MEP Service in Sheridan Park Chicago, IL.

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Searching for MEP Firms in Chicago? Your best bet is to reach out to is NY-Engineers.Com. Not only for MEP Chicago but also HVAC Engineering and Sprinkler Design Engineering throughout Sheridan Park Chicago. Call us at (+1) 312 767-6877

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Real estate investors throughout New City, New York have come to depend on NY-Engineers.Com for a wide range of engineering services ranging from Sprinkler Engineering to Value Engineering. For this reason building owners in Sheridan Park Chicago will tell you that if you’re seeking a dependable MEP Engineering firm in Sheridan Park Chicago, IL you need to consider NY Engineers.

Chances are, you may have walked into any specific type of building and seen the final results of MEP Engineering. To put it simply, MEP concentrates around the mechanical, electrical and plumbing facets of engineering. In simple terms, the name already gives a clue to the most prevalent and correct notion of what exactly is MEP. Our article may go into some infor of what is MEP Engineering.

So far as the mechanical side is concerned, for both commercial and residential engineering, this handles anything that moves. In addition its entails the usage of complex and straightforward machines and also other mechanical mechanisms to perform certain tasks. Some everyday mechanical engineering tasks which is often noticed on a day to day bacis are HVAC units, kitchen or bath exhausts, cooling and heating air systems and equipment and systems that deal with boosting the energy efficiency.

The electrical facet of construction is centered on the functions, components, electrical safety, and even more importantly, the wiring for any building. Engineers within this section try very hard to ensure that the layout of a building are meant to bring sufficient electricity to every component in a safe manner where all of the electrical codes are followed. Some common electrical engineering jobs can be found in the lighting design, modifying the voltage and allocating the power to every component inside the structure which takes a supply.

With regards to plumbing, there exists a wide array of plumbing components which constitute the final style of any building. Plumbing engineering goes deeper than only faucets, toilets, and sinks, and contains many behind the scene appliances. These being the sewage and drainage lines along with the buildings local water supply and just how it flows.

As we conclude this article we have just considered what is MEP Engineering. MEP Engineering is administered within the construction industry. And, assists in completing the easily overlooked technical areas of any building.

Hiring an MEP Engineering Firm in Sheridan Park Chicago is Essential for Major Construction Projects

Employing an MEP engineering firm in Cottage Grove Heights Chicago, Illinois, may have everything to do with the success of your construction project. These pros may help offset the cost of making this type of hiring decision when it comes to energy conservation alone. When you find yourself speaking about big commercial buildings, energy conservation is an important topic of discussion. It’s time to learn another great reasons behind using MEP company in Illinois Medical District Chicago, IL.

Engineers play an important role in the physical integrity of the building. As you may well imagine, that means the unseen is extreamly essential. Design not only deals in aesthetics but the underpinning of a building also its workings. That is yet another solid logic why hiring an MEP engineering company will be useful to any project.

Take into consideration each of the pipes and plumbing. Think about the air conditioning systems and how important it is to get all its mechanics in the correct places. Energy maintenance was mentioned, but energy efficiency is yet another significant term to speak of. Energy efficiency has everything to do with your HVAC system, plus it plays a huge part in energy saving overall.

Think of your building’s foundation. Consider the installation of fire alarm systems along with the security and safety measures put in place through the entire structure. With everything else discussed to date, it’s reliable advice that many elements of building construction can be either overlooked or underestimated short of MEP pros at the job.

Now with all you have read you will look to get the best MEP engineering company in the market, right? It is very clear the best engineers really need to be in the large scale building of commercial structures. Tailor made will be the best term to use to explain the way these pros will adapt a construction project to meet the requirements of your operations. Even with all of this information you would like additional info on the MEP Engineering services in Sheridan Park Chicago, Illinois by NY-Engineers.Com you should stop by at our blog.

