Shandong Zhongjie Special Equipment (formerly Heze Boiler Factory Co., Ltd.) was established in 2001, located at No. 2218 Jinnan Road, Economic and Technological Development Zone, Heze City. With a registered capital of 50 million yuan and total assets of 500 million yuan, the company has seven business centers: boiler, deep-freezing vessel, pressure vessel, central air conditioning, engineering installation, international trade, and Internet of Things. It has three factory sites on Jinnan Road, East Changjiang Road, and Bohai Road, covering a total of 200,000 square meters. The main workshop spans 83,000 square meters. It currently employs 710 staff, including 247 engineers and technicians, and 82 intermediate-level technicians. In December 2016, it was recognized as a "High-Tech Enterprise" by the Science and Technology Department. In June 2021, it was identified as a "Specialized and New Enterprise in Shandong Province" by the Department of Industry and Information Technology. In June 2022, it was recognized as a "Gazelle Enterprise in Shandong Province," and in August 2022, it was identified as a "Specialized and New Small Giant Enterprise" by the Ministry of Industry and Information Technology.
When using a thermal oil furnace with gas, the following points should be noted: - Safe Operation: A thermal oil furnace is a high-temperature equipment, and safety must be prioritized during operation. Operators should be familiar with the equipment's operation procedures and safety precautions, wear necessary personal protective equipment, and ensure safe operation. - Gas Supply: A stable gas supply is required for the thermal oil furnace. Before use, check if the gas pipeline is clear, the gas valve is open, and ensure normal gas supply. - Thermal Oil Circulation: The thermal oil furnace needs to circulate the thermal oil through a pump to the heat source equipment. Before use, inspect the pump's operation to ensure it is functioning properly. - Temperature Control: A thermal oil furnace typically requires a temperature control system to regulate the temperature of the thermal oil. Before use, check the settings and adjustments of the temperature control system to ensure accurate and reliable control. - Regular Maintenance: Regular maintenance and upkeep are necessary for the thermal oil furnace, including cleaning the burner, checking the tightness of pipelines and valves, and replacing worn parts. Regular maintenance ensures the normal operation of the equipment and extends its service life. - Environmental Protection: During combustion, thermal oil furnaces produce exhaust gases, and exhaust emissions must be ensured. Appropriate exhaust gas treatment measures, such as flue gas purification equipment, can be taken to reduce environmental impact. - The above are some precautions when using a thermal oil furnace with gas. To ensure safety and the normal operation of the equipment, it is recommended to follow relevant operation procedures and safety requirements, and perform regular maintenance and inspections. If necessary, consult the manufacturer or engineer of the thermal oil furnace for advice.

Steam boiler equipment water treatment refers to the processing of water in steam boilers to ensure normal boiler operation and extend the service life of the equipment. Here are some basic knowledge points about steam boiler equipment water treatment: Water Quality Requirements: The water quality in steam boilers is of high requirement, usually necessitating the removal of impurities, dissolved oxygen, and hardness substances. Impurities and hardness substances can lead to scaling and corrosion on the boiler inner walls, while dissolved oxygen can cause corrosion and the formation of bubbles. Removal of Impurities: Common methods for removing impurities from water include sedimentation, filtration, and ion exchange. Sedimentation involves adding chemicals to make impurities settle, filtration filters out impurities through a filtering medium, and ion exchange removes impurities by adsorption and ion exchange using resins. Adjusting Hardness: The hardness substances in water are mainly calcium and magnesium salts, which can cause scaling on the boiler inner walls. Hardness can be adjusted by adding chemicals or using water softening equipment to prevent scaling issues. Removing Dissolved Oxygen: Dissolved oxygen can cause corrosion and the formation of bubbles. It can be removed by adding oxidizing agents or using deoxygenation equipment. Controlling pH Level: The pH level of water in steam boilers affects equipment corrosion and scaling. It is usually necessary to control the water pH within an appropriate range, using buffering agents or regulators to adjust the pH level. Regular Testing and Maintenance: Regular water quality testing of the steam boiler equipment, including measuring hardness, dissolved oxygen, and pH levels, is necessary. Based on the test results, appropriate water treatment measures and maintenance should be implemented. Steam boiler equipment water treatment is a crucial aspect for ensuring normal boiler operation and extending equipment life. Rational water treatment measures can effectively prevent scaling, corrosion, and malfunctions on the boiler inner walls.

The purpose of deoxygenation in industrial boiler feed water is to reduce oxygen corrosion and bubble formation inside the boiler, thereby ensuring the safety and proper operation of the boiler and pipeline system. The main methods of deoxygenation include: 1. Mechanical Deoxygenation: Removes oxygen from water using physical methods. Common mechanical deoxygenation equipment includes deaerators and degassers. Deaerators remove oxygen by atomizing water into a thin film, taking advantage of the difference in gas solubility. Degassers, on the other hand, remove oxygen by atomizing water into fine droplets, also utilizing the difference in gas solubility. 2. Thermal Deoxygenation: Removes oxygen from water by heating the water body, taking advantage of the fact that oxygen solubility decreases with temperature. Common thermal deoxygenation equipment includes deaerator pots and deaerators. Deaerator pots release oxygen from water by heating it to saturation temperature, while deaerators remove oxygen by heating water and reducing its solubility. 3. Chemical Deoxygenation: Removes oxygen from water by adding chemicals that react with it, thus removing oxygen. Common chemical deoxygenating agents include salts and reducers. Chemical deoxygenation is often used in high-pressure boiler systems and can effectively remove oxygen from water. The choice and method of deoxygenation depend on the specific boiler system and water quality. In practice, a combination of deoxygenation methods is often used to achieve the desired deoxygenation effect. The selection and operation of deoxygenation equipment should be assessed and adjusted based on the actual situation to ensure the safety and proper operation of the boiler system.

A gas heat transfer oil furnace is a device that uses gas as fuel and transfers heat energy through heat transfer oil. Its features include:  High thermal efficiency: The gas heat transfer oil furnace uses heat transfer oil as the heat conduction medium, offering high heat conduction efficiency. The heat transfer oil has high thermal conductivity and stability, enabling rapid heat transfer and improving energy utilization efficiency. Temperature control: By controlling the gas supply and the circulation of the heat transfer oil, the gas heat transfer oil furnace can achieve temperature control of the working environment. Temperature control can meet various process and production requirements, enhancing production efficiency and product quality. Safety and reliability: The gas heat transfer oil furnace employs a closed-loop system, with the combustion process occurring in an enclosed environment, reducing the risk of gas leakage. Additionally, the heat transfer oil has a high flash point and ignition point, making the combustion process relatively safe and reliable. Versatility: The gas heat transfer oil furnace is suitable for various industrial fields such as chemicals, textiles, and food processing. It can adapt to different process requirements and working conditions, offering strong flexibility. Environmental protection and energy saving: The gas heat transfer oil furnace emits relatively low exhaust gas during combustion, causing minimal environmental pollution. Due to its high thermal efficiency and temperature control, it can save energy consumption and reduce energy costs. It is important to note that regular inspection and maintenance are required for the gas heat transfer oil furnace during use to ensure proper operation and extend its service life. Moreover, selecting the appropriate model and supplier of the gas heat transfer oil furnace is crucial to ensuring its features and performance.
Shandong Zhongjie Special Equipment, welcome customers to visit our factory for business discussions.