Fire Protection Engineering West Englewood Chicago2018-11-01T20:22:30+00:00

Fire Sprinkler Design Engineer in West Englewood Chicago

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When you’re searching for a dependable Commercial & Residential Fire Sprinkler Systems Design in or near West Englewood Chicago Illinois? Your best bet is to contact is NY-Engineers.Com. Not only for Fire Sprinkler Systems Design Services but also Electrical Engineering and HVAC Engineering in Chicago. Contact us at (+1) (312) 767.6877

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Nowadays when you approach any contracting company or building owner anywhere from Boystown to Smith Park Chicago, about a reliable Electrical Engineering in Chicago, the most popular answer is call NY-Engineers.Com. What’s very well known is that New York Engineers is probably your best option for anyone looking for a fire sprinkler design engineer in West Englewood Chicago. At NY-Engineers.Com our team has many years of experience designing fire protection and sprinkler systems from Poughkeepsie to East Northport, NY. Today, from our Chicago office we are helping contracting company and builders in West Englewood Chicago design the fire protection and sprinkler systems they need.

The danger of a building burnt down as a consequence of fire is a sight that no one wants to have. That is the reason why fire protection engineers are hired before a building or apartment is built. When you are wondering who needs fire protection engineer, then your first name that you ought to know may be the architect of the building. Just like an architect is essential to ensure that the appearance of the property is perfect and protected from all ends; a fire protection engineer helps to ensure that the building remains safe and secure from possible likelihood of fire.

Getting direct reaction from your firefighting professionals is alright but won’t it be fantastic if a fire never took place? You must imagine “what if” rather than experiencing the horrendous experience of your building catching on fire. Fire protection engineers check out the model of the building first then ma the escape paths to be taken during a fire. Additionally, they are responsible for installing several fire protection things inside and outside the structure. Water hoses and pipes connected to the main water supply, and checking the condition of the fire extinguishers are the duties that the fire protection engineer carries out if they are hired.

Difference Between West Englewood Chicago Fire Protection Engineers vs Tech

The Society of Fire Protection Engineers carries a explicit definition of Fire Protection Engineers vs Tech. The two positions require a solid education in fire technology and skill as being a firefighter in most cases.

The engineers use principles to use systems and methods setups in different structures that can help protect people and things from harm during fires. Engineers examine the location where the biggest fire risks lie and where to install protection such as sprinklers. They make certain that the utilization of buildings and any materials in them are created to keep risks to a minimum.

Engineers may also oversee the connection and maintenance of alarm systems, smoke detectors, and may do investigations of fires after it happens. This can help them avoid such things from happening down the road.

This kind of status calls for scientific principles to help you boost the safety of men and women in commercial and residential buildings. A fire technician functions is to do the testing and repair of the systems which have been arranged and organized with the engineers.

These individuals also needs to get the highest education and firefighting skill to operate in the field. They may also work to help you install fire alarms and sprinkler systems but they will not plan the layout of the systems like the engineers do. There’s only so much you can save this page if you would like more details about fire protection engineer services in West Englewood Chicago by NY Engineers you should visit at our Chicago Utility Filings blog.

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Operating Modes of VRF Systems in HVAC Engineering

Mechanical Engineering Information

Variable Refrigerant Flow (VRF) is an HVAC engineering (air conditioning) technology that achieves an extremely high efficiency by varying the flow of refrigerant to indoor units, based on the exact demand of each individual area. This ability to control the flow of refrigerant makes VRF systems ideal for applications with varying loads. In addition, VRF systems can also provide space heating, consolidating two building systems in one and saving space.

VRF technology is available in two versions – heat pump systems and heat recovery systems. Heat pump VRF systems can either cool or heat the entire building but cannot perform both functions at the same time. Heat recovery systems do not have this limitation and can serve simultaneous heating and cooling loads, thus leading to 3 different modes of operation:

  • Cooling mode
  • Heating mode
  • Simultaneous cooling & heating, or heat recovery mode

VRF Systems in Cooling Mode

In cooling mode, VRF operation is not very different from that of an air conditioning system: indoor units are supplied with liquid refrigerant, and an expansion valve inside each unit controls the amount of refrigerant flowing through. When refrigerant enters the cooling coil, it undergoes evaporation, removing heat from indoor air and thereby cooling the room. The heat extracted from indoor spaces is then rejected outdoors.

