HVAC Supplies Blog

As one of AquaMotion's representatives, we are proud to announce that AquaMotion is being recognized as a “Top 20” manufacturer in this month’s PM Engineer magazine. In fact, they have ranked 9th out of the “Top 20” for the AMH3K-7 Hot Water Recirculation Kit! It's a great accomplishment in the marketing of their industry-renowned recirculation systems.

PM Engineer magazine receives thousands of press releases every year. Those same press releases are reproduced and viewed on pmengineer.com. Total page views per press release are then calculated for the year, and the attached list includes all of the finalists.

AquaMotion spreads the list hoping that all representatives will use this AquaMotion recognition in their sales presentations and visits to existing and new AquaMotion customers. We are happy to spread the success of AquaMotion recirculation products! 

Read a full AquaMotion's article here.

For the Top 20 List, please visit the website.

Improving Indoor Air Quality (IAQ) is critical to reopening buildings post-COVID and for encouraging occupancy in schools, theaters, stadiums and office buildings. ACI's new volatile organic compound (VOC) and particulate matter (PM) sensors can help measure, control, and improve IAQ in all spaces. 

VOC Sensor Features:

• 
  Measures 0-1000ppb TVOC (isobutene).
• Analog (4-20ma or 0-10VDC) or Modbus output.
• Room & Duct versions available.
• Room unit available with LCD.

VOC Datasheet »

PM Sensor Features:

• 
  Measures particulates from 0.3 - 2.5 microns in size. Measurement range 0-500 microns / cubic meter. 
• Analog (4-20mA or 0-10VDC) or Modbus output.
• Room & Duct versions available.
• Room unit available with LCD.

PM Datasheet »

Click HERE for an ACI webinar recording where these products were discussed in more detail.

For more information about IAQ, strategies for improving IAQ and how these products can help, click HERE for a webinar recording about IAQ.

You need to choose the right thermostat for safe and energy-efficient heating and cooling control. But should you get a single-pole or a double-pole thermostat for your home?

Thermostats are an essential part of your HVAC system, and you need to know about a few things before deciding what to buy. And that's why you should learn about the difference between a single-pole and a double-pole thermostat.

And there's more! Keep reading to the end to learn how to install pole thermostats in your home.

What Is a Pole in a Thermostat?

Let's start by discussing an essential component of a single-pole and double-pole thermostat. The pole of a thermostat means separate circuits that a thermostat can operate from.

In a single-pole thermostat, the electrical current powers the device only in one direction, meaning that the circuits can't work separately. As such, you can't turn this device OFF without disconnecting it from a power source.

The electric charge flows in two directions in double-pole thermostats. This means you can quickly turn these thermostats OFF (something single-pole devices can't do).

Low-Voltage vs. Line-Voltage Thermostats: How Do They Work?

Thermostats use low voltage and line voltage for heating and cooling control. But what is the difference between a single-pole and a double-pole thermostat?

First, let's see how all thermostats work.

When the heating (cooling) device is ON, the circuit closes the thermostat, allowing the electricity to power the heating element. When the set temperature is reached, the thermostat automatically cuts the electrical current, allowing the heater to cool down. This process repeats in cycles to maintain the desired indoor temperature.

A low-voltage device is wired directly into the control device. These thermostats are cheap and require about 24 Volts to work. Low-voltage thermostats use much less power than line-voltage thermostats, and they are widely used to control:

• Boilers

• Heat pumps

• Heaters

• Furnaces

Line-voltage thermostats work from circuit breaker boxes that provide from 120 to 240 Volts. This is the most popular voltage that you can find in devices such as:

• Ceiling fans

• Lamps

• HVAC systems

A line-voltage thermostat is excellent for most heating and cooling control systems. They usually work without transformers that reduce the voltage. Furthermore, all single-pole thermostats and double-pole thermostats are line-voltage relays.

What Are Single Pole Thermostats?

Single-pole thermostats are line-voltage devices that control the HVAC equipment. Single pole switches are wired directly to the circuit breaker and operate in one direction of the electrical current. These devices maintain a continuous connection between the heater and the electrical panel. You won't be able to turn a single-pole thermostat off like any other electrical device. Single-pole thermostats don't even have an OFF setting. Instead, they have a “low setting”, which usually stands at 45 degrees Fahrenheit (about 7 degrees Celsius). This means that the thermostat will power on the heater whenever the indoor temperature hits the lowest setting.

What Are Double-Pole Thermostats?

Double pole thermostats (also known as four-wire controls) are line-voltage devices that control the heating equipment with two-directional electric currents.

