Bench and Wall Laboratory Shelving Systems: Planning, Materials, and Setup

Marketing Manager

A well-organized lab is a safe and efficient lab. The backbone of that organization is its bench and wall laboratory shelving systems. These systems provide structure and improve workflow. Bench shelving offers immediate access to frequently used tools and reagents. Wall shelving uses vertical space to store bulk supplies and less-used items, keeping valuable benchtop areas clear for work.

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This video provides a brief overview of the types of modular and steel laboratory furniture available.

  • Key Takeaways from the Video:
    • Labs-USA offers a wide selection of lab furniture, including cabinets and tables.
    • Materials include modular steel, stainless steel, and painted steel.
    • The company provides solutions for laboratories worldwide.
  • Video Outline:
    • (0:01) Introduction to laboratory furnishings.
    • (0:09) Showcase of various lab setups and components.
    • (0:18) Examples of casework, tables, and workstations.
    • (0:24) Contact information for Labs-USA.

See more videos on our channel.

Understanding Your Laboratory Shelving Options

A well-organized laboratory with bench and wall shelving systems storing various scientific equipment and supplies.

alt text: A well-organized laboratory with bench and wall shelving systems storing various scientific equipment and supplies.

Choosing the right lab layout helps improve productivity. A smart shelving plan creates a more ergonomic and streamlined environment. Let's break down the three main systems.

Bench Shelving Systems

Often called over-bench or reagent shelving, this system mounts directly above a lab workbench. Its purpose is point-of-use storage. When technicians have their most-used items within arm's reach, they can complete tasks more efficiently.

This setup is ideal for:

  • Repetitive tasks that require the same supplies.
  • High-traffic areas, as it reduces movement.
  • Small labs that need to maximize vertical space.

Wall Shelving Systems

Wall shelving is mounted directly onto a lab's walls, independent of benchtops. This approach uses vertical space for storage. It is ideal for bulk supplies, larger equipment, and items not used daily. Proper installation is critical to ensure the wall can support the intended weight.

For certain applications, such as cleanrooms, open-frame wire lab shelving is another option to consider for airflow.

Hybrid Rail Systems

A hybrid rail system offers maximum flexibility. These modular setups use horizontal rails mounted to the wall or to bench-connected uprights. From these rails, you can hang and reposition shelves, cabinets, and other accessories.

This adaptability makes hybrid systems a top choice for dynamic labs. They blend the convenience of bench shelving with the high-capacity storage of wall systems.

Your 5-Step Lab Shelving Planning Checklist

Outfitting a new or existing lab requires careful planning. A methodical approach to shelving prevents costly mistakes. It also helps create a safer, more efficient workspace.

Follow this checklist to simplify the process. These steps will help you create a setup perfectly suited to your lab's operations.

A person using a tape measure to plan the layout of laboratory shelving against a wall.

alt text: A person using a tape measure to plan the layout of laboratory shelving against a wall.

Step 1: Assess Your Space and Utilities

First, measure the dimensions of your space. Record the length and height of the walls where you plan to install shelves. Also, measure the ceiling height to determine the maximum vertical space available for wall-mounted systems.

Next, map out all utilities and obstructions.

  • Electrical outlets
  • Gas and vacuum lines
  • Water faucets and drains
  • Data ports
  • HVAC vents and fire suppression systems

A simple diagram showing these locations will prevent you from blocking access to critical services.

Step 2: Calculate Load Requirements

Every shelf has a weight limit. To avoid overloading, calculate the total weight your shelving will need to support. Make a detailed inventory of everything you plan to store, from glassware to benchtop equipment.

Estimate the weight of each item and sum the total for each shelf section. Always add a safety margin of at least 25% to your final calculation. Overloaded shelves are a serious safety hazard. Always choose shelving rated well above your expected load.

Step 3: Map Your Lab Workflow

Effective shelving makes work easier. Consider the daily routines of your lab. An intuitive layout minimizes wasted movement.

Place frequently used reagents and tools on bench shelving, directly above the relevant workstation. Reserve wall shelving for bulk supplies, archival samples, or equipment that is not used every day. A clear primary workspace is an efficient one.

Step 4: Evaluate Clearance and Accessibility

Safety and accessibility are essential. Your layout must provide adequate clearance for both personnel and equipment. Ensure enough space around instruments for proper ventilation and maintenance. Keep aisles and emergency exit routes clear to comply with local codes.

Consider ergonomics for your team. Shelves that are too high or too low can cause strain and increase the risk of accidents. For public institutions, specific purchasing guidelines may apply. You can review an example of these on the Utah state contract for lab shelving and storage.

Step 5: Choose the Right System Type

With the previous steps completed, you have the information needed to make a choice. The data will guide you to the best system for your lab.

  • Bench Shelving is best for high-turnover items at individual workstations.
  • Wall Shelving is ideal for bulk storage, using vertical space effectively.
  • Hybrid Rail Systems offer the most versatility for evolving labs.

This planning ensures your decision is based on solid data about your space, load, workflow, and safety needs.

