Pipe Bridge

Ultimate Guide to Pipe Bridge

Sunnyda pipe bridge can be used to run petroleum or natural gas pipelines, gorge, highway, cable trays over a river, or other obstacles, and so on. This pipe bridge can be modular. A modular pipe bridge can be used to support power cables, pipes, and so on. Sunnyda has a pipe layout to follow.  Also, you can have your layout and specifications. Then, our senior engineers will assist you to achieve your desire layout and meet your requirement.

The transverse bents are typically moment frames in maintenance access under the pipe bridge. These electrical power cables are placed on a pipe bridge. Pipe bridge guaranteed 100% safety. It has a minimum head height. This pipe bridge has an option. Every client demand is our priority.  Also, we are available 24/7. Sunnyda is your best partner for growing your business.

This pipe bridge is authenticated insulation or pre-heat tracing before delivery. Your safety is our concern. We have fast delivery. If an urgent project, we assure you to be on time to construct. This will finish at the exact time you demand. Sunnyda has 20 years of experience in manufacturing steel structure products. Guarantee you the good quality.

In exporting products to some countries, we have lots of experience with various needs. Like Belgium, German, New Zealand, Canada, Norway, America, AU, UK, many South Africa, and America countries. Sunnyda manufacturing factory passed ISO14001 and ISO9001. Assure you to have good quality products from us.

This pipe bridge is one of our steel structure products, but aside from that, we have more products to offer you. Either it is big or small order from us, we always valued it. Sunnyda is your centralized solution for steel structure products. Guarantee to provide you good quality, durability, and longevity. If you are working for your upcoming pipe bridge project, Sunnyda is your best choice.

Do you have any inquiries? Contact us now!

Pipe Bridge FAQ

Table of Contents

Introduction
Q1: What is Pipe Bridge?
Q2: What Are The Application Of Pipe Bridge?
Q3: What Are The Advantages Of Pipe Bridge?
Q4: What Are The Critical Factors to Consider For A Pipe Bridge?
Q5: What Are The Main Components Of Pipe Bridge?
Q6: Does Manufacturer Provide Pipe Bridge Design?
Q7: What Are The Materials Used To Fabricate A Pipe Bridge?
Q8: What Are The Specifications Of Pipe Bridges?
Q9: What Type Of Coating Can Be Used In Pipe Bridges?
Q10: What Are The Types Of Pipe Bridge?
Q11: What Are The Standards And Regulations Governing Pipe Bridge Industry?
Q12: What Are The Primary Documentation Required For Pipe Bridge Development?
Q13: What Type Of Foundations Are Used For Pipe Bridge?
Q14: Does Manufacturer Provide Turnkey Project For Pipe Bridge?
Q15: Does Manufacturer Offer Services Related To Pipe Bridge?
Q16: Does Manufacturer Provide Pipe Bridge Customization?
Q17: Does Manufacturer Offer Pipe Bridge Safe Access Equipments?
Q18: Does Manufacturer Provide A Load Bearing Pipe Bridge?
Q19: How Long Will It Take To Get A Pipe Bridge Delivered?
Q20: Is Pipe Bridge Fire Resistant?
Q21: Why China Pipe Bridge Are Preferred?
Q22: Why Should We Choose Sunnyda Over Other Pipe Bridge Manufactures?
Q23: What Covers The Warranty of Pipe Bridge?
Q24: I Have An Inquiry About Pipe Bridge?

Pipe Bridge

Introduction

The present paper is specifically developed to help people interested in pipe bridges answer their primary questions about pipe bridge application, design, materials, industry building code and best practice standards, load, safety, critical factors to consider, customization options, and more.

If your question is not listed here, or if the answer does not provide enough information, please contact:

Q1: What is Pipe Bridge?

Pipe Bridge is a supporting structure designed and built specifically to allow pipelines to span and crossover obstacles such as water, rivers, highway overpasses, aqueducts,  vulnerable land areas, deep ravines, or any other obstacles. They are also called pipe racks, pipe yards or pipeline supporting systems.

Pipe bridge is a nonbuilding structure that is designed to carry pipeline of liquids, natural gas or any chemically stable substance from the processing plant to harbors, railway or trucking lines for transport and loading. Pipe bridge is engineered to support multiple pipe loads taking into account the weight of the pipes when carrying a full load.