A double-pole thermostat is wired into the circuit breakers just like a single-point thermostat. However, these HVAC thermostats have a real OFF setting that completely isolates them from the HVAC system.

The double pole thermostat won't measure the room temperature and activate automatically in the offline mode. This is a more convenient and energy-efficient solution for most users. And it's always safer when the heating equipment doesn't turn on when you're away from your home.

How to Identify a Thermostat

Seems pretty straightforward so far, right? We have great news. You can identify the difference between a single-pole thermostat and a double-pole thermostat in a few easy steps. 

• Buttons and settings. Unlike their double-pole counterparts, single-pole thermostats have a “low setting” instead of an OFF switch. Therefore, if you can't see a way to turn the device offline — you're looking at a single-pole thermostat.

• Wiring. Check the back of the device after taking it from the wall. Inspect the wiring. A single-pole thermostat has two wires, while a double-pole thermostat will have four wires.

And what if you see more than four wires? In that case, you're looking at a low-voltage thermostat. These devices can't control electric heating equipment and won't have any use for your HVAC system.

Don't detach the device if it's on! Remember to turn off the power supply at the breaker first. Afterward, you can safely disconnect the thermostat from the heating equipment (or the wall) to see its back.

Now, let's see how you can install a thermostat.

Installing a Thermostat

Can you set up a thermostat safely without a professional technician? Yes! Below, we describe how to perform a double and single-pole thermostat installation step-by-step.

1. Turn off the electrical power at the circuit breaker (fuse box). We recommend locking the panel to ensure no one can turn the power on unexpectedly.

2. Remove the cover from the junction box.

3. Leave two heater wires loose by disconnecting the factory connector.

4. Connect the green grounding screw with a supply grounding wire.

5. Wire the heater to the thermostat wiring box. Then connect the thermostat wiring box to the circuit breaker's supply wire.

6. Connect the heater's and circuit breaker's ground wires in the thermostat wiring box.

Single-pole and double-pole thermostat installation processes are slightly different because of the wiring; as mentioned, a single-pole thermostat has two wires, and a double-pole has four wires. 

How to Install a Single-Pole Thermostat

• Connect the hot supply wire (usually black-colored) to the thermostat's hot supply wire (marked as Line or L1).

• Route the second thermostat wire (Load or T2) to the identically colored wire at the baseboard heater.

• Connect the circuit breaker's and baseboard heater's white-colored supply lines.

How to Install a Double Pole Thermostat

• Connect a hot supply wire (it should be black) to the thermostat wire (Line or L1) using wire connectors.

• Route the thermostat wire (Line or L2) to the supply wire (white).

• Connect the thermostat wires (Load or T1) to the heater's black-colored wire.

• Wire the remaining connection (Load or T2) to the heater's white-colored wire.

Now, you still have a few steps left to finish the installation:

• Place all wires into the wiring compartment before mounting the thermostat.

• Connect the thermostat's supply wires to the supply wires in the junction box.

And your HVAC system is ready! You can now turn the power supply on at the circuit breaker.

How to Choose the Right Thermostat for Your Home

So, what's the best type of thermostat for you? Let's look at the difference between a single-pole thermostat and a double-pole thermostat from several perspectives:

• Energy consumption. You can't turn off a single-pole thermostat like a double-pole one. Therefore, a single-pole device will always consume energy, whereas a double-pole thermostat can cut your energy costs.

• Safety. A single-pole device will automatically turn on when the indoor temperature falls below the minimal settings. Consequently, a double pole device is a safer solution, especially if you're on a trip away from home.

• Convenience. And lastly — you can turn double pole thermostats OFF in a second. By contrast, you'll have to manually disconnect the heater from the power line to turn it offline with a single-pole thermostat.

And if you're in a hurry, here's a comparison table between these types of thermostats.

Conclusion

And this concludes our guide on the difference between a single-pole and double-pole thermostat! Hopefully, you now have a better idea of what type of thermostat will work better for you.

Blackhawk Supply offers a wide selection of high-quality thermostats. Check it out and buy today!

Do you want to have the cleanest air in your home? Indoor air pollution is one of the main causes of such health problems as respiratory diseases, heart conditions, and cancer.

But an HVAC system won’t be enough to ensure a healthy environment. If you take indoor air quality seriously, you need to understand the difference between an air purifier vs. air filter.

Now, what is the difference between an air filter and an air purifier? Stick with us to learn what will work best for you.

Differences Between Air Filter and Air Purifiers

Air purifiers and air cleaners are crucial for indoor air quality. However, they have different working principles.