Comparing Shelving Materials and Support Structures

A close-up view of adjustable phenolic resin shelves on a steel support structure in a laboratory.

alt text: A close-up view of adjustable phenolic resin shelves on a steel support structure in a laboratory.

The materials you choose for your bench and wall laboratory shelving systems impact longevity and safety. A shelving system has two main parts: the support structure and the shelf surfaces. The structure must be strong, while the surface must withstand daily use and potential spills.

Support Structures: Painted Steel vs. Stainless Steel

The support structure is the backbone of your shelving. It must handle the required weight without failing. The main choices are painted steel and stainless steel.

Painted Steel is a common choice for general lab applications. It is strong, cost-effective, and its powder-coated finish protects against minor scuffs and mild chemicals. For dry storage or electronics testing, painted steel is a practical option. Explore our painted steel casework for complementary solutions.

Stainless Steel is the premium option for harsh environments. It is naturally resistant to rust, corrosion, and many chemicals. This makes it essential for wet labs, cleanrooms, and areas handling aggressive solvents. While it costs more initially, it outlasts other materials in tough settings.

Shelf Surface Materials: Laminate vs. Phenolic Resin

The shelf surface itself must be durable.

Chemical-Resistant Laminate is a practical choice for light-duty, general-purpose use. It is made from layers of resin-bonded paper with a protective top coat. These shelves are suitable for glassware, dry goods, and basic equipment. They are easy to clean but can be damaged by harsh chemicals or moisture. A laminate table top is another application of this material.

Phenolic Resin is a high-performance material. It is created by curing layers of kraft paper saturated in phenolic resin under high heat and pressure. This process creates a solid, non-porous panel.

  • High Chemical Resistance: It withstands a wide range of acids, solvents, and corrosives.
  • Moisture Proof: It does not absorb water, preventing swelling or delaminating.
  • Impact and Scratch Resistant: Its dense composition makes it durable for high-traffic areas.

Due to these properties, phenolic resin is the standard for labs where chemical resistance is critical. You can learn more about why phenolic resin work surfaces are important.

Feature Bench Shelving Wall Shelving Hybrid Rail System
Typical Load Range 50 – 150 lbs/shelf 150 – 250+ lbs/shelf Varies by component
Adjustability High (on uprights) Moderate (fixed brackets) Very High (on rails)
Compatible Work Surfaces Most lab benches Independent of surfaces Benches and walls
Best For Point-of-use storage, small items Bulk supplies, heavy equipment Dynamic labs, changing workflows
Pros Ergonomic, keeps bench clear Maximizes vertical space, high capacity Highly flexible, modular, adaptable
Considerations Bench must support weight Requires strong wall structure Higher initial investment

How to Integrate Shelving with Benches and Casework

An integrated laboratory workstation featuring bench shelving mounted on uprights with casework underneath.

alt text: An integrated laboratory workstation featuring bench shelving mounted on uprights with casework underneath.

A functional lab is a complete system where every piece works together. Integrating shelving with benches and casework is key to creating an efficient and safe space. This transforms individual components into a high-performance environment.

Smart integration requires planning. You must consider structural compatibility, clearance, and workflow.

Mounting Shelving Directly to Lab Benches

Mounting shelving directly onto a lab bench creates an ergonomic workstation. This point-of-use storage keeps essential items readily available. The two most common methods are uprights and rail systems.

  • Upright Systems: These are vertical posts bolted to the back of a workbench. Shelves are mounted to these posts, providing adjustable storage over the work area. Many uprights include channels for running electrical or data cables.

  • Rail Systems: With this method, a horizontal rail is mounted to the uprights. This provides a flexible track for hanging shelves, bins, and other accessories. It is a modular system that allows for quick reconfiguration.

Before installing, confirm the workbench can support the added weight of the shelving and its contents. The connection points must be secure. You can pair shelving with many technical workstations & tables.

Coordinating Wall Shelving with Freestanding Casework

Wall shelving is ideal for bulk supplies and less frequently used items. Place it strategically in relation to your freestanding or mobile laboratory casework. Coordinated placement keeps the lab organized and improves workflows.

Group related items together. For example, install shelves for chemical reagents above the corresponding storage cabinet. This creates a logical zone for chemical handling and reduces transport distance.

A well-planned layout aligns wall shelving with mobile tables and freestanding casework. This allows you to create flexible work zones that adapt to different projects.

Planning for Integrated Services

Modern labs require integrated services like power, data, and gas lines at the bench. When adding shelving, you must plan for how these services will be managed.

Many modern bench and wall laboratory shelving systems are designed with this in mind. Uprights and rail systems often include built-in channels to route wiring and tubing. This keeps cables off the work surface, reducing clutter and improving safety.

Decision Scenarios: Choosing the Right Shelving

Applying these concepts to real-world situations can clarify which system is best for you. Let's explore several common lab scenarios.

1. University Teaching Lab: The environment requires durable, easy-to-clean surfaces. Solution: Heavy-duty, bench-mounted upright shelving with phenolic resin shelves is ideal. The uprights maximize student workspace, and phenolic resin withstands frequent spills and heavy use.

