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Optimizing fulfillment warehouse layout for maximum efficiency

Written by: Erhan Musaoglu
Originally published on September 17, 2024, Updated on September 17, 2024
Optimizing fulfillment warehouse layout for maximum efficiency
The layout of a warehouse matters — a lot. A well-designed warehouse makes it easy for pickers and packers to find ordered items, swiftly package them, and ship them to customers. If the warehouse lacks logical design or doesn’t utilize space efficiently, fulfillment associates spend more time hunting down products, dragging down operational performance and order accuracy.

There are ways to improve the warehouse layout to optimize space, reduce associated travel time, and enhance overall staff productivity. Strategies like vertical space utilization, slotting optimization, and efficient picking paths can help.

Understanding the basics of warehouse layout optimization

A poorly designed fulfillment warehouse is a recipe for disaster. It can confuse fulfillment associates and lead to longer processing times and order mistakes. By optimizing the warehouse layout, managers accomplish several goals:

  • Maximized efficiency: A streamlined layout makes it easier for fulfillment associates to perform tasks.
  • Minimized travel time: Associates benefit from shorter travel times, allowing them to fulfill more orders in less time.
  • Optimized storage space: Improved space utilization allows warehouses to fit more items into the fulfillment center.

Tools such as SKU profiling and thorough inventory analysis can assist in warehouse layout planning. In SKU profiling, warehouse managers evaluate inventory according to turnover rates, seasonality, demand, and product affinity. Through SKU profiling, a warehouse manager may place fast-moving inventory in areas where associates can reach it quickly and group items that frequently ship together. A thorough inventory analysis assists in SKU profiling efforts.

Another consideration is scalability and future growth. Customer demands may shift, requiring more or less inventory at different periods. A warehouse layout that accommodates those shifts offers greater flexibility.

Key strategies for optimizing warehouse space utilization

Warehouses face space limitations, so making the most of the available area is critical. Some strategies that may improve space utilization include:

Vertical space utilization

Most warehouses offer tall ceilings, allowing managers to stack items using overhead racks rather than taking up the entire floor. Using high-racking and shelving solutions can maximize available vertical space.

Slotting optimization

Considering the characteristics of products — their size, turnover frequency, and weight — warehouse managers determine the right slot to put them in. Generally, high turnover items deserve a space closest to the packing area. However, placing too many frequent sellers in the same place may cause traffic jams and shelf instability.

Finding a slotting option that balances safety and fulfillment makes for efficient space utilization. Rather than trying to optimize slotting manually, you can use a system like Logiwa IO, which incorporates directed putaway algorithms to identify the best spots to store inventory.

Cross-docking and flow-through design

Cross-docking allows incoming goods to transfer from inbound trucks through the warehouse and directly to outbound trucks, minimizing storage time and space requirements. Utilizing a flow-through warehouse design provides a seamless transfer process.

Utilizing empty space smartly

Many warehouses fail to make use of their available overhead space. Installing a mezzanine allows managers to take advantage of the empty space and use it for additional storage, office space, or other needs.

Another consideration is the staging area. An orderly staging area with separate spaces for delivery, sorting, and quality control makes it easier for associates to perform each task.

Designing for streamlined processes

A practical warehouse layout doesn’t only optimize space — it can also improve processes.

Efficient picking paths

Most warehouses follow a U- or L-shaped design. A U-shaped design has parallel shipping and receiving docks, with storage in the middle, while L-shaped designs place shipping and receiving areas on one side and storage on the other. The layout impacts picking paths.

There’s no right or wrong answer on whether the U- or L-shaped warehouse is better. However, a design that reduces travel time can decrease labor costs and improve productivity. Tools like Logiwa’s Smart Picking make picking easier by separating jobs by identical SKUs, single-item orders, and multi-item orders. That means less time moving across the warehouse floor and quicker order fulfillment.

ABC analysis and zone picking

ABC analysis is a key method in managing materials. Used in areas like sourcing, receiving, and inventory management, it  involves sorting items into three groups (A, B, and C) based on their importance.

By using ABC analysis warehouse managers can spot high-risk items that are prone to theft or damage and those with the highest sales potential. Knowing this during layout planning helps them organize the warehouse better and later achieve nearly 100% inventory accuracy.

