Concrete batching plants are often associated with negative images such as thick dust, sewage, and noise pollution. However, this is not the case for a specific plant owned by the Chinese construction engineering company, China MCC22 Group Corporation Ltd., located in the Xiong’an New Area of Hebei province, North China.
Remarkably, this plant is situated right beside a beautiful forest, creating a pleasant and contrasting atmosphere to the typical industrial landscape. Despite being a concrete batching plant, the workshops at this location are as tranquil as office buildings. Furthermore, the cleanliness of the ground is impressive and reminiscent of basketball courts.
According to An Huajie, director of the digital center of the Xiong’an branch of China MCC22 Group Corporation Ltd., the plant has achieved a remarkable feat. The production capacity of this concrete batching plant has surpassed all other such plants in China, breaking records for daily production.
The positive features of this plant not only demonstrate the company’s commitment to creating a better environment but also serve as an example to other concrete batching plants to improve their practices. The juxtaposition of the industrial plant and forest also highlights the importance of sustainable development, where economic growth can coexist with environmental protection.
China MCC22 Group Corporation Ltd.’s concrete batching plant in Xiong’an New Area is an exceptional example of industrial development that prioritizes environmental sustainability. The plant’s unique features and exceptional production capacity set a standard for other concrete batching plants across China and serve as an inspiration for future sustainable development.
Xiong’an New Area is a new development zone, established to take over the noncapital functions of Beijing. Currently, construction is underway at full speed in this area, and intelligent construction technologies have been employed in several engineering projects. One of the most notable examples of this is the fully automatic concrete production plant.
The concrete production plant has been designed with state-of-the-art technology that eliminates the need for manual operation. The smart operating center houses a large screen that displays real-time information about the seven production lines of the plant. The center operates without human intervention, and the production process is completely emission-free. The takt time of the plant can be precisely controlled down to a millisecond.
According to An, the head of the concrete plant, the adoption of intelligent technologies has resulted in a three-fold increase in production efficiency while reducing the amount of labor required by 90 percent. Furthermore, the plant has developed a mobile application that enables customers to order concrete as easily as they would order food online. As a result of these improvements, the plant supplies over 10 percent of the concrete used in Xiong’an New Area, and its products can be found on more than 100 construction sites.
This advanced concrete production plant is a prime example of how intelligent construction technologies can improve efficiency and reduce labor costs. In addition, it shows how the integration of technology can create environmentally friendly solutions. The implementation of such technology is expected to be replicated in other areas and industries to enhance productivity and sustainability.
Xiong’an New Area, one of China’s new megacities, boasts a surprising feat underground – buried facilities of water and power supply, gas pipes, heat network, and communication cables. In a bid to bid farewell to overhead cable networks and frequent road patching, which had previously been a headache in urban management, Xiong’an’s underground pipe galleries are now two-storied, with cars even running on the upper logistics story, according to Huang Ji, technical head of the Rongdong section of the underground pipe gallery project from China MCC20 Group Corporation Ltd.
While the advanced design of the underground pipe galleries may seem impressive, it also posed a challenge during construction. The depth of foundation pits reached over 20 meters at some points, which meant an excavation of over 1.3 million cubic meters – enough to fill up 17,000 twenty-foot equivalent units.
Despite the challenges, the underground pipe galleries in Xiong’an represent an innovative solution to traditional urban management issues. By burying essential infrastructure underground, the city can effectively manage its water and power supply, gas pipes, heat network, and communication cables without unsightly overhead cables or the need for frequent road patching.
The underground pipe galleries not only contribute to Xiong’an’s modern aesthetic, but they also improve the city’s overall functionality. With essential infrastructure underground, the city can allocate more space for green areas, pedestrian walkways, and other urban design elements that make for a more livable city.
Overall, the underground pipe galleries in Xiong’an represent a remarkable feat of modern engineering and urban management. By burying essential infrastructure underground, the city can manage its resources effectively, improve its overall functionality, and create a more livable and sustainable urban environment for its residents.
China MCC20 Group Corporation Ltd. utilized photogrammetry and building information modeling techniques to ensure reliable and speedy construction. Drones were used to capture images, which were then analyzed to obtain elevations, built data models, and calculate earth volumes. By using these advanced technologies, an optimal excavation plan was selected, which reduced the construction period by one month. This demonstrates how the implementation of cutting-edge technology can help optimize construction processes and increase efficiency.
Smart construction has also been instrumental in improving site safety. Chen Zhiguo, the site manager of a resettlement project in Xiong’an New Area contracted by Shanghai Baoye Group Corp., Ltd., revealed that 39 buildings, eight supporting facilities for public services, and two schools are expected to be completed within 15 months. The project is assisted by a range of smart devices that provide real-time monitoring and data analysis. For instance, the spray system on tower cranes is equipped with particle sensors that detect air quality, and the system can automatically start or shut down the spray system accordingly. There’s also an intelligent gate machine that recognizes staff members and construction materials, which enhances security on the site. Moreover, a weather monitoring system advises workers to avoid working at heights if it detects strong winds.
Chen Zhiguo further elaborated that additional technological innovations will be employed to improve the high-standard construction of Xiong’an New Area. This implies that more advanced technologies will be integrated to enhance the overall efficiency and safety of the construction site, which can result in better-quality projects and a more sustainable approach to construction.
The implementation of photogrammetry, building information modeling, smart devices, and other innovative technologies can bring significant benefits to construction projects. By adopting these cutting-edge technologies, construction firms can improve safety, optimize processes, reduce project durations, and enhance overall efficiency. It is also worth noting that by embracing sustainable construction practices and the use of advanced technologies, we can create more environmentally-friendly projects and contribute to the global efforts towards a greener future.
In conclusion, it is evident that the construction industry can greatly benefit from the adoption of new technologies. The successful implementation of these technologies in projects such as Xiong’an New Area can set a precedent for other firms to follow. With continued innovation and the integration of smart devices, construction sites can become safer, more efficient, and environmentally friendly.