HVAC Engineering Ravenswood Manor Chicago, IL 2018-10-17T13:04:14+00:00

What Can Our HVAC Engineers in Ravenswood Manor Chicago Do For You?

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Since 2011 the majority of developers throughout Syracuse, New York already know that NY-Engineers.Com is the engineering firm to contact if you’re ooking for MEP Engineering in NYC. What a lot local building owners have not realized is the NY Engineers is also your best choice if you are looking for HVAC Engineering services in Ravenswood Manor Chicago, IL. If you need additional details on what Ravenswood Manor Chicago HVAC design engineers do? It is an exclusive career which has an extensive set of responsibilities. An HVAC design contractor will have to work through a number of problems to work out the original issue. This career needs distinct talent, professionalism, and the ability to handle time prudently.

The moment an HVAC personel is certified to function, they are going to get employed by an engineering business and begin to functions on several heating, cooling, and refrigeration systems. Their role is to draw up new and/or replacement choices in line with their customer’s requests. Every client will have an original set of needs whether it involves building codes or individual performance prospects. Using all of this info, the engineer sets off on a ride towards building something that’s eco-friendly, energy-efficient and ideal for the setting it’s going to be utilized in – (residential/commercial/industrial). They usually are liable for the original drafts and managing the particular installation.

Generally speaking, an HVAC engineer in Ravenswood Manor Chicago is going to be seen working at a design company or perhaps in a consulting team according to their many years of skill. Most engineers transition in to a consulting job as they become older and gain a better idea of what’s required of them.

Comparison: HVAC Technician Versus HVAC Engineer

HVAC Technician and HVAC Engineer are usually mistaken for one another. However, they have got separate tasks in relation to managing HVAC systems. It is vital that you understand the contrast both as being a parton as well as a professional

An HVAC technician in Ravenswood Manor Chicago has a more direct job, which means they are generally seen heading to a customer’s building to look at their present system. They often take care of the installations, repairs, and over-all upkeep that is required from time to time. Most of their effort is done alongside the buyer, which suggests they need to discover how to connect with people in the correct manner.

With the HVAC engineer, they are accountable for creating a fresh HVAC system and making sure it meets what a customer wants. It has to fit exactly what the home owner wants whether it has to do with their setup, property, or anything else associated with new system. They are also introduced to refer to HVAC creations to make certain all things are in accordance with the highest standards. For this reason they can find themselves passing time in consulting assignments or at local engineering companies. That is the difference between these vocation choices; HVAC Engineer Versus HVAC Technician. There is only so much you can save this page if you would like additional details on the HVAC Engineering services in Ravenswood Manor Chicago, Illinois by New York Engineers we invite you to check out at our blog.

New Ravenswood Manor Chicago HVAC Engineering Related Article

How Mechanical Engineers Compare Operating Expenses of Different Water Heater Models

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One of the key characteristics to consider when deciding between several water heater options is the operating cost; the heater with the lowest price tag is not necessarily the least expensive to own in the long term. Operating cost is determined in great part by equipment efficiency, but there are other equally important factors that mechanical engineers want you to consider:

  • Energy sources have different unit prices. In the case of heating systems, the input is generally electricity, natural gas, propane or fuel oil. There are also zero-cost energy sources, such as geothermal energy and sunlight.
  • Operating schedules may vary depending on the type of heater. Rated power is not the only factor that determines total energy consumption; the operating schedule must also be considered. For example, tankless water heaters have a high rated power but operate in short bursts, saving energy compared to a storage heater that draws less power but operates continuously, assuming the energy source is the same.

This article will provide a guide for calculating and comparing operating expenses with different types of heaters. After these values are calculated, they can be weighed against the upfront cost of each heating system to find the most cost-effective option.

As with any investment in equipment, considering the total ownership cost is very important when purchasing a heater: to calculate the real heating cost per BTU or kWh produced, it is necessary to factor in the initial investment and any maintenance or reparation expenses. For instance, saying that solar heating is free would not be completely true; although the energy input is free, there are equipment and installation costs, and in multistory buildings a small pump may be required for water to reach the rooftop.