Let’s see what they do in greater detail.

Air Filters

What Is an Air Filter?

An air filter is an accessory for HVAC (heating, ventilation, and air conditioning) systems with two goals. The first goal of all air filter types is to keep HVAC systems clean and prolong their service life. The second one is to filter airborne pollutants.

In other words, air filters impact the effectiveness of your air conditioning equipment and the air quality.

Types of Air Filters

Air filters provide varying levels of filtering efficiency. You can choose an optimal air filter based on its minimum efficiency reporting value (MERV). The MERV rating ranged from 1 to 16, with a higher value indicating better filtering performance.

Some of the most common home air filter types with good MERV rating include:

• Electrostatic. One of the cheapest options that remove pollutants with an electrostatic charge.
• Activated carbon. A common solution for trapping volatile organic compounds, odors, and gaseous pollutants. However, these filters can struggle against larger specks of dust and mold spores.
• Washable filters. A long-lasting and cost-effective solution for HVAC systems that require regular cleaning.
• HEPA. High-efficiency particulate air filters with a 16 MERV rating. They trap over 99.97% of particles as small as 0.3 microns. Despite being costly, these filters work excellent for homes and commercial buildings.

How Does Air Filter Work

The air filter is usually located in the HVAC system between the air handler and the air return duct. The filter’s objective is to trap microscopic pollutants before they reach rooms in your house.

The air filter working principle is simple. When you turn on the HVAC, the air gets drawn into the duct. The filter works as a barrier between the duct and your vent, trapping air pollutants from entering your home.

Do I Need Air Filters?

Air filters protect your home from such airborne particles as:

• Dust
• Powder
• Pollen
• Mold
• Bacteria
• Smoke
• Odors

Moreover, air filters will keep your HVAC system cleaner, further prolonging the equipment’s service life.

But you need to remember that high-quality air filters won’t guarantee clean air. These accessories require regular maintenance to retain their filtering efficiency. Furthermore, you’ll have to replace them after a specific service period.

You shouldn’t rely solely on air filters. If you want the best possible air quality, we recommend using additional air cleaning equipment.

Air Purifiers

What Is an Air Purifier?

An air purifier is a device that cleans the air from inside the house. This device improves the air indoor air quality and produces fresher indoor air.

Air purifiers work differently from air filters. Whereas filters trap pollutants from entering the HVAC system, an air purifier removes contaminants that have found their way into your home.

Types of Air Purifiers

Purifiers offer different air purification efficiencies based on the MERV value (you can read about it above).

What’s the best type of air purifier for you? Let’s look at the most popular devices:

• Ionic. These devices create charged ions that attach to pollutants, making them so heavy that they fall to the ground. Ionic purifiers are effective against most types of air pollution, except for odors.
• Activated carbon (absorbent). Absorbent purifiers work against odors, smoke, and gasses. On the downside, activated carbon equipment purifiers are less effective against dust and mold.
• Ultraviolet (UV). UV technology uses light to remove viruses from the air. These devices are extremely useful when used in conjunction with other purifiers.

How Air Purifier Works

Air purifiers cleanse the indoor air from contaminants and work differently based on their types.

Activated carbon air purifiers draw in the air through its fans and trap harmful particles in the filters. Afterward, a fan blows the purified air back into the room.

Ultraviolet and Ionic devices have another working principle. Instead of filtering the bacteria, these purifiers clean the air with special light bulbs and charged ions.

Do I Need Air Purifiers?

Air purifiers can neutralize most types of dangerous pollutants from the air:

• Dust
• Mildew and mold
• Bacteria and viruses
• Fibers
• Pollen
• Ash
• Soil
• Powder
• Smokes
• Odors
• Gaseous pollutants

Air purifiers can relieve symptoms of respiratory disease, neutralize unpleasant odors, and improve sleep quality.

But remember that air purifiers are effective against different pollutants. We recommend getting a UV or Ionic purifier for bacteria and an activated carbon purifier for odors and smokes for the best results.

Cheap devices will generate a significant amount of ozone that can cause damage to your respiratory system. Therefore, you should get high-quality equipment to reap all benefits of air purifiers without their downsides.

What Is an Air Cleaner?

Many companies tend to confuse the term “air purifier” and “air cleaner.” Although they have the same goal, these devices are slightly different.

Most air purifiers clean the air “remotely” with an ultraviolet light or charged ions. The UV devices neutralize bacteria, while Ionic purifiers weigh the pollutants down to the ground.