They are also used to carry mining effluent, and supply water from a river or reservoir for farming irrigation, or to support pipelines in power plants, valve access platforms, vessels and mechanical equipment. Pipe bridges are pre-engineered structures that can include maintenance or pedestrian pathways, electrical power cables, air-cooled heat exchangers, etc.

Q2: What Are The Application Of Pipe Bridge?

Pipe bridge is used mainly to carry multiple pipes where the adequate structure is not available; they are designed to support extremely heavy loads of different types of liquids such as oil and gas, and transport materials across bodies of roadways, railways, water and other obstructions. It serves also to interconnect pipelines running on the same direction and route them through the plant to distribute utility fluids to other units on site.

Pipe bridge is widely used by the following sectors:

• Oil, gas and petrochemical pipe bridge for refineries, natural gas processing plants, ammonia and chemical plants, etc.

• Power and Energy pipe bridges.

• Mining and Mineral pipe bridges.

• Pipe bridges for water pipelines, wastewater treatment facilities and waste management.

• Industrial pipe bridges for manufacturing plants, utility zones and between production fields.

• Pipe bridges for delivery points such as loading trucks, rails and marine terminals associated with liquid pipeline systems.

• Pipe bridges for transporting liquids to tank farms.

Pipe Bridge

Q3: What Are The Advantages Of Pipe Bridge?

Pipe bridges fulfill a very crucial role in almost all petroleum, gas, petrochemical, chemical, industrial process pipelines, it serves to connect pipelines and transport raw materials to different locations, process units or equipment. They are designed, engineered and built to serve their purpose for decades and meet structural requirements. There are many advantages of pre-engineered pipe bridges including the following:

Cost-effective

Pipe bridges offer significant cost savings; shorten construction cycles, pre-engineered pipe bridges can be completed in half of the time spent in standard construction. In addition to that it eliminates materials waste and avoids on-site disruption.

Design flexibility

Pipe bridges can be designed in various sizes, heights and widths; it can be also fully customized to meet a wide range of functional and aesthetic options. They are designed to be integrated flexibly into existing systems as they are prefabricated and made ready for a simple installation.

Durability

The highest-grade of steel is used to ensure a durable and long-lasting pipe bridge structure and finishes, they are engineered to withstand maximum loads and resist the harshest weather environments. Pipe bridge steel surface is protected against corrosion.

Safety

Pipe bridges are carefully designed and engineered to ensure maximum safety and fulfill fireproofing and emergency reactive requirements; sturdy materials are used to ensure safe and ergonomic structures for staff, materials and the environment.

Q4: What Are The Critical Factors to Consider For A Pipe Bridge?

The following critical points should be taken into account at the design phase of a pipe bridge:

Pipe Bridge

Environmental conditions

Pipe bridges are designed and carefully built to withstand the harshest environment of remote areas such as coastal atmosphere, flood, snow and high wind weather conditions.

Load Resistance

Pipe bridges loads vary greatly from project to project, they are explicitly designed to resist all applied forces and support the following loads:

• Dead loads or permanent loads include the weight of the pipe bride structure, support system, and weight of the content inside the pipeline.

• Operational loads or the internal pressure during normal processing conditions.

• Environmental loads which caused by natural forces such as seismic load, earthquake, gravity wave, snow load, wind load or thermal expansion.

• Live loads known as transient events, they are dynamic loads that cause impact, vibration or material fatigue.

• Structural components of pipe bride should meet the axial loads, bending moments and shears.

• The deflection requirements for pipe bridge beams and transverse bents shall be considered.

• Stress and deformation analysis should be conducted to verify the integrity of the pipe bridge and pipelines to ensure its ability to resist extreme heavy pressure and handle the load distributed across its length.

Vibration

Pipe bridge is a flexible structure designed and engineered to absorb vibration or any movement that can be caused by internal or external forces.

Materials

Pipe bridges are frame structures made from heavy-duty and easy to upkeep materials, hot-dip galvanized steel is the most preferred choice for pre-engineered pipe bridges because it offers high strength, lightweight, durability and corrosion protection. Superior quality square tubing, beams and columns are used to maximize the efficiency of the pipe bride and support loads. Materials are selected and tested carefully depending on the requirements of every application.

Safety and security risks

Pipe bridge is designed and engineered in compliance with the Occupational Safety and Health Administration (OSHA) regulations, American and European safety codes to ensure workers are protected from fall hazard risks, accidents and injuries. In-depth analysis is essential to eliminate any security risks involved with the piping content such as gasses and chemicals while fall protection systems are used according to location weather concerns like temperature or humidity. However, it is recommended to deal with a trusted and experienced manufacturer to design and engineer a pipe bride that meets project exact requirements and international standards.