Separating the warehouse into specific zones provides for more efficient picking. In zone picking, warehouse managers assign associates to specific warehouse areas, where they’re responsible for picking items for incoming orders. The intimate knowledge of the products in each space means associates can quickly grab items rather than wandering the entire warehouse to find what they’re looking for.

Automation and conveyor systems

Different types of automation may improve warehouse efficiency. For instance, a warehouse management system (WMS) that reviews incoming orders and sorts them according to order items may shorten fulfillment times. Conveyors can reduce travel time by moving inventory from one place to another.

Ergonomic considerations

Warehouses can be hazardous places. To reduce the risk of accidents, include enough space between aisles to allow the free movement of associates and vehicles. Frequently used items should be within easy reach.

Improving workflow with smart zoning

Properly zoning a warehouse may enhance worker productivity and reduce congestion.

Defining work zones

Every warehouse typically includes four areas: receiving, storage, packing, and shipping zones. Clearly defining each zone allows workers to move quickly between them and prevents overlap between fulfillment activities.

Flexible workspaces

It’s not unusual for warehouses to experience seasonal differences in inventory and demand. Providing an open area that can be adapted for demand fluctuations or new product categories allows the warehouse to scale up or down according to customer needs.

Reducing congestion points

Implementing a buffer zone in high-traffic areas can help mitigate bottlenecks. For instance, you might spread high-turnover items among several locations to promote better traffic flow.

Technology-driven layout enhancements

Some of the best tools to optimize warehouse layout efficiency are technology-driven.

Warehouse management systems

A WMS utilizes real-time data to track inventory levels and improve picking efficiency. Logiwa harnesses AI to streamline warehouse processes based on warehouse layout.

Real-time data and AI-driven layout adjustments

Monitoring customer orders, ongoing demand, and picking efficiency using real-time data and AI-driven tools can help warehouse managers refine and optimize layouts over time.

Automated guided vehicles (AGVs)

AGVs run without a driver or operator and may move inventory in controlled environments. They may assist in picking processes or replenishing stock, reducing labor costs and improving overall productivity.

Warehouse layout optimization is an ongoing process

Optimizing a warehouse layout isn’t a one-time task. Since inventory and consumer demand fluctuate, managers must continually assess the layout for improvement opportunities. Finding a balance between human workflow and technology can position the warehouse for future growth.

To learn how Logiwa IO can help your warehouse achieve optimal efficiency, schedule a call with a Logiwa fulfillment expert.
 

FAQs on warehouse layout optimization

What is warehouse layout optimization?

Warehouse layout optimization involves carefully assessing common tasks, including receiving, picking, packing, and shipping, all of which to streamline processes. A well-designed warehouse arranges inventory and workspaces to optimize the flow of goods. Managers may utilize different strategies to optimize layouts, including maximizing available space and defining work zones. Automation and technology may enhance warehouse layout optimization.

What is the most efficient warehouse design?

The most common warehouse layouts include U- and L-shaped designs. However, there is no one-size-fits-all solution to warehouse design. Managers must consider inventory characteristics, turnover rates, demand fluctuations, and other factors when improving warehouse workflow. A WMS like Logiwa IO can help managers assess the best warehouse layout optimization strategies based on available data.

What are a few warehouse space utilization techniques?

Maximizing the use of vertical space can expand the storage area without breaking down walls or increasing the property’s size. Some options to maximize vertical space include high-racking and shelving solutions, as well as mezzanines. Slotting optimization may also enhance space usage by placing products in areas where they best fit, according to their weight and size. Another alternative is cross-docking, which allows warehouses to quickly transfer incoming shipments to outgoing trucks, minimizing the time spent in storage.

What are a few best practices for warehouse layout?

There are several ways to optimize warehouse layout. Implementing zone picking, which divides the warehouse into different segments, allows workers to concentrate on picking activities in smaller areas, alleviating the need for excessive travel throughout the warehouse. Warehouses may also store inventory according to demand, placing higher-turnover goods closer to packing areas. Implementing a data-driven WMS makes it easier to monitor inventory levels and arrange picking orders according to location and other factors.

Is layout planning for warehouses a continuous process?

Yes. Shifts in consumer demand, inventory levels, and other factors mean an original layout may no longer be the right fit. A WMS may highlight changing circumstances using real-time data, allowing managers to adjust the warehouse layout according to business needs. It’s good practice to regularly assess warehouse layout and other key performance indicators (KPIs), such as productivity, labor costs, and travel time, to determine whether layout tweaks are necessary.

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