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Insights into CSI Specifications FRP Pipe: A Comprehensive Guide

define frp pipe

Fiberglass Reinforced Plastic (FRP) pipes are increasingly being recognized for their robustness, resistance to corrosion, and long service life, making them an essential component in various industrial applications, from chemical processing to water distribution. In this context, the use of clear and comprehensive guidelines, such as the CSI specifications FRP pipe, is crucial. These CSI specifications serve as a rigorous framework that ensures all aspects of FRP pipe design, production, and implementation meet consistent quality standards and engineering precision. Adhering to these specifications not only guarantees the optimal performance of FRP pipes in diverse environments but also enhances the reliability of construction and engineering projects in which these pipes are utilized. This ensures that FRP installations sheet are carried out professionally and remain durable over time.

What is FRP Pipe?

Fiberglass Reinforced Plastic (FRP) pipe embodies a composite material made of a polymer matrix reinforced with fibers, commonly glass. This result is a lightweight, highly durable, and resistant pipe suitable for various applications. It’s a technological advancement that aligns with the meticulous demands of csi specifications frp pipe in modern construction and engineering projects.

Importance of Support Spacing to Control FRP Pipe Deflection

Description of FRP pipe and its uses in various industries

FRP pipes are used across a breadth of industries, underscoring their versatility and adaptability to diverse operational conditions. Here are eight significant uses:

  1. Chemical Processing Plants: Due to their resistance to corrosive substances, FRP pipes are ideal for transporting chemicals.
  2. Water and Wastewater Treatment: FRP’s resistance to erosion makes it suitable for wastewater management systems.
  3. Oil and Gas: Used in offshore and onshore applications for oil and water injection lines and as firewater lines.
  4. Power Generation: FRP pipes are crucial in cooling water lines and flue gas desulfurization systems.
  5. Marine: For intake and discharge lines due to their resistance to saltwater corrosion.
  6. Pulp and Paper Manufacturing: As part of the process water and chemical lines.
  7. Mining Operations: For leachate collection and acid transport lines.
  8. Desalination Plants: In carrying high-pressure salt and brackish water without corrosion.

Advantages of using FRP over traditional materials

Choosing FRP pipes under the guidance of csi specifications frp pipe offers numerous advantages over traditional materials like steel, concrete, or PVC. Below are nine points that highlight these benefits:

  1. Corrosion Resistance: FRP withstands a wide range of chemicals and doesn’t rust.
  2. High Strength-to-Weight Ratio: This feature makes them easier to transport and install, reducing overall project costs.
  3. Flexibility in Design: FRP can be engineered to specific strength and stiffness requirements.
  4. Durability: FRP has a long life span due to its ability to resist environmental factors.
  5. Lower Maintenance Costs: Their resistance to corrosion and durability results in lower maintenance.
  6. Leakage Resistance: The seamless construction of FRP pipes minimizes risks of leaks.
  7. High Flow Capacity: The smooth internal surface of FRP pipes reduces friction, allowing for higher flow rates. This is closely related to the FRP pipe roughness factor, as a lower roughness factor contributes to improved flow efficiency by minimizing turbulence and energy loss within the pipe.
  8. Energy Efficiency: Their lightweight and high flow capacity reduce energy costs associated with pumping.
  9. Environmentally Friendly: FRP pipes are often made with sustainable materials and methods, and their longevity and efficiency contribute to environmental conservation.

Adherence to the CSI specifications for FRP pipe ensures that the pipes are not only designed and manufactured to the highest standards but are also suitably matched to the specific demands of various industries, attesting to their all-rounded capabilities.

What is CSI Specifications FRP Pipe

The Construction Specifications Institute (CSI) plays a critical role in the organization and standardization of construction information. Insight into CSI aids professionals in comprehending the nuances of csi specifications frp pipe and other detailed construction elements.