Pipe Bridge

Q5: What Are The Main Components Of Pipe Bridge?

A pre-engineered modular pipe bridge is made from a rigid framing system that runs along the length of the pipe system. The principal structural components of a pipe bridge are as follow:

• Transverse beams(supports for piping, etc.)

• Columns

• Longitudinal struts

• Vertical bracing

Q6: Does Manufacturer Provide Pipe Bridge Design?

Pipe bridges are designed and engineered to suit the requirements of every application in terms of pipe dimensions, project size and type of liquids to be transported. At the initial engineering phase a study shall be conducted to analyze the overall site conditions, unit plot plan, specifications, materials needed and safety requirements.

The pipe bridge drawings, detailed design, calculations, structural 3D model and layout can be performed by the manufacturer. Customers’ drawings or blueprints can be also used. the pipe bridge design and structural analysis are performed using STAAD.Pro/SACS.

Pipe bridge layout and shape are all dependants on clients’ requirements and the overall site conditions, plot arrangements, the length of lines routed in the pipe bridge.

Spacing of pipes on the bridge is determined according to many variables including pipe weight, liquid weight, pipe diameters, the height of levels, etc.

The location of the pipeline on the bridge remains dependant on factors such as configuration and accessibility of the pipeline and the bridge. The pipeline is generally placed either on the exterior side of the pipe bridge, under the bridge between the bridge girders, vertically between the bridge and the roadway or within a designated utility corridor.

The pipelines shall be located according to the requirements of Mine Safety and Health Administration (MSHA) and particularly local authorities’ regulations.

Pipe bridges should be designed considering safety, neatness and economy, piping shall be routed to determine the shortest path to save space and materials and money. Modular design can be provided to reduce the cost of manpower, time and delays and provide efficient installation.

Q7: What Are The Materials Used To Fabricate A Pipe Bridge?

The most strong, sturdy and durable materials in the structural steel industry are used to manufacture pipe bridges. Steel is the most popular material used for pipe bridges because it can withstand the heavy usage of oil and gas, chemical, petrochemical plants and industrial production facilities, in addition to its versatility, sustainability and ability to resist the harshest weather conditions and corrosion.

To select the appropriate grade of steel for pipe bridge factors such as design requirements, pipe bridge specifications, steel standards and physical properties (yield strength, toughness, ductility, weldability, cooling rate, percentage of alloying elements and carbon amount) should be considered.

According to the application’s requirements pipe bridges can be manufactured from the following materials:

Galvanized steel

Hot-dipped galvanized steel is mostly used for varied pipe bridge applications such as offshore rigs, marine and coastal environments platforms because it offers maintenance-free and lifetime protection from corrosion.

Heat-treated carbon steel

Heat-treated carbon steel is widely used for the construction of pipe bridges because of its incredible tensile strength, ductility, and moldability. This type of steel passes through several processes to enhance its strength and alter. During the heat treatments process carbon steel undergoes thermal and metalworking processes including annealing, hardening, carburizing, normalizing, quenching and austempering

Heat-treated carbon steel is essential for most pipe bridges and heavy construction projects because it offers more flexibility on designs, its low brittleness increase load resistance effectively and eliminates any risk of breakage. Heat-treated carbon provides more durability, life long-lasting and less maintenance. Moreover, it’s easy to mold and weld while it should be protected from corrosion by hot-dipped galvanization.

Despite the advantages of carbon steel its durability and resistance to shocks, it’s rarely used as the primary material in pipe bridge engineering, this is due to its high concentration of carbon which makes it more susceptible to breakage and brittle, moreover, carbon steel does not offer enough flexibility in cutting and molding and remains limited in terms of designing the needed pipe bridge sizes and shapes.

Pipe Bridge

Weathering Steel

Weathering steel is a high-strength and low steel alloy with less than 0.2 wt. % carbon content, it has a rustic appearance. Compared with other types of steel, weathering steel offers increased resistance to abrasion, rust and atmospheric corrosion, is widely used in pipe bridges located in alkaline and acidic conditions. Weathering steel is cost-effective throughout its life cycle as it doesn’t require coating, this provides more than 30% saving on paint and corrosion protection cost. They are environmentally friendly because they reduce the rate of emissions of volatile organic compounds (VOC) transmitted from coating oil-based properties.