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An MEP Engineers’ Guide to Air Dampers

Mechanical Engineering Requirements

An air damper is a device that uses valves or plates to stop or regulate the flow of air within a duct, chimney, variable-air-volume (VAV) box, air-handling unit or other similar pieces of equipment. Dampers are also used to stop airflow into unoccupied or unused rooms where air conditioning is not required. In addition, MEP engineers install dampers as protection measures against smoke or fire.

An air damper is a complex mechanism with many moving elements. Their main components are the blades, which adjust their position to control airflow. In addition, dampers include frames, linkages, axles, bearings, seals, blade pins, actuating motors, flanging, jackshafts, and sleeves, among other components.

Types of Air Dampers

Based on their construction, air dampers can be classified into parallel blade and opposed blade dampers. Each configuration has unique performance features and is intended for different applications.

1) Parallel Blade Dampers

In this type of air damper, blades rotate in the same direction, parallel to one another. The parallel blade configuration is typically used when the damper operates in two positions: open or closed.

These dampers redirect air flow along their first few degrees of rotation, as they move from fully open to closed, and therefore control is achieved along the first 20-30% of movement.  Rather than modulating air streams, these dampers change their direction, and that is the main reason why they are preferred for open-close operation or fixed flow control.

Parallel blade dampers are typically used by MEP engineers in applications where the damper represents a major portion of the overall system pressure loss. They should not be used upstream of critical components due to their uneven airflow.

2) Opposed Blade Dampers

In this type of air damper, blades rotate in opposite directions to one another, modulating airflow. These air dampers are mostly used when the system requires airflow control rather than open-close operation, but they can also be used for on-off service.

Opposed blade dampers are typically used in the following applications:

  1. When the damper doesn’t represent a major portion of the overall system pressure loss.
  2. Systems that are required to maintain an even airflow downstream from the damper.
  3. Ducted terminals.

Classification of Dampers by Control Method and Application

Air dampers can also be classified based on the control method they deploy and their intended application. Based on their control method, dampers can be either automatic or manual:

  • Automatic dampers are similar to automatic control valves in terms of functioning.
  • Manual dampers are adjusted manually depending on the required airflow, as implied by their name.

Dampers can also be classified based on their application, and the following are some of the main types:

  • Balancing dampers (volume dampers)
  • Face and bypass dampers
  • Fire dampers
  • Smoke dampers
  • Combined fire and smoke dampers
  • Gravity dampers (backdraft or barometric)
  • Mixing dampers
  • Multi-zone dampers
  • Round dampers
  • VAV boxes (variable-air-volume)

Note how dampers are not only used for air balancing in ventilation systems, but also for safety in fire protection applications.

Why Are MEP Engineers Concerned About Dampers?

Air dampers are an important element of MEP engineering design since their use is subject to code requirements. They should also be designed to minimize energy losses, through the prevention of heat exchange across them when in the closed position, all while maintaining the required pressure conditions in different spaces.

Air dampers are subject to the following codes and standards:

  1. National Fire Protection Association (NFPA) standards:
    1. NFPA 90A Standard for the Installation of Air-Conditioning and Ventilating Systems
    2. NFPA 92A Standard for Smoke-Control Systems Utilizing Barriers and Pressure Differences
    3. NFPA 101 Life Safety Code
  2. Underwriters Laboratories (UL) standards:
    1. UL 555 Standard for Fire Dampers
    2. UL 555S Standard for Smoke Dampers
    3. UL 555C Standard for Ceiling Dampers

The main locations where air dampers are required to meet code are the following: stair enclosures, elevator shafts, common corridors, mechanical rooms, fire-rated walls, exterior building walls, shaft enclosures, horizontal assemblies, and duct and transfer openings.

Air Dampers in Fire Protection Applications

The three main types of dampers used in fire protection applications are fire dampers, smoke dampers, and combined fire/smoke dampers. This section provides an overview of each type and its applications.

Fire Dampers

Fire dampers interrupt airflow through the duct automatically, restricting the passage of flames. To accomplish their function, these dampers are installed in ducts that cross fire-rated assemblies or fire-rated walls. They can be installed in both horizontal and vertical ductwork and can be of both curtain type and multi-blade type.

