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This equipment is primarily used for the compression processing of solid radioactive nuclear waste. It significantly reduces the volume of containers used for solid radioactive materials, offering a high volume compression ratio and compact packaging size to meet the user's requirements for efficient and economical waste reduction. The equipment provides a pressing force of over 20,000 kN and integrates functions such as barrel centering, barrel wall piercing, die-casing closure, compression and holding, automatic separation of the die-casing and compact, directed discharge and centralized collection of waste gas and liquid. The equipment maintains an exceptionally high level of safety and protection.
This equipment is primarily used for the compression processing of solid radioactive nuclear waste. It significantly reduces the volume of containers used for solid radioactive materials, offering a high volume compression ratio and compact packaging size to meet the user's requirements for efficient and economical waste reduction. The equipment provides a pressing force of over 20,000 kN and integrates functions such as barrel centering, barrel wall piercing, die-casing closure, compression and holding, automatic separation of the die-casing and compact, directed discharge and centralized collection of waste gas and liquid. The equipment maintains an exceptionally high level of safety and protection.
Pressing force exceeding 20,000 kN
High volume compression ratio
Compact packaging size
Barrel centering for precise positioning
Barrel wall piercing for efficient processing
Die-casing closure for secure containment
Compression and holding mechanisms for optimal waste reduction
Automatic separation of die-casing and compact
Directed discharge system for controlled waste management
Centralized collection of waste gas and liquid
Exceptionally high level of safety and protection
Significantly reduces container volume for solid radioactive materials
Meets user requirements for efficient waste reduction
Economical solution for long-term waste storage
Pressing force exceeding 20,000 kN
High volume compression ratio
Compact packaging size
Barrel centering for precise positioning
Barrel wall piercing for efficient processing
Die-casing closure for secure containment
Compression and holding mechanisms for optimal waste reduction
Automatic separation of die-casing and compact
Directed discharge system for controlled waste management
Centralized collection of waste gas and liquid
Exceptionally high level of safety and protection
Significantly reduces container volume for solid radioactive materials
Meets user requirements for efficient waste reduction
Economical solution for long-term waste storage
Minimizes storage space required for nuclear waste
Reduces transportation needs and associated risks
Lowers long-term storage and management costs
Increases operational efficiency in waste processing
Reduces handling of radioactive materials
Improves containment of hazardous substances
Helps meet strict nuclear waste management regulations
Supports sustainable nuclear energy practices
Minimizes storage space required for nuclear waste
Reduces transportation needs and associated risks
Lowers long-term storage and management costs
Increases operational efficiency in waste processing
Reduces handling of radioactive materials
Improves containment of hazardous substances
Helps meet strict nuclear waste management regulations
Supports sustainable nuclear energy practices
User-friendly interface for easy operation
Comprehensive training and support available
Regular maintenance schedules for optimal performance
Robust construction for long-term reliability
User-friendly interface for easy operation
Comprehensive training and support available
Regular maintenance schedules for optimal performance
Robust construction for long-term reliability
Our Nuclear Waste Compression Hydraulic Press is specifically designed to meet the diverse needs of various institutions dealing with solid radioactive waste. Its versatility and efficiency make it an ideal solution for:
Handles operational waste from power generation
Processes contaminated materials from maintenance activities
Manages decommissioning waste during plant closure
Reduces volume of low and intermediate-level waste
Helps optimize on-site storage before final disposal
Compresses waste from nuclear research experiments
Manages radioactive materials used in medical research
Processes contaminated lab equipment and supplies
Handles waste from radioisotope production
Assists in managing waste from particle accelerator facilities
Compresses solid waste from nuclear medicine departments
Processes contaminated materials from radiation therapy units
Manages radioactive waste from diagnostic imaging procedures
Helps in disposing of expired radiopharmaceuticals
Handles waste from industrial radiography operations
Processes contaminated materials from oil and gas exploration using radioactive tracers
Manages waste from sterilization processes using radiation
Compresses contaminated soil and debris from cleanup sites
Processes waste from decontamination of radioactively polluted areas
Assists in managing waste from uranium mine rehabilitation projects
Handles waste from nuclear submarine and ship decommissioning
Processes contaminated materials from nuclear weapons programs
Manages waste from military research involving radioactive materials
Compresses waste from university nuclear engineering programs
Processes contaminated materials from physics and chemistry labs using radioisotopes
Provides efficient processing for companies specializing in radioactive waste handling
Assists in volume reduction for long-term storage and disposal facilities
Our Nuclear Waste Compression Hydraulic Press is specifically designed to meet the diverse needs of various institutions dealing with solid radioactive waste. Its versatility and efficiency make it an ideal solution for:
Handles operational waste from power generation
Processes contaminated materials from maintenance activities
Manages decommissioning waste during plant closure
Reduces volume of low and intermediate-level waste
Helps optimize on-site storage before final disposal
Compresses waste from nuclear research experiments
Manages radioactive materials used in medical research
Processes contaminated lab equipment and supplies
Handles waste from radioisotope production
Assists in managing waste from particle accelerator facilities
Compresses solid waste from nuclear medicine departments
Processes contaminated materials from radiation therapy units
Manages radioactive waste from diagnostic imaging procedures
Helps in disposing of expired radiopharmaceuticals
Handles waste from industrial radiography operations
Processes contaminated materials from oil and gas exploration using radioactive tracers
Manages waste from sterilization processes using radiation
Compresses contaminated soil and debris from cleanup sites
Processes waste from decontamination of radioactively polluted areas
Assists in managing waste from uranium mine rehabilitation projects
Handles waste from nuclear submarine and ship decommissioning
Processes contaminated materials from nuclear weapons programs
Manages waste from military research involving radioactive materials
Compresses waste from university nuclear engineering programs
Processes contaminated materials from physics and chemistry labs using radioisotopes
Provides efficient processing for companies specializing in radioactive waste handling
Assists in volume reduction for long-term storage and disposal facilities