Explanation of the Construction Specifications Institute (CSI)

  1. Diverse Membership: CSI’s member base includes a variety of professionals from architects to engineers, which creates a comprehensive knowledge pool for the development of construction standards.
  2. Innovative Tools: CSI creates and maintains innovative tools like Project Resource Manual and GreenFormat, supporting green and sustainable construction practices.
  3. Continuing Education: The institute emphasizes continuing education to keep construction professionals current with the evolving industry standards and best practices.
  4. Conventions and Workshops: Through its conventions and workshops, CSI provides opportunities for professionals to engage with the latest trends in construction and specification writing.
  5. Document Formats: CSI standardizes documentation formats, such as the Project Manual, to facilitate clear and effective project communication.
  6. Advancing Technology in Construction: CSI stays at the forefront of integrating technology within construction specifications and documentation processes.
  7. Standards of Practice: The institute establishes and promotes standards of practice that enhance the performance and functionality of construction projects.
  8. Cross-Disciplinary Collaboration: By providing a common framework for documentation, CSI fosters collaboration between different disciplines within the construction industry.

Importance of Standardized Specifications in Construction

  1. Universal Language: Standardized specifications serve as a universal language, reducing the potential for assumptions and errors.
  2. Benchmarking Performance: They enable benchmarking of construction materials and methods, thus helping in continuous improvement of industry practices.
  3. Enhanced Project Coordination: With clear specifications, coordination among multiple project teams becomes more manageable and effective.
  4. Improved Material Handling: They govern material handling and usage, ensuring safety and compliance with best practices.
  5. Risk Mitigation: Standard specifications can significantly mitigate risk by providing detailed guidelines that preempt potential issues.
  6. Sustainability and Efficiency: They are pivotal in facilitating sustainable and energy-efficient building methodologies.
  7. Compatibility and Integration: Standardized specifications aid in ensuring compatibility and integration of different system components within a project.
  8. Informed Decision-Making: They equip decision-makers with comprehensive information to make informed choices about products and services.

CSI Specifications Division 33 FRP Pipe

The CSI MasterFormat organizes construction specifications by Divisions, with Division 33 focusing on utilities, including specifications for FRP (Fiberglass Reinforced Polymer) pipes.

  1. Materials and Composition: It defines the acceptable materials and composition for FRP pipes, setting industry benchmarks for quality and durability.
  2. Size and Strength Requirements: The division specifies the required sizes, strengths, and tolerances, ensuring that the pipes meet the needs of different project scopes.
  3. Installation Methods: Detailed installation procedures outlined in the specifications contribute to the correct handling and placement of FRP pipes.
  4. Testing and Inspections: Division 33 mandates testing and inspection protocols that must be followed to ensure compliance with the specified constructs.
  5. Performance Criteria: It establishes performance criteria for FRP pipes, encompassing aspects such as pressure ratings and flow capacity.
  6. Handling and Storage: Guidelines for proper handling and storage practices of FRP pipes are included to prevent damage before installation.
  7. Quality Control: The division requires manufacturers to adhere to strict quality control measures throughout the production process.
  8. Environmental Considerations: It informs about environmental considerations, such as the impact on potable water systems and resistance to certain soil conditions.

How These Specifications Guide the Installation and Use of FRP Pipes in Projects

  1. By following the csi specifications frp pipe, installers ensure that the pipes are suitable for the intended application, whether for industrial, municipal, or commercial use.
  2. Specifications detail jointing methods and the types of adhesives or sealants that may be used, key factors in maintaining the integrity of the piping system.
  3. The guidelines include how to handle exposure to different temperatures and chemicals, thereby maintaining structural integrity under various conditions.
  4. Data on proper embedment and backfilling techniques help to prevent FRP pipe failure modes and ensure long-term reliability.
  5. Specifications also offer direction on accommodations for thermal expansion and contraction, which are critical for FRP pipe installations.
  6. Finally, clear parameters for the proper gradient and alignment of underground installations are provided, aiding in precision and efficiency.

The Construction Specifications Institute’s guidelines and standards, particularly Division 33, are pivotal for the understanding and correct application of FRP pipes in construction projects. These specifications harmonize the selection, installation, and inspection processes, ensuring that infrastructure is built to last and perform optimally.

Adhering to CSI Specifications FRP Pipe

Fiberglass Reinforced Polyester FRP pipes represent a versatile and efficient option in many construction and industrial applications, owing to their notable features such as corrosion resistance, strength, and durability. These pipes are a staple in sectors that demand materials capable of withstanding harsh chemicals, extreme temperatures, and physical stresses. Understanding the specifics of standard csi specifications frp pipe is crucial for anyone involved in the selection, design, or installation of piping systems. This knowledge ensures the optimal performance and compliance of FRP pipes within various projects.