Stainless steel

Stainless steel is tougher than other types of steel; it has a high strength-to-weight ratio and offers exceptional ductility and high alloying content that resist effectively to chloride stress corrosion cracking (SCC). 904L stainless steel and 304 stainless steel are the most commonly used for pipe bridges where high corrosion resistance is required such as water and sewage lines pipe bridges that are attached or integrated into the rail bridges, the girders of the road or have to cross canals and rivers.

Despite the relatively high cost of stainless steel pipe bridge, it remains cost-effective throughout its life cycle and preferred for its aesthetic appeal.

Q8: What Are The Specifications Of Pipe Bridges?

• Steel type: Hot-dipped galvanized steel; Heat-treated carbon steel; Weathering steel; Stainless steel, Aluminum, or as per pipe bridge specifications.

• Dimensions of member: beams, channels, bars; columns specifications and dimensions are selected as per pipe bridge loads requirements.

• A number of pipe bridge levels: single, double, triple-level or multi-level design.

• Shapes: straight, ‘L’, ‘T’, ‘U’, ‘H’ and ‘Z’ or depending on the plot site conditions, size, process and equipment requirements.

• Pipe Bridge length: as per project overall plot plan specifications.

• Configuration: single or multi-column support.

• Height: overhead, it can include many levels for piping services and electrical services.

• Width: it can include all services to be piped, a future expansion plan is also considered.

• Spacing: spacing between pipes Bride portals, spacing of pipes on the bride and rack column spacing is designed as per project requirement.

• Safety: escape route is included.

• Heavy transport access height: 8 m for a big crane, 7 m for the train, 6 m for the truck road and 4.5 m minimum.

• Accessibility: minimum head height, access to plant operators, equipment, firefighting equipment and maintenance is incorporated in the design.

to give access to and maintenance workers.

• Ladders and Platforms: can be provided with all necessary accessories.

Q9: What Type Of Coating Can Be Used In Pipe Bridges?

A wide range of coating types can be applied for pipe bridges to offer maximum protection from corrosion, moisture, hot and humid environments, chemicals salinity and acid rain. The following is the most commonly used coating types:

Hot-dip galvanization

It’s widely used because it ensure usually maximum protection from corrosion, it lowest life-cycle cost and offers a lifelong lasting and performance. However, it is better to avoid field welding in order to minimize the repair of hot-dip galvanization, members and connections should be detailed to reduce the effect of hot-dip galvanizing temperature.

Paint

High-quality painting can be used in pipe bridges to prevent corrosion and ensure the durability of the piping system. Environmental conditions and atmospheric corrosivity are important factors to consider while selecting adequate paint. Painted pipe bridge structure has a higher life-cycle cost because of periodic maintenance and repair.

The following paint types are mostly used:

Zinc-Rich Epoxy Coating.

Polyamide Epoxy Coating.

Amine Epoxy Coating.

Epoxy Coating Novalac Coating.

Siloxane Epoxy Coating.

Water-Based Epoxy Coating.

Acrylic-Polyester Polyurethane Coating.

Coal Tar Coating.

Red oxide primer.
Gray enamel Paint.
Custom coating finishes can be provided.

Colors can be selected as per client preferences.

Pipe bridge surface preparation and paint specifications shall adhere to the standards of the American Society for Testing and Materials (ASTM), and the Steel Structures Painting Council and the SSPC.

Hot-dip galvanized and painted

This option combines hot-dip galvanization and paint together for more performance, protection and durability; it is applied to pipe brides located in extremely corrosive environments, coastal and salt spray areas.

Q10: What Are The Types Of Pipe Bridge?

There are two primary types of pipe bridge:

Strutted main pipe bridge

This type has a longitudinal strut between the transverse frames, it offers more stiffness and resistance to applied deformation forces in the longitudinal direction. Diagonal bracing is also added to offer more resistance to the horizontal loads.

Unstructured secondary pipe bridge

This type of pipe bride does not incorporate longitudinal struts; the columns are fixed in the longitudinal direction to resist lateral loads.

Q11: What Are The Standards And Regulations Governing Pipe Bridge Industry?

Pipe bridges are designed, engineered and manufactured in compliance with international standards:

International Building Code (IBC)

The pipe bridge structural design is made as per the regulation of the International building code prescribed in chapters 16.

American National Standards Institute (ANSI)

The pipe bridge design specifications and standards shall adhere to ANSI procedures.

