The Cause of Boiler Corrosion and How to Handle the Issue

boiler

You can concentrate on serious issues like system failures or component failures when it comes to boiler maintenance. You must also watch out for boiler corrosion, a less evident but highly dangerous issue that can quickly worsen into your boiler’s catastrophic collapse.

Any iron in the boiler system that is in contact with water and oxygen will corrode. Due to the chemical reaction brought on by this mixture, the metal in the boiler tubes and associated pressure parts eventually corrodes and disintegrates, resulting in rust development.

What Causes Boiler Corrosion?

Pitting corrosion is a specific type of corrosion that can be very harmful. The beginning of a pit or patch of corrosion is a local anodic or cathodic point. 

This corrosion might be accelerated by oxygen present in the boiler’s water feed. When pitting is noticed, it’s crucial to make sure that auxiliary equipment like deaerators, feedwater tanks, and chemical pumps are in good working order. 

You should also ensure that no leaks have formed that could let freshwater or process impurities into the system.

If inadequate water circulation hinders the washing of caustic components from the boiler surfaces, crevice corrosion may develop close to fissures. This is more typical in boilers with big water tubes.

On the metal near a joint, another sort of boiler corrosion may manifest itself. This corrosion, known as galvanic corrosion, develops when metals with different electrochemical compositions come into electrical contact with one another in an electrolytic environment. 

This kind of corrosion is more frequently observed in hydronic systems where the boiler heat exchanger and pipework are made of different metals. This kind of degradation can be avoided by using a dielectric joint or another form of safeguard.

In a boiler, corrosion can also occur if the water’s pH is too high or too low. Caustic, corrosive damage occurs when a concentrated caustic substance dissolves and generates a high pH. 

When the boiler water’s pH is too low, acidic corrosion begins to form. Acidic corrosion can also be caused by cleaning supplies that are not handled properly.

How to Prevent and Control Boiler Corrosion

Even though boiler corrosion cannot be completely avoided, it is still vital and manageable to remove the factors that favour it. Your boiler will have the longest possible service life if you take proactive measures to stop corrosion from spreading.

You can keep track of the boiler’s performance and its supporting machinery with a routine boiler inspection program. Keep an eye out for things like variations in the water’s pH and temperature in the feed tank.

Check the system frequently for leaks and look for any indications of corrosion. Daily pH, hardness, and chemical checks should be made on boiler water, feed water, make-up water, and condensate.

Conclusion

You can get a heads-up on issues by looking at how these variables have changed over time. Your maintenance team may be relieved of the responsibility of monitoring by signing a contract with a reputable and professional chemical treatment business.

The majority of problems can be solved with adequate chemical treatment and gas removal using a deaerator or feed water tank. 

Regular boiler maintenance will provide you the chance to maintain your boiler clean and free of scale, rust, and corrosion while also alerting you to potential issues.

Climate Experts can take care of your boiler repair in Pickering! We’re a Canadian-owned and -operated company that installs, services, and maintains all major furnace and air conditioner brands. Call us anytime, as we’re available to serve you with 24/7 emergency service!

How is Your Furnace Impacting the Air Quality in Your Home?

furnace

We often take the air around us, indoors and out, for granted. We assume that because we can’t see it, there must not be anything wrong with it. Unfortunately, that’s not always the case. The air inside our homes and businesses can be more polluted than the air outside.

Indoor air pollution is caused by a variety of sources, including:

  • Chemicals used in cleaning products, paint, and other building materials
  • Cigarette smoke
  • Dust mites
  • Gases from cooking stoves and other combustion appliances
  • Mold and mildew

These pollutants can build up to levels that pose serious health risks. 

Luckily, there’s plenty you can do to improve your indoor air quality. Some solutions are simple, like opening a window to let in the fresh air. Others are more involved, like installing an air purifier or ventilator.

Whatever steps you take, improving indoor air quality is essential for your health and those you share your space with.

In today’s article, let’s take a closer look at your furnace and whether or not it’s impacting your indoor air quality. Here’s what you need to know:

Do Furnaces Affect Indoor Air Quality?

When it comes to indoor air quality, you may not think that your furnace has much impact. However, the truth is that your furnace can significantly affect the quality of your indoor air.

How Furnaces Affect Indoor Air Quality

One of the biggest ways that furnaces can affect indoor air quality is through the emission of carbon monoxide. Carbon monoxide is a colourless and odourless gas that can be very dangerous if it builds up in enclosed spaces. Furnaces can emit carbon monoxide if they are not properly ventilated or if they are not functioning correctly. 

Another way that furnaces can affect indoor air quality is by circulating dust and other particles through your home. If your furnace filter is dirty, it can circulate dust and other particles through your home, worsening allergies and respiratory problems. Change your furnace filter regularly to help improve the quality of your indoor air.

Finally, furnaces can also dry out the air in your home, leading to various problems. Dry air can cause nosebleeds and static electricity, and it can also make it difficult to breathe. If you have a furnace, it’s essential to use a humidifier to help add moisture to the air and improve indoor air quality.

Improving Your Indoor Air Quality

In addition to regularly changing your furnace filter, you can also have your furnace checked by a professional to ensure that it is functioning properly. You can also use a humidifier to add moisture to the air and improve indoor air quality. Finally, you can also try to reduce the dust and other particles in your home by regularly vacuuming and dusting.

The Bottom Line

Furnaces can affect indoor air quality in a number of ways. First, they can emit pollutants that can contaminate the air. Second, they can circulate dust and other particles that contaminate the air. Finally, they can create condensation that can lead to mould growth. All of these factors can contribute to poor indoor air quality. This is why it’s important to ensure that your furnace is well-maintained. 