Breakdown of Standard FRP Pipe Specifications

Fiberglass Reinforced Plastic (FRP) pipes are widely utilized for their high corrosion resistance, light weight, long service life, and low maintenance costs. In this section, we will break down the standard csi specifications frp pipe to help engineers and project managers understand their significance.

Resin Types

The choice of resin plays a pivotal role in determining the chemical resistance and temperature tolerance of FRP pipes. Common resin types include:

  • Polyester: Offers good mechanical properties and cost-effectiveness, suitable for a broad range of applications.
  • Vinylester: Provides enhanced chemical resistance and is ideal for harsh environments.
  • Epoxy: Known for its superior mechanical properties and excellent resistance to heat and chemicals.

Structural and Dimensional Requirements

FRP pipes are designed to meet specific structural and dimensional needs:

  • Diameter and Wall Thickness: These vary according to application requirements and pressure ratings.
  • Length: Typically manufactured in standard lengths but can be customized.
  • Fittings and Joints: Must be compatible with the specific type of FRP pipe used to ensure a good fit and prevent leaks.

Importance of Adhering to These Specifications for Project Success

Adherence to csi specifications frp pipe is crucial for the success of any project involving FRP piping systems. Below are seven key reasons why following these specifications is essential:

  1. Safety: Proper specification adherence ensures that pipes can handle the designed pressure and operational loads without failure, thus protecting property and lives.
  2. Performance: Correctly specified FRP pipes perform as expected in their intended environment without premature deterioration.
  3. Compatibility: Specifications ensure that all components of the FRP piping system are compatible, leading to efficient installation and operation.
  4. Longevity: Adhering to specifications helps in achieving the maximum possible service life of the pipes, reducing the need for frequent replacements.
  5. Compliance: Many industries are governed by strict regulations that require compliance with established specifications; non-compliance can lead to legal issues.
  6. Cost-efficiency: Although following specifications might entail a higher initial cost, it prevents expensive repairs and replacements in the future, thereby optimizing the cost over the life of the project.
  7. Reputation: Successfully executing projects that adhere to recognized specifications enhances a company’s reputation for reliability and technical competence.

It is evident that understanding and implementing csi specifications frp pipe is not just a recommendation but a requisite for ensuring the efficacy, safety, and success of FRP piping systems in any project.

Supporting Documents and Resources for CSI Specifications FRP Pipe

In the realm of construction and engineering, having access to the right documentation is crucial for ensuring all aspects of a project align with industry standards, particularly when working with specialized materials such as FRP (Fiberglass Reinforced Plastic) pipes. This section provides an overview of essential documents that are integral for anyone working with csi specifications frp pipe.

Overview of Essential Documents for Working with FRP Pipes

For effective implementation and compliance with the csi specifications frp pipe, several key documents should be consulted and utilized during the design, specification, and installation phases of projects involving FRP pipes. Here are the most important ones:

Fiberglass Pipe Handbook PDF

The Fiberglass Pipe Handbook is an indispensable resource that covers all aspects of designing and working with FRP systems. This handbook details:

  • Material properties and benefits of FRP pipes.
  • Guidelines for handling, installation, and maintenance.
  • Engineering data including pressure ratings, flow characteristics, and chemical resistance charts.

FRP Pipe Fittings Catalogue

An FRP Pipe Fittings Catalogue is crucial for engineers and installers to understand the various types of fittings available, their dimensions, and compatible uses with different FRP pipes. This catalogue provides:

  • Detailed illustrations and descriptions of each fitting type.
  • Specifications for pressure ratings and chemical compatibility.
  • Installation tips and best practices for ensuring secure and effective connections.

FRP Pipe Catalogue PDF

The FRP Pipe Catalogue offers comprehensive information about the range of FRP pipe sizes, types, and applications. It features:

  • Detailed product descriptions with technical specifications like diameter, wall thickness, and resin type.
  • Application guides advising on the best uses for different types of FRP pipes based on environmental and operational conditions.
  • Reference charts for quick selection of the appropriate pipe according to project requirements.