American Society For Civil Engineers

Pipe bridge minimum design loads shall be determined according to ASCE 7 (ASCE, 2006) Hazard tool for hurricane-prone and wind-borne debris regions and as per the (ASCE/SEI 7-16) which describes the load design requirements for critical infrastructure including dead, live, soil, tsunami, flood, rain, snow, atmospheric ice, earthquake, wind loads, and their combinations for general structural design.

The American Institute of Steel Construction (AISC)

The AISC prescribes pipe bridge structural steel material standards in AISC 360-16 and the AISC, 2005b specification for structural steel buildings.

Pipe bridge structural steel seismic requirements shall comply to AISC 341 (AISC, 2005a) and AISC 358 seismic applications standards for prequalified connections for special and intermediate steel moment frames.

OSHA fall protection standards

Pipe bridges are designed and engineered in compliance with the OSHA fall protection standards to prevent work-related injuries and deaths caused by falling from elevated work stations and platforms.

The American Society of Mechanical Engineers

Pipe bridge shall adhere to ASME B31.4 requirements for design, materials, construction, assembly, inspection, testing, operation and maintenance of liquid pipeline systems.

International Standardization Organization

ISO 13623:2017 which describes the requirements for the design, materials, construction, testing, operation, maintenance and abandonment of pipeline systems used for transportation in the petroleum and natural gas industries and which applies to pipeline systems on-land and offshore, connecting wells, production plants, process plants, refineries and storage facilities.

European Standards

EN1998-1 2004 Eurocode 8 standards related to seismic design requirements of buildings, structures and civil engineering work in seismic regions.

EN13480-3:2012 Industrial pipework systems, fluid equipment, and support systems design and calculation requirements.

EN1998-6:2005 rules for the design of tall slender structures for earthquake resistance.

BS PD 8010:2-2015 Part 1 British standard code of practice for subsea pipelines.

BS EN 14161 European standard for petroleum and natural gas industries – pipeline transportation systems for design, materials, construction, testing and operation.

BS EN 1594 European standard for gas supply systems and infrastructures – pipelines for maximum operating pressure over 16 bar – functional requirements.

Pipe Bridge

Q12: What Are The Primary Documentation Required For Pipe Bridge Development?

In order to deliver an error-free pipe bridge a considerable number of engineering deliverables and documentation are required to start effective communication, planning, and coordination. The following are the primary documents required for the detailed development of a pipe bridge:

• Process Flow Diagram (PFD).

• Piping and Instrumentation Diagram (P&ID).

• Line List.

• Line Routing Diagram.

• Over All Plot Plan.

• Unit Plot Plan

• Equipment Layout.

• Material Specifications.

• Client Specification.

• Fire-Proofing Requirements.

Q13: What Type Of Foundations Are Used For Pipe Bridge?

Pipe bridge foundation design parameters and specifications are determined based on on-site soil conditions; site geotechnical investigation report, loads and load combinations. Depending on the static load conditions, reinforced concrete slab, mat foundations or footing can be used.

Q14: Does Manufacturer Provide Turnkey Project For Pipe Bridge?

Yes, manufacturer can provide complete turn-key installation services for medium and large pipe bridge projects size. Pipe bridge is pre-engineered modular system that is light in weight and comes ready to assemble on project site and can be adapted easily and quickly to project layout and site conditions, however, for pipe bride located around obstacles, or difficult to access areas manufacturer can provide installation service to eliminate any project constraints and deliver the pipe bride on time.

Pipe Bridge

Q15: Does Manufacturer Offer Services Related To Pipe Bridge?

Manufacturer of pipe bridges offers the following services

• Design, engineering, manufacturing and Export.

• Foundation and installation Civil Engineering.

• Hazard Identification.

• Safety and Fall Hazard Assessment.

• OSHA Surveys OSHA requirements and ergonomic consideration

• Turnkey services for medium and large-size range projects.

• Supply of pipe bride attachments such as platforms, access solutions, walking and working surfaces – ladders, staircase, ramps and gangways

Q16: Does Manufacturer Provide Pipe Bridge Customization?

Yes, pipe bridge can be customized to meet project-specific requirements, pipe bridge customization options include:

Design: as per project requirements.

Materials: hot-dip galvanized steel, heat-treated carbon steel, weathering steel, aluminum, stainless steel or as per project materials specifications.

Shapes: U, T, H, Z frame or as per project design requirements.

Size:  heights, width, spacing and distance spanned as per project layout.

Tiers pipe systems: single, double and multiple levels.