If you are looking for furnace repair services in Pickering, we can help you. Climate Experts is a Canadian-owned and operated company serving the Durham region, GTA and the surrounding area. We install, service and maintain all major brands of furnaces and air conditioners. Our services are available 24/7 and for emergencies. You can count on us to get your HVAC system up and running in no time! Contact us today to learn more and get started.

Heat Pump and Heating Boiler: Understanding the Difference

boiler

Heat pumps and heat boilers are two different ways of heating your home. Both have their own advantages and disadvantages, so it can be difficult to decide which one is right for you. To help simplify things, we thought it would be useful to put together a brief article about this subject. If this is something that you’re interested in learning more about, here are heat pumps and heating boilers.

What is a Heat Pump?

A heat pump is a device that transfers heat energy from one location to another, often from a colder to a warmer location. The term “heat pump” is often used to refer to a household appliance that transfers heat from the inside of the house to the outside, or from one room to another. Heat pumps are also used in industrial and commercial settings to transfer heat from one area to another.

Heat pumps use either a refrigerant or an absorption material to absorb heat from one area and release it to another. The refrigerant or absorption material is contained in coils that are either inside or outside the area being heated or cooled. When the refrigerant or absorption material absorbs heat, it changes state from a liquid to a gas or vice versa. This change of state allows the heat to be transferred to another area.

There are two main types of heat pumps: air-source and ground-source. Air-source heat pumps use the air as the heat source and sink. Ground-source heat pumps use the earth as the heat source and sink. Air-source heat pumps are more common than ground-source heat pumps, but ground-source heat pumps are more efficient because they have a lower operating cost.

What is a Heat Boiler?

A heat boiler is a device used to generate heat for a variety of purposes, such as space heating, water heating, or process heating. The most common type of heat boiler is the steam boiler, which uses steam to heat water and generate thermal energy. Other types of heat boilers include hot water boilers, gas-fired boilers, oil-fired boilers, and electric boilers.

How Do Heat Pumps and Heat Boilers Differ?

There are a few key differences between heat pumps and heat boilers.

First, heat pumps are more efficient than heat boilers. They can convert up to 3 times more energy into useful heat.

Second, heat pumps work more effectively in colder climates. They can extract more heat from the environment, which is important in climates where the temperatures regularly drop below freezing.

Third, heat pumps are quieter than heat boilers. They produce less noise, which is important if you are looking for a unit that will be installed in a living space.

Finally, heat pumps are more expensive to install than heat boilers. However, they are also more energy efficient, so they will save you money in the long run.

Conclusion

Heat pumps and heat boilers work differently to heat your home. A heat pump uses electricity to move heat from one place to another, while a heat boiler uses natural gas or oil to heat water, which then creates heat for your home. 

Which one you choose depends on your needs and what is available in your area. A heat pump is more efficient than a heat boiler, but a heat boiler is less expensive to install. Talk to a professional about what would be the best option for you.

Climate Experts provides top-quality services for boilers in Pickering. Our professional heating and cooling technicians will ensure your home is adequately ventilated, all for fair prices. Visit our website today to request a free estimate!

Oversized Furnaces and the Issues They May Bring to Your Home

furnace

When buying a furnace for your home, a key consideration is to ensure that it fits perfectly in your home. However, not all homeowners are aware that an oversized furnace can have adverse effects that may compromise comfort and efficiency inside the property. Check out the common issues you may encounter when you have an oversized furnace:

Lower Home Efficiency

One of the most common issues with oversized furnaces is that they can lower your home’s efficiency. When a furnace is too large for your home, it short cycles, turning on and off more frequently than it should. This causes the furnace to work harder than it needs to, leading to decreased efficiency and increased energy costs.

Inadequate Heat Output

An oversized furnace can also lead to inadequate heat output, leaving your home feeling cold and uncomfortable. This is because an oversized furnace can’t produce enough heat to adequately warm your home, which can result in the furnace working harder than it should. This can also lead to increased energy costs and decreased comfort levels.

Poor Air Quality

An oversized furnace can also lead to poor air quality in your home. When a furnace is too large, it can cause the air to become stagnant, which can lead to dust and other pollutants accumulation. This can lead to respiratory problems and other health issues.

Reduced Lifespan and More Frequent Disrepair

An oversized furnace can also lead to a reduced lifespan and more frequent disrepair. This is because when a furnace is too large, it can put unnecessary stress on the components, leading to them wearing out more quickly. It can also lead to more frequent repairs and replacements.

What To Do if You Have An Oversized Furnace

If you have an oversized furnace, there are a few things that you can do to address the issue. The first is to have a professional furnace technician come to your home to inspect your furnace and make recommendations for how to address the problem.

Another option is to upgrade to a smaller furnace. This can be a more expensive option, but it can be worth it in the long run. Upgrading to a smaller furnace can lead to improved energy efficiency, improved air quality, and a longer lifespan for your furnace.

Other Tips to Choose the Right-Sized Furnace for Your Home

If you are considering upgrading to a smaller furnace, there are a few things that you can do to ensure that you choose the right-sized furnace for your home.

First, you should size your furnace according to the square footage of your home. You can use a furnace sizing calculator to help you determine the right size for your home.

You should also consider the climate where you live. If you live in a colder climate, you will need a larger furnace than if you live in a warmer climate.

Finally, you should also consider your family’s needs. If you have a large family, you will need a larger furnace than if you have a small family.

To Sum Up

It’s important to make sure your furnace is the right size for your home. An oversized furnace can cause a number of problems, including increased energy costs, shortened furnace life, and uneven heating. If you’re not sure what size furnace you need, talk to a heating and cooling professional.

For reliable furnaces in Pickering, trust only the Climate Experts. We are a Canadian-owned company serving the Durham region, GTA and the surrounding area. We install, service and maintain all major brands of furnaces and air conditions 24/7. Get in touch with us.