The Importance of Air Gaps in Providing Safe Food to All
Late last month, I was exploring job tasks that are important for entry-level foodservice managers to understand related to food safety. The usual items that you would suspect were on the list were certainly included – foodborne outbreaks; temperature danger zone; physical, biological, and chemical contamination; personal hygiene and proper glove use; HACCP systems, etc. But one thing I noticed was missing that really is integral to protecting the food supply in any foodservice operation is air gaps.
I thought back to when I was starting my management career in foodservice, and I know I was certainly aware of what an air gap was, but looking back now, I certainly took them for granted. After all, I was managing a foodservice operation that had been opened since the 1960s. Certainly, all the plumbing had air gaps in place, and it wasn’t something that I had to worry about – or so I thought.
There have been instances where a lack of air gaps did cause illness – and most have been in established operations. For example, a few years ago, a popular quick service Mexican restaurant in California caused over 100 customers to contract Norovirus. Upon investigation, the health found that contaminated water from a sink that lacked proper air gaps had likely caused the outbreak.
Air gaps may be a dry subject to discuss and learn about, but they are a critical component of food safety…
If you are not quite familiar with what an air gap is, it is a vertical space between the water outlet and the flood level rim of a sink or other plumbing fixture. Essentially, a physical separation between potentially contaminated water and the source of fresh water. It is designed to prevent any backflow of contaminated water into the freshwater supply. This is especially important in areas where food is prepared, cooked, or served and plays an important role in preventing the spread of harmful bacteria, viruses, and other pathogens that can cause foodborne illness.
Why are air gaps so vital to protecting public health? When water pressure drops in a plumbing system, a vacuum can form, causing water to flow backward and potentially contaminate the freshwater supply. An air gap prevents this from happening by creating a physical barrier between the water source and the potentially contaminated water. Without an air gap, contaminated water can easily flow the water supply, ultimately contaminating food and causing illness.
It is important to note that air gaps must be properly installed. But they must also be properly maintained to be effective. Regular inspections and maintenance are critical to ensuring that air gaps are functioning properly and protecting against cross-contamination. I was reminded of this last week as I was drawing water for a mop bucket in our foodservice lab at the university – and I caught myself filling the bucket with the hose in the mop water, failing to keep the air gap that is needed to protect the water supply. What is the solution? Cutting the hose, making sure to keep it long enough to be able to effectively fill the mop bucket, but short enough that an employee (or in this case, me!) cannot stick the hose in the mop bucket.
Air gaps may be a dry subject to discuss and learn about, but they are a critical component of food safety in any foodservice operation. Following best practices for air gap installation and maintenance will help any foodservice operator protect their customers and ensure the safety of the food they serve. Risk Nothing.
The Route to Safer Fresh Fruits and Vegetables
Although fruits and vegetables are one of the healthiest foods sources in our diet, we continue to have foodborne disease outbreaks of significance from produce, sometimes affecting large groups of people in multiple states because of their wide distribution. The CDC estimates that fresh produce now causes a huge number of foodborne illness outbreaks in the United States. Produce needs our continued food safety efforts at the restaurant level as well as at the stages in agricultural production. Occasionally, fresh fruits and vegetables can become contaminated with harmful bacteria or viruses, such as Salmonella, E. coli 0157:H7, Norovirus, and Hepatitis A. This contamination can occur at any point from the field to our table. If eaten, contaminated fruits and vegetables can cause foodborne illness.
Be Cool, Chill Out, Refrigerate Promptly!
The Cold Chain -- Keeping perishable foods at proper cold holding temperatures (between 28°F and 41°F maximum or 0°F for frozen food) from your food producers / manufacturers to your customers has to be one of our strongest links to safe food and high quality. Sometimes that is referred to in the food industry as “maintaining the COLD CHAIN”. Any slip ups in the cold chain, and we have a weak link. Most all of our state food regulations require 41°F as a cold maximum, but colder is a “best practice” policy to maintain.
Cutting Board Safety
Everyone knows to prepare food only on a clean and sanitized surface. Everyone also knows not to prepare food on a surface previously used to prepare any type of uncooked meat—cross-contamination. But does everyone know what this clean, sanitized, uncontaminated surface should be made out of? Or how cutting boards should be cared for?
A Date with Safe Food Labels
When it comes to food, calendar dates relating to time and temperature are important and sometimes confusing. Terms we use are: 1) food product or code dating used for commercial food manufacturing and 2) date marking used for food prepared onsite in a restaurant. In a restaurant at the receiving step or the retail food store as a consumer, "Sell by July 14" is a type of information you might find on a meat or poultry product. Are dates required on food products? Does it mean the product will be unsafe to use after that date? Here is some background information, which answers these and other questions about food product dating.
