10 steps to a green and more efficient production

Carbon reduction for green production - all you need to know
10 steps to green compressed air production

Everything you need to know about your pneumatic conveying process

Discover how you can create a more efficient pneumatic conveying process.
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Avoid rubber hoses for compressed air piping. Here’s why.

Many customers use rubber hoses to distribute their compressed air. This leads to energy waste, higher energy bills, and potential harm to your tools. Read this article to understand why relying on rubber hoses is a mistake in the long-term.

The drawbacks of using rubber hoses to distribute compressed air

A rubber hose solution is something a temporary fix. We see this a lot in smaller facilities and workshops. People who rely on it are looking for something cheap and easy to set up. But it is our belief that they are neglecting actual cost efficiency and performance in favor of convenience.

If their workload increases, or they want to expand their facility, the rubber hose compressed air distribution method will not serve them well. 

Here’s a few of the widely known problems with using rubber hoses:

  • Rubber hoses aren’t designed to fit snugly on connectors and connecting points. A small amount of constant leakage occurs.
  • Rubber hoses create safety hazards. The material cannot withstand highly pressurized air. It could burst and injure the operator, or anyone within the vicinity of the compressor room.
  • Condensation and moisture build-up in the rubber hose will interfere with your equipment and your processes.  It will also increase friction, which results in pressure drops.
  • Rubber hoses don’t come in the right sizes. You will have trouble increasing the volume of compressed air you can distribute.
  • Over time the hoses degrade rapidly and may introduce an odor into your products or processes. 
rubber-hose
Rubber hoses have efficiency issues that result in a ‘Pressure Drop’ between the air compressor and the point of consumption. Pressure drops naturally happen as compressed air moves through the distribution system around the plant or facility. A well-made compressed air distribution system should incur a pressure loss of less than 10 percent of the air compressor’s discharge pressure, when measured from the air compressor discharge outlet to the point of use. The goal should be to make sure the pressure drop during distribution does not exceed 0.3 bar between the air compressor discharge point and the furthest point of consumption. Plant managers and engineers attempt to solve this by increasing the discharge pressure at the Air Compressor end to compensate for the pressure drop. But they are using more energy than they should. And if demand along the hose is reduced then pressure drop reduces, and pressure at the point of consumption unexpectedly rises above the allowed level. This isn’t economical, leads to more inefficiency, and raises energy costs.

Get a specialized compressed air piping kit instead

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials.

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or

By avoiding having to compensate for pressured drops (i.e., raising discharge pressure at the air compressor end) the plant benefits. A 1 bar reduction in discharge pressure requirements on the air compressor can equate to a 6-10% reduction in energy consumption. This is direct cost savings.

Properly sized pipes need to be used to maximize pressure and flow while keeping energy costs as low as possible. Choosing the right size can only be done once your application’s compressed air demand is measured and analyzed.

What the pipe is made of matters too. Pipes are made from aluminum, copper, plastic, and other materials. Each material has its advantages and disadvantages and for any workshop or plant owner who intends to increase their productivity and their cost savings should consider consulting with someone who understands this.

And the future needs of your facility should be included in the design and planning. Making a final decision based solely on present day flow requirements could lead to difficulties and unexpected expenses in the future.

A degree of expertise and specialization is required when designing and installing the best compressed air piping for your workspace.

That’s why Atlas Copco R&D has produced a compressed air piping kit that is designed specifically to address all the concerns we’ve mentioned above. Read more about the AIRnet compressed air piping system here.

Or visit this page for FREE guides and reading materials that will inform your compressed air piping decisions.

You can also get in touch with us through the page and request that a team of our experts in the UAE visit your facility for a FREE inspection and consultation.

download configuration of compressed air piping system

Airnet

Avoid rubber hoses for compressed air piping. Here’s why.

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