Application: light, heavy-duty, small, medium, large or mega pipe bridges.

Coating: paint, surface protection and color can be customized.

Pipe bridge can be customized to suit project specifications, load and site requirements. Compliance with local regulations and standards are insured.

Q17: Does Manufacturer Offer Pipe Bridge Safe Access Equipment?

A wide selection of safe access equipment is available in all sizes and shapes and sizes to support pipe bridge systems including:

Walkways and handrails.

Steps and step-over platforms.

Access stairs and roof access.
Maintenance platforms.

Mats.

Fencing & gates.

Q18: Does Manufacturer Provide A Load Bearing Pipe Bridge?

Yes, absolutely. Pipe bride is carefully designed and engineered to support all loads; a structural analysis is conducted to determine the resistance factors and study the effect of multiple loads on pipe bridges such as stress, deformation, structure failure, etc. Pipe bridge load calculation includes:

Dynamic load.

Load by the wind.

Load by seismic forces.

Dead load.

Live Load.

Load by thermal expansion of piping.

Load by the vibration of piping.

Reaction force by expansion bellows internal pressure.

A load of piping weight, valve, equipment and insulation.

Fire-proofing load.

Q19: How Long Will It Take To Get A Pipe Bridge Delivered?

Pipe bridge can be delivered in 7-15 business days approximately. Delivery time remains variable depending on project size and customization requirements.

Q20: Is Pipe Bridge Fire Resistant?

Pipe bridges are designed as fireproofing systems that can resist fire in the petroleum, petrochemical plants, industrial work sites or EPC projects. Fireproofing materials are used to provide a higher degree of fire resistance and protection from substrates.

Pipe bridge shall comply with the guidelines and requirements of RP 2218, ISO 13702 for petroleum, petrochemical plants and natural gas industries fireproofing control and mitigation of fires on offshore production installations.

Q21: Why China Pipe Bridge Are Preferred?

Chinese manufacturer can design, engineer, manufacture and build the strongest and the longest pipe bridge in the world, they can provide the most cost-effective, innovative and sustainable pipe bridges that is not limited in size, number of levels, shape, configuration, application or customization. The highest quality materials can be used to ensure maximum performance, durability, safety and protection against corrosion.

Q22: Why Should We Choose Sunnyda Over Other Pipe Bridge Manufactures?

Sunnyda combines 20 years of expertise in designing, manufacturing and exporting pipe bridge systems for a variety of industries including oil, gas, chemical, petrochemical, industrial, municipal water system, and more. We served companies and governments Worldwide, our project portfolio includes successful delivery of pipe bridges to clients from Belgium, German, New Zealand, Canada, United States of America, Norway, United Kingdom, Australia, South Africa and many more.

The latest precision manufacturing technologies, modular pipe system technology (MPST) and robotic are used to offer the highest strength and the longest-lasting pipe bridge in the industry. From the design initial phase to planning, manufacturing, delivery, installing and after-sales service, our team will work hand-in-hand with you to deliver the most efficient and cost-effective solutions for your pipe bridge project requirements.

Our team can design your pipe bridge or use your drawings and blueprints if available, different materials can be used to construct the pipe bridge including hot-dip galvanized steel, heat-treated carbon steel, weathering steel, aluminum, and stainless steel. Thus, whatever are your pipe bridge requirements, design, dimensions, and specification and no matter what materials you’re transporting on the pipelines, Sunnyda we can design pipe bridge systems that will meet your exact specification and exceed your expectation.

Whether you have a small, large or mega pipe bridge project; with single or multi-level; for oil, gas, chemical, petrochemical and industrial applications, we have the capabilities to deliver the most economical, the safest and most reliable and durable pipe bridges.

We provide also customized pipe bridge solutions that suit the requirements of our customers. Turnkey projects are also accepted.

We are accredited by the following leading international standardizations organizations:

• ISO9001:2015 – Quality Management System.

• ISO14001:2015 – Environmental Management System.

• CE Marking Certification

• Bureau Veritas Certification.

Q23: What Covers The Warranty of Pipe Bridge?

We are committed to providing our customers with a pipe bridge made of high-quality and long-lasting components that meet project operating requirements.

Sunnyda warrants the pipe bridge to be free from defects in materials, overall structure, components and workmanship in normal use and service for a period of 12 years.

Q24: I Have An Inquiry About Pipe Bridge?

Contact Us Now at:

We will be happy to answer your questions.