Best Practices for Ensuring Effective FRP Pipe Cladding

Importance of CSI Specifications FRP Pipe Documents

The significance of the csi specifications frp pipe documents extends beyond mere guidelines for selecting or installing piping systems. These comprehensive documents play a pivotal role in various stages of project planning, execution, and maintenance, ensuring that the inherent benefits of FRP pipes are fully realized. Here’s an in-depth look at why these documents are invaluable:

Ensuring Compliance and Quality

  • Standardization: The specifications provide a standardized framework that manufacturers and installers can follow, ensuring consistency in quality and performance across different projects and regions.
  • Quality Assurance: By adhering to these specifications, manufacturers can guarantee that their FRP pipes meet high-quality standards, reducing the likelihood of failure or defects that could compromise a system’s integrity or safety.
  • Regulatory Compliance: Many industrial and construction projects are subject to strict regulatory requirements concerning material performance and safety. These documents help ensure that FRP piping systems comply with applicable codes and regulations, avoiding potential legal and financial ramifications.

Enhancing Project Outcomes

  • Performance Optimization: The detailed guidelines help in selecting pipes with the right properties (e.g., chemical resistance, pressure rating) for specific applications, optimizing the performance and longevity of piping systems.
  • Cost Efficiency: By preventing common installation errors and material mismatches, these specifications help avoid costly repairs, replacements, and downtime, contributing to the overall cost efficiency of the project.
  • Risk Mitigation: Proper adherence to these standards mitigates risks associated with pipe failures, such as leaks, bursts, and environmental contamination, thereby safeguarding against operational hazards and potential harm to personnel and the environment.

Supporting Sustainability and Safety

  • Environmental Protection: FRP pipes are favored for their corrosion resistance and durability, making them suitable for conveying hazardous or corrosive substances with minimal risk of leakage and environmental pollution. Following the specifications ensures that these pipes perform as expected, supporting environmental protection efforts.
  • Worker Safety: Correct installation and maintenance of FRP piping systems, as guided by these documents, minimize the risk of accidents and injuries related to pipe failure. This is crucial in ensuring the safety and well-being of workers on construction sites and in facilities using FRP pipes.
  • Sustainability: FRP pipes are selected for their long service life and low maintenance requirements. By ensuring that these pipes are produced and installed according to the high standards set out in the specifications, their sustainability benefits are maximized, contributing to the long-term viability and efficiency of projects.

By thoroughly understanding and utilizing these supporting documents and resources, professionals can ensure that FRP piping systems are designed, installed, and maintained correctly, in accordance with the highest standards of the construction industry and csi specifications frp pipe.

FRP Pipe Dimensional Charts (with Inserts) Meeting csi specifications frp pipe

When undertaking projects involving FRP piping, one must strictly follow the csi specifications frp pipe to ensure optimal installation and performance. The FRP Pipe Dimensional Charts, which include informative inserts, are critical tools used for ensuring that the dimensional attributes of FRP pipes match the demands of the project environment and design requirements.

Discussion on How Dimensions are Critical for FRP Pipe Fitting

Dimensions hold a pivotal role in the integrity and efficiency of FRP piping systems. Adhering to the csi specifications frp pipe provides numerous benefits:

  • Compatibility: Ensures that pipes and fittings match perfectly, preventing installation issues.
  • Pressure Management: Accurate dimensions help withstand the operational pressures by aligning strength characteristics across connections.
  • Efficiency: Correct dimensions minimize potential leaks, enhancing the overall system’s effectiveness.
  • Installation Smoothness: Dimensional accuracy streamlines the assembly process, reducing the likelihood of costly errors and adjustments.
  • Structural Integrity: Proper fitting dimensions contribute to the durability and robustness of the pipeline under varying operational conditions.
  • Maintenance Reduction: Exact fitments mean fewer adjustments and repairs during the lifetime of the piping system.

FRP Pipe Dimensions Chart PDF

The FRP Pipe Dimensions Chart PDF is a vital resource, facilitating the acquisition and application of essential data:

  1. Easy Access: Readily available for all project team members, ensuring unified references.
  2. Detailed Specifications: Includes comprehensive listings of size, diameter, wall thickness, and pressure ratings.
  3. Broad Application: Useful across various types of projects, whether industrial, municipal, or environmental.
  4. Quick Reference: Allows for rapid validations and cross-checking during both planning and installation phases.
  5. Updated Standards: Reflects the latest industry standards and advancements according to csi specifications frp pipe.
  6. Customizable Inserts: Contains inserts that can be tailored for specific project needs, detailing custom fitting and data points.