A fire damper has the following components:

  1. Sleeve
  2. Curtain blade
  3. Break-away joints
  4. Fusible link
  5. Access door to inspect the fire damper

All fire dampers are installed in the open position, with a fusible link. When the temperature in the ductwork exceeds a specified value, the fusible link melts and the damper gets shut off, either by gravity or by a spring. To guarantee they accomplish their function, fire dampers need to pass various tests.

Fire damper selection is based on three main factors: fire resistance rating, temperature, and operating range. Fire rating depends on the time span for which a damper will withstand the heat associated with a fire. For walls, partitions, and barriers with fire resistance rating of less than 3 hours, 1.5-hour fire dampers are used. For fire barriers rated for 3 hours or more, 3-hour fire dampers are used. This procedure ensures building code compliance, which requires that the fire resistance rating is maintained across the full area of walls, partitions, and floors.

The exceptions for the use of fire dampers are parking garages, kitchen exhaust ductwork, and dryer exhaust ductwork.

Smoke Dampers

Smoke dampers prevent smoke from spreading in HVAC systems that are designed to shut down automatically in case of fire, and they only have two positions: open and closed. These dampers are installed in a slotted duct section – they are installed whenever a duct penetrates a smoke partition or smoke barrier inside the building. They can be applied in passive smoke control systems, or as part of an engineered smoke control solution.

In passive systems, smoke dampers close and prevent the circulation of air and smoke through ducts or ventilation openings that cross a smoke barrier. On the other hand, in engineered smoke control systems, the spread of smoke is controlled by the building HVAC system or by dedicated fans that create pressure differences. Smoke dampers may be controlled by heat sensors, smoke sensors, fire alarms, or any other method that meets the design intent.

A smoke damper has the following components:

  1. Sleeve
  2. Smoke blades (parallel)
  3. Break-away joints
  4. Duct-mounted smoke detector
  5. Damper actuator
  6. Access door

It is important to decide which ratings are required for UL Listed fire dampers.

  • The SD-1320 and SD-1330 smoke dampers are UL/cUL leakage rated dampers, listed under the latest UL 555S standard.
  • SD-1620 smoke dampers meet UL Class II. Leakage is less than 20 cfm per square foot at 4 inch w.g. and at 350°F (177°C).
  • SD-1630 smoke dampers meet UL Class I. Leakage is less than 8 cfm per square foot at 4 inch w.g. and at 350°F (177°C).

Fire and Smoke Damper (Combined)

As implied by its name, this type of damper is a combination of a fire damper and a smoke damper, and it is installed in ducts that cross partitions rated as both fire and smoke barriers. This type of damper must be qualified under both UL555 and UL555S.

Selection of a combined fire and smoke damper depends upon 4 factors: fire resistance rating, leakage rating, temperature and operational ratings.

Combined fire and smoke damper applications include walls, floors, partitions required by the local building code.

For walls, partitions, and barriers with fire resistance rating of less than 3 hours, 1.5-hour fire/smoke dampers are used. For fire barriers rated for 3 hours or more, 3-hour fire/smoke dampers are used. Designers are usually suggested to pick a very low leakage category.

Conclusion

Air dampers have a wide range of applications, ranging from airflow modulation in normal operating conditions to providing a reliable barrier against smoke or fire during emergencies. However, code compliance is an important aspect to consider regardless of the application, so working with qualified MEP engineers is highly recommended.

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MEP Company Sheridan Park Chicago! When you're looking for a fast responding MEP Chicago in Firm? Your best bet is to contact is NY Engineers. Not only for MEP Engineering in Chicago but also Electrical Engineering and Sprinkler System Engineering throughout Sheridan Park Chicago. Call us at (+1) 312 767-6877 Many construction companies throughout Valley Stream, NY have come to depend on New York Engineers for a wide range of engineering [...]

2018-09-17T07:30:17+00:00