Maximizing Sustainability and Efficiency with Smart Wastewater Recycling
Wastewater recycling has become a cornerstone of environmental sustainability and resource management, particularly in industrial sectors where water shortages are becoming increasingly frequent due to extreme weather patterns. According to research, global water demand is expected to exceed supply by 40% by 2030, making efficient water management strategies more critical than ever. Wastewater recycling not only contributes to environmental conservation by reducing freshwater consumption but also offers significant cost savings for corporations. In this context, smart embedded systems play a pivotal role in optimizing wastewater treatment processes. These advanced systems provide real-time monitoring, data collection, and device control, ensuring precision at every step. The integration of Supervisory Control and Data Acquisition (SCADA) systems further enhances operational efficiency, offering a comprehensive and transparent view of the entire treatment process. By adopting these technologies, industries can achieve greater sustainability, resilience, and economic efficiency in their water management practices.
IMB540: High-Performance ATX Motherboard for Workstation Operation
Powerful Computing Capacity
The IMB540 is powered by 13th Gen Intel® Core™ processors and supports four DDR4 slots with up to 128GB of memory, as well as an M.2 Key M 2280 slot for storage, accelerating processing and data read/write performance.
Great Expandability for GPU Cards
The IMB540 features great expandability with two PCIe Gen4 x16 slots and three PCIe x4 slots, allowing integration with GPU, AI acceleration, frame grabber, and motion control card configurations.
Outstanding Connectivity
The IMB540 has one PCI Express Mini Card slot with a SIM slot for wireless connectivity. Additionally, 2.5GbE LAN provides high-speed data transmission, allowing the workstation to acquire parameter data from edge devices and send it directly to the cloud for advanced applications.
ICO120-E3350: Compact DIN-Rail Gateway with Rich I/O Interfaces
Compact Size and Low Power
The ICO120-E3350 is palm-sized, making it easy to deploy in space-constrained field sites. The Intel® Celeron® processor N3350 helps keep power consumption low.
Rich I/O Interface
The ICO120-E3350 provides flexible I/O interfaces for OT field sites. Two DB9 ports provide options for COM, CAN, and DIO, allowing integrators and users to choose the combination they need.
Rugged and Reliable
The ICO120-E3350 features fanless operation, a wide operating temperature range from -40°C to +70°C, and a wide 9–36 VDC power input.
GOT818A-TGL-WCD: Rugged Touch Panel PC for Demanding Environments
Extraordinary Durability
The GOT818A-TGL-WCD panel PC features an IP66/IP69K-rated and NEMA 4X-compliant design for water, dust, and corrosion resistance. All I/O connectors are M12-type, and the system operates reliably across a wide temperature range from -20°C to +50°C.
Great Connectivity
Through the LAN port, the touch panel PC can collect data from smart field devices with low latency. It also supports a Wi-Fi kit for wireless network connectivity, enabling flexible deployment in wastewater treatment environments.
Powerful Computing
Powered by the Intel® Core™ i5-1145G7E processor and integrated with Intel® Iris® Xe Graphics, the GOT818A-TGL-WCD supports data visualization and dashboard creation, allowing integrated graphics to render alarms and display real-time data updates.