FRP pipe o.d. chart (Outside Diameter Chart)

The FRP Pipe O.D. Chart is another crucial component provided under the csi specifications frp pipe:

  1. Scaling and Sizing: Ensures the pipe’s external diameter fits with external components like clamps and supports.
  2. Integration Capability: Facilitates the integration with existing piping systems by providing exact O.D. measurements.
  3. Material Optimization: Helps in selecting the appropriately sized materials to avoid excessive material use.
  4. Installation Accuracy: Critical for proper sealing and alignment during the installation process.
  5. Preventative Measure: Aids in preventing the mismatch that could lead to system failure.
  6. Regulatory Compliance: Ensures all dimensions meet specific regulatory and safety standards.

FRP Pipe Thickness Chart

The FRP Pipe Thickness Chart is essential for determining the adequate wall thickness required for various operational demands:

  1. Pressure Adaptability: Thickness varies with the pipe’s application pressure needs, ensuring durability.
  2. Corrosion Allowance: Accounts for potential corrosion, suggesting thickness that extends the lifecycle of the pipe.
  3. Mechanical Stress Handling: Ensures the pipe can handle both internal and external mechanical stresses.
  4. Temperature Fluctuations: Adequate thickness helps withstand temperature changes that might otherwise compromise pipe integrity.
  5. Customization Options: Offers options for customization based on specific environmental and operational conditions.
  6. Cost Efficiency: Helps project managers control costs by selecting the right thickness for required durability without over-specification.

Adhering precisely to the csi specifications frp pipe while utilizing the FRP Pipe Dimensional Charts (with Inserts) not only optimizes the engineering process but also enhances the integrity, efficiency, and longevity of the FRP piping systems.

FRP Pipe Performance Charts in Accordance with csi specifications frp pipe

To ensure FRP piping systems are designed and installed to meet the highest level of performance standards, engineers and project managers rely on detailed FRP Pipe Performance Charts. These charts are an indispensable tool for aligning with csi specifications frp pipe, offering a comprehensive overview of performance metrics that influence the selection and application of FRP pipes in various environments.

Analyzing Performance Metrics Found in Charts

Performance metrics encapsulated within these charts offer deep insights into the FRP pipes’ capabilities and limitations, enabling informed decision-making:

  • Pressure Ratings: Indicate the maximum pressure FRP pipes can safely handle, critical for high-pressure applications.
  • Temperature Range: Provides the operational temperature ranges, ensuring material stability in varying environmental conditions.
  • Flow Rates: Helps in determining the optimal pipe diameter for intended flow rates, optimizing system efficiency.
  • Chemical Resistance: Charts detailing chemical resistance assist in selecting pipes for transporting corrosive substances.
  • Abrasion Resistance: Crucial for applications where the pipe’s interior may be eroded by the material flow.
  • Impact Resistance: Ensures the pipe material can withstand physical shocks, a necessary characteristic in many industrial settings.

FRP Pipe Weight Chart

Adhering to csi specifications frp pipe, the FRP Pipe Weight Chart is invaluable for project planning and execution:

  1. Ease of Handling: Lighter pipes are easier to install but must balance strength requirements.
  2. Transportation Costs: Weight impacts logistical costs; lighter pipes could offer savings.
  3. Installation Requirements: Identifies the need for specialized equipment based on the pipe weight.
  4. Support Structures: Determines the type and spacing of support structures needed to ensure safety.
  5. Longevity and Durability: Correlates weight with material density, impacting longevity and resistance to external pressures.
  6. Environmental Impact: Lighter weight can mean less raw material usage, contributing to sustainability goals.

Best Practices for Installing FRP Pipe Bridge on Industrial Systems

Interpretation and Practical Use in Planning and Installation

The practical application of information from FRP Pipe Performance Charts is vast, impacting every stage of a project:

  1. Material Selection: Guides the selection of FRP pipe materials to meet specific operational demands.
  2. Design Accuracy: Provides the data necessary for designing efficient systems that adhere to csi specifications frp pipe.
  3. Cost Efficiency: Assists in budgeting accurately for materials, labor, and equipment by providing detailed performance data.
  4. Regulatory Compliance: Ensures the FRP piping system meets all applicable standards and regulations.
  5. Safety Margins: Helps establish safety margins by understanding the limits of the piping material in various conditions.
  6. Future Proofing: Allows for the planning of systems that not only meet current demands but are capable of adapting to future needs.