On the other hand, air cleaners are powered by a fan that draws in the air and filters the pollution. In short, cleaners work like mini-HVAC systems.

HEPA is the most popular type of air cleaner for homes. These devices remove most airborne pollution in the air, down to the microscopic specs of dust. However, HEPA air cleaners are not as effective against odors. You should also regularly maintain and replace the filters inside.

Air Filter vs. Air Purifier — What Should I Buy?

Air filters and air purifiers have different functions, but they share the same goal — to improve indoor air quality.

Air filters allow the HVAC systems to work more efficiently, improving the quality of air that comes into your house from outside. Moreover, filters reduce the wear of your air conditioning equipment.

Air purifiers and cleaners eliminate harmful pollutants from inside your home. They also remove bacteria, viruses and neutralize unpleasant odors.

Comparing air filters vs. purifiers is useless if you want to breathe the cleanest air. We recommend getting both to take your indoor air quality to the maximum.

Conclusion

Now you should know the differences between air filters, purifiers, and cleaners. All of them are crucial if you want to enjoy the freshest and purest air while in your home.

Blackhawk Supply offers the best selection of high-quality air filters, commercial purifiers, and HVAC equipment. Buy now!

Indoor air quality (IAQ) is crucial for our well-being, but not everyone understands why indoor air quality is important.

The air quality in buildings leaves a lot to be desired even though we spend most of our lives indoors. Poor indoor air quality is responsible for over 1.6 million deaths in 2017 alone.

How can you improve indoor air quality in schools, hospitals, and commercial buildings? Keep reading to find out.

What Is Indoor Air Quality (IAQ)?

Indoor air quality (IAQ for short) is a concentration of thermal conditions and airborne contaminants in public and commercial buildings. The air affects the comfort, health, performance, and overall well-being of indoor occupants. Consequently, poor IAQ can lead to severe diseases, allergic symptoms, and reduced lung function.

Air quality is crucial for schools and healthcare facilities. High levels of airborne pollutants are often caused by poor building construction, infrequent maintenance, and cheap ventilation.

Now, what is an acceptable indoor air quality level? According to several standards and regulations, proper IAQ is found in buildings where most occupants don’t suffer from odor and sensory irritation.

But how do you measure what is good indoor air quality? Let’s talk about the causes of bad IAQ to answer this question.

Causes of Poor Indoor Air Quality

You probably know what causes air pollution. But don’t let the smell of air fresheners trick you — indoor air isn’t much cleaner. Now, let’s see what causes poor indoor air quality most often.

Dust

Dust builds up in buildings with insufficient ventilation, cheap air conditioning, and periodic cleaning. Tiny dust particles accumulate from shoes, fabric and textiles, leaky doors, and windows.

Even your HVAC systems can be one of the sources of poor indoor air quality. Leaky air ducts, holes between the ductwork, and dirty filters allow dust to pass and accumulate in your rooms.

Cigarette and Cigar Smoke

Cigarette tobacco smoke contains many toxic chemicals, such as formaldehyde, tar, and carbon monoxide. Cigars have most of the same harmful compounds, although they are present at different levels. The worst part — even after the smoke is gone, some particles will linger on skin, fabric, and clothing.

Mold

Moisture and mildew are created when the temperature indoors and outdoors is too different. For example, it happens when the weather outside is low while the room temperature is warm. This problem is common in all types of buildings.

The commercial settings usually suffer from poor equipment that leaks water, which results in moisture buildup.

Pollutants

High levels of chemicals and carbon dioxide (CO2) can lead to potential health problems. For instance, CO2 in the atmosphere affects your sleep, productivity and leads to infectious disease.

However, carbon dioxide affects indoor air quality as well. Many pieces of office equipment and building materials emit chemical pollutants, and it’s only made worse with cheap HVAC equipment.

Effects of Poor Indoor Air Quality

Bad air quality in buildings has been linked to respiratory problems, irritations, and even long-term effects such as increased cancer risk.

Let’s talk about the health effects of poor indoor air quality in different building environments.

Indoor Air Quality in Schools

Most indoor air problems in school are subtle and don’t lead to easily recognizable health effects. But you need to account that children spend over six hours per day on average. Prolonged exposure to poor air quality can cause children and school staff to suffer from:

• Allergies
• Aggravating asthma
• Headaches
• Eye irritation

Many of these symptoms are caused by stress, noise, and even poor lighting. However, you can avert them by installing indoor air quality tools for schools, primarily proper ventilation tools.