2. Pharmaceutical R&D Lab: This dynamic setting needs flexibility for changing projects and equipment. Solution: A hybrid rail system is perfect. Wall-mounted rails allow technicians to adjust shelves and accessories quickly. Paired with mobile lab tables, the entire space can be reconfigured easily.

3. Clinical Diagnostics Lab: Strict cleanliness and organization are top priorities to prevent errors. Solution: Stainless steel wall and bench shelving is the standard. Stainless steel resists corrosion and harsh disinfectants. Its non-porous surface is easy to sterilize.

4. Industrial Quality Control Lab: This lab uses heavy benchtop equipment, requiring high load capacity. Solution: A robust bench-mounted system with heavy-gauge steel uprights is necessary. This provides the strength to support heavy instruments, while adjustable shelves organize related samples and standards.

5. Genomics Sequencing Lab: This space has sensitive benchtop sequencers that require stable, dedicated services. Solution: Bench-mounted shelving with integrated service channels is critical. This keeps power and data lines organized and away from the work surface, protecting expensive equipment and delicate workflows.

Maintaining Your Shelving for Safety and Longevity

Proper maintenance is a critical practice. It keeps your shelving systems safe, functional, and reliable. Consistent care prevents premature wear and protects your investment.

By building simple routines into your facility's operations, you can extend the life of your shelving. This approach helps in reducing total cost of ownership.

Regular Inspection Checklist

Routine visual inspections help catch small issues before they become serious problems. Perform this check monthly or quarterly.

  • Scan for Corrosion and Damage: Look for rust, corrosion, or deep scratches on all steel components.
  • Check Fittings and Fasteners: Ensure all bolts, screws, and brackets are tight and secure.
  • Look for Shelf Warping: Check for any bowing or warping on shelf surfaces, which indicates overloading.
  • Verify Leveling: Make sure the entire unit is stable and does not wobble.

Proper Cleaning Procedures

Using the correct cleaning products is essential for preserving your shelving materials. Always follow the manufacturer's guidelines.

For painted steel and laminate surfaces, use a mild, non-abrasive detergent and a soft cloth. Avoid harsh chemicals and abrasive pads.

For stainless steel and phenolic resin, stronger disinfectants like isopropyl alcohol are generally safe. Rinse all surfaces with deionized water afterward to prevent residue buildup.

Always defer to your facility's Environmental Health and Safety (EHS) guidelines for approved cleaning protocols.

Frequently Asked Questions About Lab Shelving

Here are answers to common questions about selecting and using lab shelving.

1. What is the typical load capacity of standard lab shelving?

Standard-duty bench shelving is typically rated for 50 to 150 pounds per shelf. Heavy-duty wall or bench systems can often handle 250 pounds or more per shelf. Always check the manufacturer's official load rating and include a safety margin of at least 25%.

2. How can I ensure new shelving is compatible with existing benches?

Measure the depth and length of your laboratory work surfaces to ensure the shelving will fit. If using bench-mounted uprights, confirm the work surface is thick enough to support the bolted connection. Check for any obstructions like a rear lip or service chases.

3. What are the key differences between phenolic resin and laminate shelves?

Laminate shelves have a particleboard core with a protective top layer, suitable for dry, light-duty use. Phenolic resin shelves are solid, non-porous panels created under high heat and pressure, offering superior chemical, moisture, and impact resistance for demanding lab environments.

4. Can shelving systems be customized for specialized equipment?

Yes. Most modern shelving systems are modular, allowing you to adjust shelf height and spacing. You can also add accessories like keyboard trays, monitor arms, bin rails, and integrated power strips to customize the setup for your specific needs.

5. What are the installation requirements for wall-mounted systems?

Wall-mounted shelving must be anchored directly into structural supports like wall studs, concrete, or masonry block. Drywall anchors are not sufficient. The system must be perfectly level. Professional installation is highly recommended for safety and stability.

6. How should I clean and disinfect different shelving materials?

For painted steel and laminate, use a mild, non-abrasive detergent. For stainless steel and phenolic resin, you can use stronger disinfectants like isopropyl alcohol. Always rinse with deionized water after cleaning to prevent residue. Follow your facility's EHS guidelines.

7. What is the difference between bench shelving and reagent shelving?

The terms are often used interchangeably. Both refer to shelving systems mounted directly above a workbench for point-of-use storage of frequently used items, such as chemical reagents, glassware, and small instruments.

8. Are there mobile shelving options available?

Yes. In addition to fixed bench and wall systems, mobile shelving options are available. These units are on casters and provide flexible storage that can be moved as needed, which is ideal for labs with changing layouts or multi-use spaces.

Find the Right Shelving for Your Lab

Choosing the right bench and wall laboratory shelving systems is a critical step in designing a productive and safe lab. By carefully planning your layout, selecting appropriate materials, and ensuring proper integration, you create a workspace that supports efficient workflows for years to come.

Labs USA stocks a wide range of lab furniture, including technical workstations & tables, casework, shelving, and related components. We offer solutions designed for durability and flexibility to meet the demands of any modern laboratory.

Compare your options and find the perfect fit for your facility.
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