HVAC Engineering K-Town Chicago, IL2018-10-16T19:08:00+00:00

What Can Our HVAC Engineers in K-Town Chicago Do For You?

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If you re searching for a competent HVAC Chicago? Your best bet is to contact is NY Engineers. Not only for HVAC Firms in Chicago but also Value Engineering and Sprinkler System Engineering in K-Town Chicago. Call us at (312) 767-6877

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For over 10 years the majority of real estate investors throughout Lindenhurst, NY already know that NY-Engineers.Com is the engineering firm to contact when you’re searching for MEP Engineering in NYC. What many local construction companies have not realized is the NY Engineers is also your best choice if you’re searching for HVAC Engineering services in K-Town Chicago, Illinois. Those who want to learn more about what K-Town Chicago HVAC design engineers do? This really is an exceptional profession with an an extensive listing of responsibilities. An HVAC design engineer will be asked to work through numerous problems to solve the actual issue. This career requires special talent, professionalism, and the ability to control time prudently.

Once an HVAC engineer is certified to work, they may get employed by an engineering firm and begin to operate various heating, cooling, and refrigeration systems. Their task is to design new and additional options based upon their customer’s requirements. Each customer will have a distinctive set of wishes whether it has to do with constructing codes or individual performance anticipations. Making use of this material, the engineer sets off on a ride towards building something that is energy-efficient, eco-friendly and ideal for the location it is going to be utilized in – (residential/industrial/commercial). They usually are liable for the first creations and managing the exact installation.

On the whole, an HVAC engineer in K-Town Chicago will be seen working at a design company or in a consulting team based on their numerous years of skill. Many engineers move right into a consulting job because they become older and obtain a better understanding of what’s required of them.

Comparing HVAC Technician vs HVAC Engineer

HVAC Engineer and HVAC Technician are frequently mistaken for one another. Nevertheless, they have got different job functions with regards to handling HVAC systems. It is essential to be aware of the difference both as being a customer also as an expert

An HVAC technician in K-Town Chicago has a more practical job, which suggests they are generally seen going to a client’s property to see their current system. They often times handle the installations, repairs, and general keep that is required every once in awhile. Nearly all of their jobs are done alongside the customer, which means they should realize how to interact with people in the right way.

With the HVAC engineer, they are responsible for creating a brand new HVAC system and ensuring it fits just what a client wants. It must fit exactly what the home owner wants whether it involves their setup, property, or everything related to new system. They are also introduced to talk on HVAC designs to make certain all things are in accordance with the latest standards. This is why they may wind up spending time in consulting assignments or at neighborhood engineering firms. This is the difference between those two occupation; HVAC Engineer Versus HVAC Technician. There is a great possibility you would like more information on the HVAC Engineering services in K-Town Chicago, IL by NY-Engineers.Com you should take a look at our blog.

Latest K-Town Chicago HVAC Engineering Related Blog Article

MEP Engineering in Upgrading Space Cooling Systems for Multifamily Buildings

Electrical Engineering Degree

Most space cooling systems are powered by electricity, but some of the larger buildings also use absorption chillers powered by natural gas or district steam. Only space heating, plug loads and lighting consume more energy than space cooling in NYC.

There is a significant opportunity for MEP engineering to improve cooling efficiency in the multifamily residential sector, where almost half of all buildings use inefficient air conditioning systems:

  • Window-type air conditioners
  • Through-the-wall air conditioners
  • Packaged terminal air conditioners (PTAC)

These three types of space cooling systems have the same disadvantage: they require openings in the building envelope, which increase heat gain during the summer and heat loss during the winter. As a result, these AC units are not only inefficient themselves, but they also increase the load on space heating systems.

Space cooling systems in office buildings are generally more efficient, since the most common technologies used are direct expansion (DX) units and electric chillers, both of which are much more efficient MEP engineering solutions than window-type, through-the-wall and PTAC units.