Office Building Indoor Air Quality

IAQ should be a significant concern for companies and their employees. Average US residents spend 90% of their work in office buildings. Therefore, pollutants in office environments can impact the worker’s well-being and increase the risk of illness.

Most buildings don’t have severe problems with air quality. However, even well-managed offices often suffer from poor IAQ and cheap HVAC systems.

According to the EPA’s 1989 Report, better indoor quality leads to higher productivity and improved decision-making. That’s why in addition to the effects of indoor air quality on human health, IAQ also affects businesses.

Indoor Air Quality in Hospitals and Other Healthcare Facilities

Healthcare facilities are complex systems with many users participating in technological, medical, and other daily activities. According to a report on IQA in hospitals, polluted indoor air causes and worsens about half of all illnesses.

Therefore, good air quality in medical facilities is a necessity rather than convenience. Cheap or improperly placed ventilation often leads to mold or funding, which causes allergic responses in patients, hospital staff, and visitors. On the other hand, proper control and management of hospital indoor air quality lead to more rapid improvements of patient’s condition.

How to Test Indoor Air Quality

Improvement of your IAQ starts with indoor air quality testing. How do you identify the level of airborne pollution the best?

It’s easy. You need good indoor air quality testing equipment. We recommend getting a good IAQ sensor that offers measurements like:

• Humidity. The level of humidity shows your office’s environment for mold and fungi growth.
• Volatile Organic Compounds (VOC). Chemical gasses that emit from solids and liquids and lead to adverse health effects.
• Carbon monoxide, carbon dioxide & radon. Colorless and odorless gases affect well-being and cognitive function.
• Particulate matter (PM 2.5). This measurement indicates how much dust and allergens are in your air.
• Air Quality Index (AQI). The measurement used by EPA to determine the effect of air on your health (the higher the AQI value, the greater the risk for health).

Make sure that your indoor air quality sensor offers these measurements. But you can always get IAQ equipment that provides additional data.

How to Improve Indoor Air Quality?

Improving the air quality in commercial environments is challenging. Schools, larger offices, and healthcare facilities are much more complex than private homes. Therefore, you might need to try several methods and monitor results until you get the desired result.

Now, let’s see some of the most popular indoor air quality improvement solutions.

Sufficient Ventilation

Ventilation and indoor air quality are closely linked. Tightly packed and energy-efficient commercial buildings need proper ventilation to keep the air flowing. Otherwise, airborne contaminant would have nowhere to go.

The indoor air quality can be improved with good ventilation. Just keep your HVAC systems working, and be sure to unblock air vents pathways. You should also allow new air to enter the building, so leaving windows open from time to time is necessary.

Source Control

Source control is often the most cost-effective IAQ improvement solution. For example, it usually works better than air dilution, filtration, and air cleaning.

Here’s how you can source control the indoor air quality:

• Determine the priority pollutants
• Dilute the contaminants (move the most pollution producing equipment to ventilated areas)
• Contain the pollutants (apply coverings)
• Reduce the VOC level by installing specialized equipment and carpets

In the US, source control strategies are developed and enforced by the state and national governments.

Air Cleaning

We recommend getting commercial-grade equipment to keep the air quality at an acceptable level. This equipment includes:

• Air Scrubbers
• Humidifiers
• Dehumidifiers
• Air Cleaners
• Air Purifiers

These devices have different purposes. For instance, air cleaners trap specs of dust and allergens in the air. Air purifiers, on the other hand, remove viruses, bacteria, and chemicals.

Maintaining Temperature & Humidity

Keeping optimal levels of temperature and humidity is one of the most important elements of indoor air quality. It prevents mold, fungi and makes the environment more comfortable.

You can maintain the temperature in the building with HVAC equipment. The hygrometer and dehumidifiers can help you keep the indoor air quality humidity at bay.

Cleaning HVAC Systems

You should keep your HVAC equipment maintained and regularly cleaned. Just like the ventilation, good indoor air quality and HVAC systems are interlinked.

Do you want to keep the air in your facility clean? Make sure to change the filters regularly to prevent dust from circulating.

And don’t forget about the air ducts! You need to ensure they are sealed entirely and conduct regular duct cleaning to improve the indoor air quality.

Conclusion

Keeping the air fresh and clean is difficult in commercial environments. If you want to improve the indoor air quality — you need to buy high-quality equipment. It includes HVAC systems, air cleaners, purifiers, and, of course, IAQ sensors.

Blackhawk Supply offers a vast selection of indoor air quality testing equipment for offices, schools, healthcare facilities, and residential buildings. Check it out!