in Medellín, for urban analysis and planning. - **User interface:** - **Mobile app:** Allows local authorities and users to remotely monitor and control PAM, adjusting their operations to the specific needs of the day.

สเกล CFG

ขั้นตอน

25

เครื่องเก็บข้อมูล

euler

เมล็ด

1172739278

ตัวจัดตารางเวลา

ขนาดรูปภาพ

688 X 1024

โมเดล

SeaArt Infinity

สร้าง

ขนาด

688X1024

วันที่

Aug 23, 2024

โหมด

สตูดิโอ

ประเภท

cell

Checkpoint & LoRA

Checkpoint

SeaArt Infinity

#เครื่องจักร

#SeaArt Infinity

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