Overview of the Plan
Efficient and energy-saving, intelligent interconnection, driving a new cooling ecosystem
☰ Industry pain points
In the construction of large-scale water conservancy and hydropower, bridge tunnels, nuclear power projects and other infrastructure, the concrete pouring process releases a large amount of heat due to cement hydration reaction, which can easily cause excessive temperature difference between the inside and outside, leading to structural cracks and seriously affecting the quality and safety of the project. Traditional cooling methods generally have the following problems:
·Low temperature control accuracy: difficult to achieve precise temperature control, which can easily cause stress concentration inside the concrete;
·High efficiency and low energy consumption: Some systems have high operating costs and slow cooling speeds, which affect construction progress;
·Poor equipment stability: high equipment failure rate and frequent maintenance under long-term continuous operation; Lack of intelligent management:
·Lack of remote monitoring and data analysis capabilities, making operation and maintenance difficult;
·Weak environmental adaptability: Poor performance in complex environments such as high temperature, high humidity, or high altitude.
Therefore, there is an urgent need for an efficient, stable, and intelligent concrete cooling system solution to meet the dual requirements of quality and efficiency in modern engineering construction.
CBFI Concrete Cooling Solution
CBFI relies on more than 20 years of refrigeration technology accumulation, combined with actual engineering construction conditions, to launch customized concrete cooling system solutions, covering chiller units, aggregate pre cooling systems, mixing plant cooling systems, and intelligent temperature control platforms, widely used in projects such as dams, bridges, tunnels, and power stations.
This plan adopts a direct cooling ice storage and low-temperature cold water circulation system to achieve temperature control management throughout the entire process from raw material cooling to mixing, ensuring stable and controllable temperature at the concrete outlet and effectively preventing the risk of thermal cracking.
Service Introduction
CBFI provides a full process service covering pre consultation, scheme design, equipment manufacturing, installation and commissioning, and after-sales maintenance, including:
·Project evaluation and requirement analysis:
Develop personalized cooling plans based on factors such as project type, concrete volume, construction period, etc;
·System integration design:
Including chiller configuration, cooling tower selection, pipeline layout, automation control system, etc;
·Core equipment delivery:
Provide high-performance screw chillers, ice storage systems, aggregate spray cooling devices, etc;
·Building an intelligent temperature control platform:
Support remote monitoring, temperature collection, abnormal alarm, data analysis and other functions;
·On site installation and debugging:
Professional technical team on-site guidance to ensure efficient operation of the system;
·After sales maintenance guarantee:
Quick response mechanism, regular inspections and technical support to ensure the continuous and stable operation of the system.
Advantages of the plan
The CBFI concrete cooling system solution has five core advantages, helping customers create high-quality and efficient green projects:
·Precise temperature control:
Adopting PID constant temperature control technology and multi-point temperature measurement system, the temperature fluctuation is controlled within ± 0.5 ℃ to ensure the quality of concrete.
·Efficient and energy-saving:
The combination mode of ice storage and cold water circulation significantly reduces peak power load and improves overall energy efficiency by more than 15%.
·Stable and reliable:
The core components are selected from internationally renowned brands to adapt to long-term continuous operation and ensure stable system output.
·Intelligent management:
Equipped with an IoT remote monitoring platform, it achieves multiple intelligent functions such as unmanned operation, automatic adjustment, and fault warning.
·Flexible adaptation:
Modular design and rapid deployment can be carried out according to different project scales, climate conditions, and construction requirements.