VRF systems are much more efficient than conventional packaged rooftop units (RTU), packaged terminal air conditioners (PTAC) and window units, according to HVAC engineering experts. Ductless mini-split systems and water-cooled chillers offer a similar efficiency in cooling mode but are unable to operate in heating mode.

VRF Systems in Heating Mode

Unlike cooling mode, where indoor units receive liquid refrigerant, here they are supplied with hot gas refrigerant. Gas flow to individual units is controlled with the same electronic expansion valves used for cooling mode, and the heating effect occurs when hot gas undergoes condensation.

The basic principle is still the refrigeration cycle, with the difference that heat is absorbed from outdoors and rejected indoors; in simple terms it is like air-conditioning the cooler outdoor environment to remove heat from it and use it indoors. This operating mode change is made possible with special 4-way reversing valves, which exchange the roles of evaporator and condenser between indoor and outdoor units.

In heating mode, the electric power consumed becomes useful heat, while in cooling mode it is rejected outdoors. Thus, a VRF outdoor unit can operate above 100% of its rated capacity when in heating mode. However, it is also important to note that the capacity may be derated, especially when the system is subject to a large variation in outdoor conditions. Longer piping lengths, longer distances between the outdoor unit and the last indoor unit, and higher vertical separation are some other causes of derating.

VRF Systems in Heat Recovery Mode

A heat recovery system is ideal when simultaneous heating and cooling are required. The greatest efficiency is achieved when the heating and cooling loads are equal, by maximizing the amount of energy transferred from one zone to another using the refrigerant. Heat rejection from cooling spaces can be utilized for space heating in the areas that need it at the same time. Thanks to this configuration, each occupant is free to choose either cooling or heating mode.

Heat recovery systems are very useful when a building has an east-west or south-north orientation with glass façades. East-west and south-north orientations cause a large difference in load requirements for each direction during the morning and evening, providing a chance for the VRF system to operate in simultaneous heating and cooling mode. Heat recovery is particularly useful in buildings with electrical rooms or data centers that need permanent cooling, since they also become a constant source of heat.

Heat Recovery System Piping Configurations in HVAC Engineering

Heat recovery systems come in 2-pipe and 3-pipe configurations, where the 2-pipe system is the option requiring the highest refrigerant flow. To operate with reduced flow, the 3-pipe system has a liquid line, a high-pressure gas line and a low-pressure gas line. The control function is achieved with a Mode Change Unit (MCU) or Mode Selection Box, which has three headers for high-pressure gas, low-pressure gas, and liquid.

  • When there are zones that need space heating, their indoor units work like condensers, supplying heat from the condensation of high-pressure refrigerant gas. After heating, the saturated refrigerant is fed to the liquid header.
  • Liquid refrigerant is then supplied to the units in space cooling mode, where it evaporates and absorbs heat, becoming a low-pressure gas.
  • The low-pressure gas is returned to its respective header and then to the compressor, repeating the cycle.

In this case, the outdoor unit must only provide the balance between heating and cooling – the one that is higher will determine the operating mode of the outdoor unit.

  • If cooling load is higher, the outdoor unit operates as a condenser, rejecting the surplus heat outdoors.
  • If the heating load is higher, the outdoor units operates as an evaporator, drawing from outdoor air the extra heat needed inside.

The best recommendation is locate the MCU in a public access area such as a corridor, thus minimizing noise and disruption for the end user. Maintenance of heat recovery systems is relatively easy, since the outdoor condenser unit is only connected to the MCU, facilitating system separation into upstream and downstream portions.

As per ASHRAE Standard 34-2013, the refrigerant concentration limit (RCL) is 26 lb per 1,000 ft3 of room volume for occupied spaces, and 13 lb per 1,000 ft3 for institutional buildings. This can be easily achieved by locating the units outside of compact rooms. According to Standard 15, a VRF system is classified as a direct system/high-probability system where a refrigerant leak can potentially enter occupied space.

The use of heat recovery systems in VRF proves to be better option, economically and environmentally, in these types of HVAC engineering systems. This spares the building owners from having to install and service two separate systems, while achieving a very high efficiency. With separate systems for space heating and cooling it is impossible to boost efficiency by exchanging heat, even if both systems are very efficient separately.

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