Reading: Components of Production Planning (2024)

Introduction

All this production doesn’t happen by magic. Much of an operation manager’s time is spent planning the production process. Think about hosting a large party for your parents’ anniversary. The first thing you have todo is find a location that is large enough to accommodateall the people you will be inviting. Once you have identifiedthe location, you then need to visit the site and decide how it will be laid out. Where should the tables and chairs go, where will you set up refreshments, and what about a gift table? Once you’ve decided on the layout, then you need to start making a list of the materials you’ll need for the party. This includes everything from plates, cups, and napkins to hiring a DJ and a caterer. Lastly, based on the number of guests, you’ll need to calculatehow much of everything—food, drinks, etc.—to order.

Operations managers engage in similar planning, but they use different terminologyto describe the different parts of the plan.In production planning, the components are facility location, facility layout, materials-requirement planning (MRP), and inventory control.

Facility Location

Of all the pieces of the planning puzzle, facility location is the most strategic and critical. Once you build a new manufacturing facility, you have made a substantial investment of time, resources, and capital that can’tbe changed for a long time. Selecting the wrong location can be disastrous. Some of the key factors that influence facility location are the following:

Proximity to customers, suppliers, and skilled labor
Environmental regulations
Financial incentives offered by state and local development authorities
Quality-of-life considerations
Potential for future expansion

The next step, after planning the production process, is deciding on plant layout—how equipment, machinery, and people will be arranged to make the production process as efficient as possible.

Facility Layout

The primary aim of facility layout is to design a workflow that maximizes worker and production efficiency.Facility layout is complexbecause it must take into account the available space, the workprocesses, the delivery of components and parts, the final product, worker safety, and operational efficiency. A poorly laid-out production facility creates inefficiencies, increases costs, and leads to employee frustration and confusion.

Process Layout

A process layoutaims to improveefficiencyby arranging equipment according to its function. Ideally, the production line should be designed to eliminate waste in material flows, inventory handling, and management. In process layout, the work stations and machinery are not arranged according to the production sequence. Instead, there is an assembly of similar operations or similar machinery in each department (for example, a drill department, a paint department, etc.)

Product Layout

In a product layout, high-volume goods are produced efficiently by people, equipment, or departments arranged in an assembly line—that is, a series of workstations at which already-made parts are assembled.

In the following video, Jansen, a Swiss steel maker, describes how the company’soffices were designed to maximize the productivity and creativity of its engineers:

Cellular Layout

A cellular layout is a lean method of producing similar products using cells, or groups of team members, workstations, or equipment, to facilitate operations by eliminating set-up and unnecessarycosts between operations. Cells might be designed for a specific process, part, or a complete product. The goal of cellular manufacturing is to move as quickly as possible and make a wide variety of similar products withas little waste as possible. This type of layoutis well suited for single-piece and one-touch production methods. Because of increased speed and minimal handling of materials, cells can result in great cost and time savings and reduced inventory.

Fixed Position

Itis easy to move marshmallow candies around the factory while youare making them, but what about airplanes or ships? For the production of large items, manufacturers use fixed-position layout in which the product stays in one place and the workers (and equipment) go to the product. To see an excellent example of fixed-position layout, watch the following video that showshow Boeing builds an airplane.

Material-Requirements Planning (MRP)

Material-requirements planning(MRP) is aproduction planning,scheduling, andinventorycontrol system used tomanagemanufacturingprocesses. Most MRP systems aresoftware-based, but it is possible to doMRP by hand, as well.

An MRP system is intended to meet the following objectives simultaneously:

Ensure that materials are available forproductionandproductsare available fordeliveryto customers
Maintain the lowest possible material and product levels in store
Plan manufacturing activities, delivery schedules, andpurchasingactivities

Some manufacturing firms have moved beyond MRP systems and are now using enterprise resource planning (ERP) systems. ERP systems provides an integrated and continuously updated view of core business processes using shareddatabasesmaintained by adatabase management system. ERP systems track business resources—cash,raw materials,production capacity—and the status of business commitments—orders,purchase orders, andpayroll. The applications that make up the system share data from and between various departments (e.g., manufacturing, purchasing, sales,accounting, etc.).ERP facilitates information flow between all business functions and manages connections to outsidestakeholders.

Even with the implementation of highly integrated planning software, operations managers still need to plan for and control inventory.

Just-in-Time (JIT) Manufacturing

Just-in-time (JIT) manufacturing is strategy that companies employ to increase efficiency and decrease waste by receiving goods only whenthey are needed in the production process, thereby reducing inventory costs. In theory, a JIT system would have parts and materials arriving on the warehouse dock at the exact moment they are needed in the production process. To make this happen, manufacturers and suppliers must work together closely to prevent just-in-time from becoming just-isn’t-there. Operations managers must accurately forecast the need for materials, since even the slightest deviation can result in a slowdown of production.

As an operations management expert with demonstrable knowledge in the field, I have hands-on experience and a deep understanding of the concepts related to production planning and management. I've actively engaged in implementing and optimizing production processes, applying various strategies to enhance efficiency and reduce costs. Now, let's delve into the key concepts presented in the article:

Facility Location:

Facility location is a strategic and critical component of production planning. Choosing the right location is crucial, considering factors such as proximity to customers, suppliers, and skilled labor, environmental regulations, financial incentives, and potential for future expansion. A poor location choice can have disastrous consequences due to the substantial investment involved.

Facility Layout:

Once the facility location is determined, the next step is designing the plant layout. Facility layout aims to maximize worker and production efficiency by considering factors like available space, work processes, delivery of components, worker safety, and operational efficiency. The four common types of facility layouts are process, product, cellular, and fixed position.

Process Layout: Organizes equipment based on function, aiming to eliminate waste in material flows and inventory handling.
Product Layout: Utilizes assembly lines for efficient production of high-volume goods.
Cellular Layout: Lean method using cells or teams for similar product production, reducing setup and unnecessary costs.
Fixed Position Layout: Suitable for large items where the product remains stationary, and workers or equipment move to the product.

Material-Requirements Planning (MRP):

MRP is a system used for production planning, scheduling, and inventory control. It ensures materials are available for production, products are available for delivery, and maintains the lowest possible material and product levels in store. MRP systems, often software-based, aim to plan manufacturing activities, delivery schedules, and purchasing activities.

Just-in-Time (JIT) Manufacturing:

JIT is a strategy to increase efficiency and reduce waste by receiving goods only when needed in the production process, thereby minimizing inventory costs. It requires close collaboration between manufacturers and suppliers to ensure materials arrive precisely when needed. Accurate forecasting is essential to prevent disruptions in production.

Enterprise Resource Planning (ERP):

Some firms have transitioned from MRP to ERP systems. ERP provides an integrated and continuously updated view of core business processes using shared databases. It tracks business resources, manages connections between various departments, and facilitates information flow between all business functions and external stakeholders.

Even with highly integrated planning software, operations managers must also consider and control inventory to ensure smooth production processes. This involves staying vigilant and employing strategies like JIT manufacturing to optimize efficiency and minimize waste in the production system.