Reduce Electricity Bills Use AirAudit

Consider the following situation. You find out you have been using way too much water at home. You discover a leaking gasket and there is water all over your basement. What is your course of action? Of course, it is to fix the leak right away. But what if this happened at your plant? And instead of water, we are dealing with compressed air? Probably nothing, because compressed air is “free” and the leak does not bother anyone because they remain invisible. This situation is not as hypothetical as you would think. Most factories make use of compressed air in their production process and leakages in the system are unfortunately common. Compared to electricity or gas, however, factories usually have little insight into their usage of compressed air.

It is crucial that you gain insight into your compressed air system. Because contrary to what some people think, air is not free at all. In an average production plant, compressed air costs are 10 to 30% of the electricity bill! That much money should not allow for leakages or an inefficient production process. Fortunately, there is an easy way to detect losses in your compressed air system. The solution: a compressed air flow meter. But how does this instrument work? And what does your company gain from it? Read it in this article.

Gain Insights

 In order to optimize your production process, you first need to gain insight. You get just that by flow monitoring.

Get to know your production process

No production process is the same. It is a long, winding route from the compressor to the production hall.

In most factories the system looks like this:

  1. It starts with a compressor room. This is the “energy plant” of the factory. This is often a place no one likes to visit because it is noisy and warm. However, it is worth a visit, because you will find a lot of savings opportunities.
  2. In the compressor room, you will find one or more compressors. Take a look at their running hours and offload hours and their nameplates. Write down these numbers, and calculate the energy costs based on these numbers.
  3. After the compressors, you will find some filters and driers. With this equipment, water is taken out of the compressed air.  Why? Too much water is detrimental to the pipes and machines. Take a look at the floor: do you see water? In that case, you might have failing drains in the driers which need immediate action. Payback: 6 months.
  4. After the driers, you might find additional filters, for example, a particle filter, or a carbon filter, depending on the type of factory. Cleanliness and dryness are extremely important in pharmaceutical and food industry, for example.
  5. After the filters, you probably find a “header” which distributes the air to various departments, the ‘demand’ side of the factory. This header is the ideal place to install flow meters for cost allocation and leakage monitoring.
  6. Through a myriad of pipes, the air will arrive at the machine it was intended for. Take a look at these pipes, sometimes they are full of surprises, like branches that were never put in a P&ID after the plant was built. One of these branches could go to a large consumer, which is causing pressure problems for the rest of the plant.

Information from the inside

At every aforementioned step in the production process, something can go haywire. This does not always need to be a big leak in the pipes (though it is certainly possible). There can also be smaller issues, like leaking compressed air drains, or excessive demand events. If your factory runs 24/7, however, all those issues add up to a lot of wasted air. It is basically money you throw away! It is impossible to detect the weak spots in your pipes by just looking at them on a daily basis. You do not have x-ray vision, after all, and you don’t have time to walk around all day. A flow monitoring, however, tells you everything you need to know and more.

Flow monitoring helps you gain crucial information that will help you to set priorities and to back up your decisions with numbers. For example how much energy you use on weekdays and how much on weekends. Some factories discover to their surprise that compressed air is used on Sundays, even though their machines do not run that day. You can also compare one week of data to the next, using advanced monitoring software. In this way, you might discover that an excessive leak has caused an increase in your baseline. This knowledge allows you to quickly take action. Imagine how many weak spots you can discover (and solve) thanks to compressed air flow monitoring!

Leave a Comment

Your email address will not be published. Required fields are marked *