Understanding ASC-OM: A Game-Changer in Tunneling Technology
The construction industry has always been on the lookout for innovative technologies that can streamline processes and reduce time. One such technology that has been making waves is the ASC-OM (Automatic Synchronization Control for Overhead Mining) system. This cutting-edge technology, as highlighted in a recent杞ㄩ亾浜ら€氬睍璁?article, is revolutionizing the way tunnels are constructed.
ASC-OM is a high-speed construction technique that allows for simultaneous excavation and assembly of tunnel boring machines (TBMs). The system is designed to automatically control the jacking pressure applied to the excavation surface, ensuring precise boring direction and high-speed construction. By doing so, ASC-OM significantly reduces the construction cycle time, making it a valuable asset for any construction project.
The stability of the direction control is one of the key advantages of ASC-OM. It achieves this by managing the “force point,” which is the resultant force of the jacks’ thrust. By individually controlling the pressure of the required jacks through ASC-OM, the force point can be maintained, resulting in stable direction control and ensuring linear precision. This level of accuracy is crucial for constructing tunnels with high-quality direction control.
ADMC: A Leap Forward in Thermal Power Plant Automation
Automation is not limited to tunneling; it is also making significant strides in various industries, including thermal power generation. One such example is the ADMC (Advanced Digital Management Control) system, as showcased in a report by楣ゅ榧庣偓鐑兘鏈夐檺鍏徃.
The ADMC system, developed by鍏ㄥ簲绉戞妧, has been successfully implemented at榧庣偓鐑兘, achieving an impressive 99% automation rate in the thermal power plant. This system not only optimizes the operation of the power plant but also lays a solid foundation for the company’s sustainable development.
The ADMC system is based on thermal machine physics and expert knowledge, utilizing big data and artificial intelligence technologies. It employs cloud-edge collaborative computing and digital twin models to integrate multi-objective predictive control (MPC), real-time target optimization (RTO), and global real-time intelligent scheduling (RTS) into one cohesive system. This enables intelligent, safe, stable, and energy-efficient operation of the thermal power units.
ADMC Pulse Bag Filter: A Key Player in Air Pollution Control
Air pollution is a significant concern for many industries, and one effective solution is the use of pulse bag filters. The ADMC pulse bag filter, as described in an article byADMC鑴夊啿琚嬪紡闄ゅ皹鍣ㄧ殑宸ヤ綔鍘熺悊, is an excellent example of this technology in action.
The ADMC pulse bag filter utilizes an external filtration method to purify gases. The dust-laden gas enters the filter chamber through a uniform distribution device, ensuring an even distribution of airflow. The dust particles in the gas are separated through natural sedimentation and then captured by the filter bags.
The filter bags are cleaned using compressed air, which is directed into the filter bags through a series of nozzles. This process, known as pulse cleaning, causes the filter bags to vibrate and expel the accumulated dust. The entire system is controlled by a PLC, allowing for automated, unattended operation and remote control from the factory’s main system.
ADMC in Electric Motor Control: A New Era of Efficiency
The ADMC concept is not limited to tunneling and thermal power plants; it has also found its way into electric motor control. An article on鐢靛瓙鍙戠儳鍙嬬綉 provides insights into the use of ADMC in controlling AC motors.
The ADMC-200-EVAL board, mentioned in the article, is a reference design for AC motor control experiments. It showcases the capabilities of the ADMC system in controlling AC motors, making them more efficient and reliable.
The article highlights various aspects of AC motor control, including the use of PID programs, voltage space vector control, and direct torque control. It also discusses the importance of understanding the mathematical models and coordinate transformations of AC motors for effective control.
ADMC in Coal Chemical Industry: A Step Towards Digitalization and Green Development
The ADMC system is also making waves in the coal chemical industry, as evidenced by the delivery ceremony of the ADMC thermal power plant intelligent control system at鏄撻珮鐓ゅ寲.
The implementation of the ADMC system at 鏄撻珮鐓ゅ寲 has significantly improved the efficiency and stability of the thermal power plant. It has reduced the workload of the operating personnel, enhanced the control effect, and improved the quality of steam supply. This has not only contributed to the company’s success but also set a new benchmark for the digitalization and green development of thermal power units in the region.
The successful implementation of the ADMC system at 鏄撻珮鐓ゅ寲 is a testament to the power of technology in transforming industries and promoting sustainable development.
