Shandong Zhongjie Special Equipment (formerly Heze Boiler Factory Co., Ltd.) holds an A-grade boiler manufacturing license, an A2-grade pressure vessel manufacturing license, an A2-grade pressure vessel design license, a B-grade boiler installation license, and GB2/Class and GC2/Class pressure pipeline installation licenses, as well as an equipment and machinery installation contracting qualification. It is a member of the China Boilers and Water Treatment Association, the China Chemical Equipment Association, and a director unit of the Shandong Equipment Manufacturing Association. The company has also passed the ISO9001 Quality Management System, ISO14001 Environmental Management System, OHSAS18001 Occupational Health and Safety Management System certifications, and the American ASME/U2 certification.
Carbon Dioxide Applications in the New Energy Field Carbon Capture and Storage (CCS): This technology reduces CO2 emissions by capturing CO2 from industrial sources and storing it underground, preventing its release into the atmosphere. It aids in decreasing greenhouse gas emissions and mitigating climate change. Carbon Utilization: CO2 can be utilized to produce valuable chemicals and fuels. For instance, through CO2 catalytic conversion technology, CO2 can be transformed into fuels like ethanol, which are either combustible or used in chemical industries. This carbon utilization technique helps reduce dependence on traditional fossil fuels and promotes sustainable energy development. Carbon Dioxide Batteries: This is a new battery technology that uses CO2 as the battery's material. By converting CO2 into electrical energy, these batteries can serve as a sustainable energy storage solution, contributing to the advancement of electric vehicles and renewable energy. Carbon Dioxide Photocatalysis: This technology uses solar energy to convert CO2 into useful chemicals. By employing photocatalysts, CO2 and water can be transformed into combustible gases or organic compounds, thereby realizing the resource utilization of CO2. These applications aim to reduce CO2 emissions, enhance energy efficiency, and promote the development of sustainable energy. However, these technologies are still in continuous development and research, requiring further technical breakthroughs and practical verification.

Low-temperature CO2 storage tanks are equipment used for storing and transporting liquid CO2 (carbon dioxide) at low temperatures. Here are some facts related to low-temperature CO2 storage tanks: Tank Structure: These tanks typically feature a double-walled design, with the inner wall for storing liquid CO2 and the outer wall for insulation. The interior is usually made of stainless steel or aluminum alloy, offering excellent corrosion resistance. Storage Temperature: The storage temperature for low-temperature CO2 tanks usually ranges from -40°C to -196°C, depending on specific application requirements. Temperature control is crucial for maintaining the stability and safety of the liquid CO2. Storage Capacity: The capacity of low-temperature CO2 storage tanks can be selected based on actual needs, generally ranging from a few thousand to tens of thousands of liters. The choice of capacity should consider storage requirements, supply frequency, and spatial constraints. Safety Protection: These tanks require safety protection devices, such as pressure relief valves, pressure sensors, and temperature sensors, to ensure internal pressure and temperature remain within safe limits. Transportation Methods: Low-temperature CO2 storage tanks can be transported via road, rail, or ship. Appropriate insulation measures must be taken during transportation to maintain the low-temperature state of the liquid CO2 inside. Safe Operation: The operation of low-temperature CO2 storage tanks requires training and adherence to safety operating procedures. Operators should be familiar with the tank's characteristics and safety considerations to ensure safe and effective operation. Regular Inspection and Maintenance: Regular inspections and maintenance are necessary for low-temperature CO2 storage tanks, including visual inspections, valve and pipe checks, and pressure relief device checks. Regular maintenance ensures the tank operates normally and safely. The above are some facts related to low-temperature CO2 storage tanks. When using and operating these tanks, follow relevant safety regulations and standards, and consult with experts to ensure safety and effectiveness.

Carbon dioxide synthesis is a chemical reaction process that utilizes carbon dioxide. This reaction has several applications: Fertilizer production: It is an essential raw material for manufacturing fertilizers, and carbon dioxide synthesis represents a sustainable production method. By reacting with carbon dioxide, it can synthesize compounds used in the production of nitrogen fertilizers, such as urea. This approach reduces dependence on fossil fuels used in traditional production methods and lowers greenhouse gas emissions. Energy storage: Carbon dioxide synthesis can also serve as a form of energy storage. By reacting carbon dioxide, energy can be stored in the form of chemical bonds. When energy is needed, the reverse reaction can decompose the compounds back into carbon dioxide and, releasing the stored energy. Fuel cells: It can be used as a clean fuel for fuel cells. By synthesizing carbon dioxide and using it in fuel cells, electricity can be generated, with only water and nitrogen as by-products, reducing environmental pollution. Chemical synthesis: It is an important raw material for the synthesis of many chemicals. Carbon dioxide synthesis can provide a sustainable supply for the chemical industry, used to synthesize other chemicals, such as etc. The development of carbon dioxide synthesis technology aims to reduce dependence on fossil fuels used in traditional production methods, lower greenhouse gas emissions, and promote the development of sustainable energy and the chemical industry. However, this technology is still in continuous development and research, requiring further technological breakthroughs and practical verification to achieve large-scale application.

The testing and maintenance of liquid oxygen storage tanks are crucial for ensuring safe operation and extending their service life. Below is a general outline of the testing and maintenance procedures for liquid oxygen storage tanks: - Visual Inspection: Regularly inspect the exterior of liquid oxygen storage tanks for signs of corrosion, wear, and cracks. Promptly repair or replace any abnormalities found. - Internal Cleaning: Regularly clean the interior of liquid oxygen storage tanks to remove accumulated impurities and dirt. Use appropriate cleaning agents and tools to avoid damaging the tank. - Level Measurement: Regularly measure the liquid level to ensure it remains within a safe range within the storage tank. Use level gauges or other measurement devices, and record the results. - Pressure Testing: Regularly conduct pressure tests to verify the tank's pressure-bearing capabilities. Control pressure and time during testing to ensure safety and accuracy. - Leak Detection: Regularly perform leak detection to ensure the tank's sealing integrity. Use leak detection equipment such as gas detectors or foam leak detection agents. - Valve and Pipeline Inspection: Regularly check the valves and pipeline connections of the liquid oxygen storage tank to ensure proper sealing and no leakage. Promptly repair or replace any issues found. - Maintenance Records: Document the testing and maintenance activities of the liquid oxygen storage tank, including dates, inspection content, and results. Records help track maintenance history and issue resolution. - Scheduled Maintenance: Develop a regular maintenance plan based on the tank's usage and requirements. Maintenance includes lubrication, bolt tightening, and seal replacement to ensure normal operation.
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