When you're trying to engineer the process of a chemical reaction, the reactor design is one of the most important aspects to consider. If the reaction itself is not orchestrated properly, you won't get the process you need to produce the desired results or outcomes. When creating consumer products, the development and creation of the reaction is one of the most important steps in the process, as without this step, the final product won't have the right characteristics or properties. You literally won't have the product you need. This is especially critical if you're researching or developing products for a larger firm or in support of a retail or other sales contract. You need to meet your production goals, and the only way to do this is to ensure that the chemical reactions involved in creating your product occur properly. Designing a reaction requires that the scientist or engineer pay close attention to the reaction mechanism of the process. The reaction mechanism is the sequence of events that must take place, step by step, in order to bring about the desired chemical reaction. If even one step is followed incorrectly, you may have to start over again from the beginning. Determining which step has been accomplished incorrectly can be tricky, as in many cases, only the end result of the full reaction is directly observable. This makes it difficult to pinpoint where a given reaction went wrong. Understandably, many chemical engineers dedicate their entire careers to creating solid, accurate reaction designs and helping other engineers and researchers implement them. This is an important part of any chemical process, and it requires care, attention, and years of study and experience to properly create and implement these mechanisms. The importance of designing reactions effectively cannot be understated. There are few parts of the process that are as significant as this. If you need to create or develop a product for use in a consumer or commercial context and this product involves refining of a mineral or natural substance, you'll need to implement a series of reactions to properly create the finished product. For example, if you want to refine petroleum into a finished product such as gasoline, you need to pass it through a reaction with multiple stages. It's not always easy to tell how best to orchestrate these reactions, especially if you don't have experience with the catalysts that are required. Catalysts are often used in reactor mechanisms, and these important components can be difficult to work with if you're not familiar with them. Make sure you connect with a professional who understand reactor design if you want to create a process for refining or developing a product that relies on chemical engineering.