Upgrading Space Cooling Systems in Individual Dwellings

Deploying centralized space cooling systems in existing multifamily buildings can prove challenging, since the upgrade can be highly disruptive for tenants and the allocation of space cooling expenses also becomes more complex. The cost of running a central AC system cannot be split equally because usage varies by tenant, and space cooling electricity cannot be metered individually if the system distributes chilled water or cool air.

However, there are also individual space cooling systems that offer a much better efficiency than window-type, through-the-wall and PTAC units.  Two of the most promising options are mini-split air conditioners and heat pumps.

A mini-split air conditioner gets its name from how the system is configured. An internal evaporator unit cools indoor air and circulates it with a built-in fan, while an external condenser unit rejects heat. The two components are just connected with insulated refrigerant lines, which eliminate the large opening required in older system configurations.

Mini-split heat pumps are also available, offering reversible operation to deliver space cooling in the summer and space heating in the winter. A heat pump consolidates two pieces of equipment as one unit, making it an attractive upgrade for dwellings that use inefficient space heating systems such as electric resistance heaters.

The cooling efficiency of split-type air conditioners and heat pumps is normally indicated by the Seasonal Energy Efficiency Ratio (SEER), a ratio of cooling output in British Thermal Units to electricity input in watt-hours. The SEER can be compared with the MPG value of a car (miles per gallon), where a higher value translates into a lower operating cost.

There is also an efficiency metric called the Energy Efficiency Ratio (EER), which has the same units. The difference is that the SEER considers the entire cooling season, while the EER is for test conditions defined by the Air-Conditioning, Heating and Refrigeration Institute (AHRI). In the case of heat pumps there is also a Heating Seasonal Performance Factor (HSPF), which is the ratio of heating output in British Thermal Units to electricity input in watt-hours.

Mini-split systems have  a remarkable efficiency advantage when compared with conventional electric heating and cooling options. Assume a window-type air conditioner and a resistance heater are replaced with a heat pump, having a SEER of 18 and HSPF of 9. In this case, space cooling savings of 50% or more can be expected, while heating savings exceed 60%.

Rebates for Air Conditioning Upgrades

In addition to delivering superior cooling efficiency, mini-split systems may be eligible for cash rebates from your utility company. Rebates improve the financial performance of air-conditioning upgrades. Since the upfront cost of the upgrade is reduced, the return on each dollar spent is increased.

MEP Engineering Recommendations Before Upgrading Space Cooling Systems

When an AC unit that crosses a wall or window is replaced with a mini-split unit that does not, the cooling load is reduced because a large gap in the building envelope is closed. The upgrade is also a good chance to check if there are no other leaks, especially around windows and doors. This increases the energy savings from a space cooling upgrade, since the new unit is not only more efficient, but is also subject to a reduced load.

In dwellings that use incandescent lighting, it is also possible to reduce the cooling load by upgrading to LED lamps. Consider that a 60-watt incandescent bulb can normally be replaced with a 10-watt LED bulb. If 10 of them are replaced, there are 500 watts less of heat to handle, equivalent to slightly above 1,700 BTU per hour.

Window-type, through-the-wall and PTAC units only have one advantage in terms of performance: they provide a constant supply of fresh outdoor air.

Mini-split units are unable to provide ventilation due to their system configuration, so it is important to verify that the existing ventilation system is sufficient after removing the previous AC unit. Ventilation systems are normally designed to be self-sufficient, but getting a professional opinion is recommended nevertheless; poor ventilation leads to various health issues.


Window-type, through-the wall and PTAC space cooling systems are among the least efficient, but still the most commonly used in multi-family buildings. Mini-split systems can reduce cooling expenses by 50% or more, while Con Edison incentives make them more affordable. However, like with any upgrade to building systems, an assessment from an engineering professional is recommended to achieve the best results. Even a high-efficiency space cooling system will perform poorly if it does not match the intended application. Ensuring that the new equipment is eligible for rebates is also important, so MEP engineering professionals should make this a priority.

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