Energy Factor: How Mechanical Engineers Calculate Heating Expenses

The energy factor (EF) is the ratio of heating output to energy input offered by a heating system. It considers how effectively the heater converts its energy input into an increase in water temperature, but also accounts for other aspects of heater operation:

  • Standby losses – These losses are found in storage heaters, and they represent the heat loss associated with keeping the water in the tank at the desired temperature. Although proper insulation mitigates standby losses, they are impossible to eliminate completely.
  • Cycling losses – These losses occur as water circulates through the heater’s internal piping, and through the storage tank if present.

Heaters running on fossil fuels have energy factors well below unity, electric tankless heaters operate close an EF of 1, and heat pumps have EF values higher than unity because their inverse refrigeration cycle allows them to draw heat from the surrounding environment.

Comparing Water Heaters: An Example

Assume you are presented with four water heaters for a household that consumes 80 million BTU per year, and want to calculate the operating costs associated with each alternative:

  • A gas-fired storage heater with an EF of 0.55
  • A tankless electric heater with an EF of 0.97
  • A tankless gas heater with an EF of 0.80
  • An electric air-source heat pump with an EF of 2.5

Since the example is for one city, assume the cost of natural gas is $1.20 per 100,000 BTU, and the electricity rate is $0.18 per kilowatt-hour.

  • For the gas heaters, the calculation procedure can be carried out directly because the heating output and energy input are both in BTU.
  • The tankless electric heater and heat pump run with electricity, so the heating output must be converted to kWh before proceeding.
  • Heating Output (kWh)=80,000,000 BTU x 1kWh/3412.14 BTU= 23,446 kWh

Other than this, the calculation procedure is the same for all four heaters. The yearly heating output is divided by the energy factor (EF) to calculate yearly energy consumption, and this value is then multiplied by the unit price of energy, per kWh or BTU. This formula is applied by mechanical engineers to all four water heaters, to determine which is the least expensive to operate.

Gas-fired storage heater operating cost:
Operating Cost (USD/yr)=80,000,000 BTU/.55×1.20 USD/100,000 BTU=1745 USD

Tankless electric heater operating cost:
Operating Cost (USD/yr)=23,446 kWh/.97X.18 USD/kWh=4351 USD

Tankless gas heater operating cost:
Operating Cost (USD/yr)=80,000,000 BTU/.8 X 1.20 USD/100,000 BTU=1200 USD

Electric air-source heat pump operating cost:
Operating Cost (USD/yr)=23,446 kWh/2.5 X .18 USD/kWh=1688 USD

Operating Cost Comparison

In this case, the tankless gas heater has the lowest operating cost. The heat pump and gas-fired storage heater follow, although the heat pump wins by a slight margin. The tankless electric heater is the most expensive to operate by far.

Total Cost of Owning and Operating Heaters

For a full evaluation, the upfront cost and service life must be considered as well. For this example, assume the following cost and rated life values:

HeaterInstalled CostService life
Heat Pump$180015
Tankless electric heater$150020
Tankless gas heater$200020
Gas-fired storage heater$120010

For simplicity, the analysis will be limited to upfront and operation costs. The yearly ownership cost of each heater option would be:

  • Heat Pump Cost = $1688/year + ($1800/15 years) = $1808/year
  • Tankless Electric Heater = $4351/year + ($1500/20 years) = $4426/year
  • Tankless Gas Heater = $1200/year + ($2000/20 years) = $1300/year
  • Gas-Fired Storage Heater = $1745/year + ($1200/10 years) = $1865/year

The tankless gas heater is still the winner in this case, despite its higher upfront cost. The heat pump and gas-fired storage heater have a similar cost of ownership, and the tankless electric heater is very expensive to operate due to the high electricity rates of some cities. However, keep in mind this is just an example, and different results may be obtained for different locations.

Concluding Remarks

To determine which type of heater is the best match for your property, getting a professional assessment from one or more mechanical engineers is highly recommended. For example, if you don’t have a chimney, the installation cost of any gas heater will increase significantly. Remember that electricity and gas prices also vary by location, and what is true in one location may not always apply in another city or state.

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