The FRP Pipe Piles Performance Charts serve as an essential guide for anyone involved in the design, selection, and installation of FRP piping systems. By closely following the insights provided by these charts, professionals can ensure their systems meet all necessary criteria for performance, safety, and compliance under the csi specifications frp pipe, leading to successful project completions.

FAQs about CSI Specifications FRP Pipe

What CSI Code is FRP?

The Construction Specifications Institute (CSI) MasterFormat is a standard for organizing specifications and other written information for commercial and institutional building projects in the U.S. and Canada. FRP (Fiberglass Reinforced Plastic) Pipes fall under various CSI codes, depending on their application. However, the most directly relevant code is typically found under Division 22 00 00 – Plumbing, specific to water and wastewater utilities, which might be further detailed in subcategories for specialty plumbing systems. Given that FRP is used in a variety of applications from chemical processing to sewer and water lines, consulting the specific project specifications can further clarify its classification. Remember, the CSI codes are intended to streamline the construction process by standardizing the organization of documents and specifications. This aids in ensuring all project stakeholders are aligned under a common system, facilitating clearer communication and project efficiency.

What is the ASME Code for FRP Piping?

The ASME (American Society of Mechanical Engineers) provides codes and standards for the design, manufacturing, and installation of various piping systems, including FRP. The most relevant ASME standard for FRP piping is ASME RTP-1, “Reinforced Thermoset Plastic Corrosion-Resistant Equipment.” This standard outlines criteria for the design, fabrication, and inspection of fiberglass-reinforced plastic (FRP) vessels and equipment, which indirectly applies to FRP piping used in corrosion-resistant applications. Additionally, ASME B31.3, the Process Piping Code, can apply to FRP piping within the chemical and refining industries, provided the materials and construction are in accordance with ASME RTP-1 or other accepted standards. These codes ensure that FRP piping systems are designed and fabricated to high quality and safety standards, suitable for their intended use.

What is the Standard for FRP?

The standards for FRP (Fiberglass Reinforced Plastic) materials and components, including pipes, are developed by various organizations to ensure material quality, safety, and performance. Key standards include:
ASTM D2996 – Standard Specification for Filament-Wound Fiberglass (Glass-Fiber-Reinforced Thermosetting-Resin) Pipe.
ASTM D3517 – Standard Specification for “Fiberglass (Glass-Fiber-Reinforced Thermosetting-Resin) Pressure Pipe.”
ISO 14692 – Petroleum and natural gas industries – Glass-reinforced plastics (GRP) piping.
AWWA C950 – Standard for Fiberglass Pressure Pipe.
These standards cover dimensions, materials, physical properties, and testing procedures for FRP piping systems. They ensure that FRP pipes are made to a high standard, fit for purpose across a variety of applications, from industrial and chemical, to water distribution and wastewater treatment.

What is the Standard Size of FRP Pipe?

The standard size of FRP (Fiberglass Reinforced Plastic) Pipe can vary depending on the manufacturer and the intended application of the piping system. Generally, FRP pipes are manufactured in a range of diameters from about 1 inch to over 12 feet. The lengths of the pipes can also vary, with standard sections typically available in 20, 30, and 40-foot lengths for ease of transport and installation. However, most manufacturers also offer custom sizes to meet specific project requirements. For instance, in water distribution and wastewater applications, larger diameters can be common to accommodate the volume of fluid transport. Always consult manufacturer specifications and relevant standards (like ASTM, ISO, or AWWA) for the most accurate and current information regarding FRP pipe sizes and tolerances.

CBRO Fiberglass editor Morgan Ellis

As the editor of CBRO Fiberglass, I have years of experience and in-depth research, focusing on cable tray products, fiberglass solutions, and grille systems. I incorporate years of industry insights and practical experience into every content, committed to promoting the progress of the industry. At CBRO Fiberglass, my commitment is reflected in every product, from innovative cable trays to durable fiberglass solutions and sturdy grille systems. As an authoritative voice in the industry, my goal is to provide valuable information to professionals and businesses and promote forward-looking solutions.


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