HVAC Engineering West Humboldt Park Chicago, IL2018-10-08T09:19:44+00:00

What Can Our HVAC Engineers in West Humboldt Park Chicago Do For You?

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If you re searching for a dependable HVAC Firms in Chicago? The one to go to is NY-Engineers.Com. Not only for HVAC Chicago but also MEP Engineering and Protection Engineering throughout West Humboldt Park Chicago. Call us at 312 767.6877

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Over the last decade the majority of developers throughout Peekskill, New York already know that NY-Engineers.Com is the engineering firm to contact when you’re ooking for Electrical Engineering in New York City. What many local building owners have not realized is the NY-Engineers.Com is also your top choice if you are looking for HVAC Engineering services in West Humboldt Park Chicago, Illinois. Those who want more information on what West Humboldt Park Chicago HVAC design engineers do? This really is a unique task that come with an extensive list of duties. An HVAC design personel will have to get through a variety of challenges to resolve the underlying issue. This task calls for distinct skill, proficieny, and the cabability to control time cleverly.

Once an HVAC personel is licensed to operate, they may get employed by an engineering company and start to functions on many cooling, heating and refrigeration systems. Their function would be to create new and/or alternative choices based on their customer’s requirements. Every single client is going to have an exclusive set of needs whether or not it has to do with building codes or individual performance anticipations. Making use of this material, the engineer goes on a ride towards creating something which is eco-friendly, energy-efficient and ideal for the location it’s likely to be used in – (residential/industrial/commercial). They are usually accountable for the first drafts and managing the exact installation.

Generally speaking, an HVAC engineer in West Humboldt Park Chicago will be seen working with a design company or in a consulting team depending on their numerous years of expertise. Most engineers switch right into a consulting job because they grow older and acquire a better understanding of what is expected of them.

Comparing HVAC Engineer vs HVAC Technician

HVAC Engineer and HVAC Technician are usually confused with the other. Nevertheless, they have separate job functions with regards to dealing with HVAC systems. It is essential to are aware of the variance both as a parton as well as a professional

An HVAC technician in West Humboldt Park Chicago has a more practical job, which means they are usually seen on the way to a customer’s house to see their current system. They generally take care of the repairs, installations, and overall keep that’s needed from time to time. Almost all of their work is done together with the client, meaning they should discover how to connect with people in the right way.

With an HVAC engineer, they are accountable for designing a new HVAC system and ensuring that it fits just what a customer needs. It needs to fit what the home owner needs if it involves their setup, property, or everything linked to new system. Also, they are introduced to check on HVAC creations to make certain all things are in accordance with today’s standards. This is why they can end up hanging out in consulting tasks or at neighborhood engineering firms. This is the distinction between both of these occupation; HVAC Engineer Versus HVAC Technician. There’s a great possibility you would like additional info on the HVAC Engineering services in West Humboldt Park Chicago, Illinois by New York Engineers you should take a look at our West Humboldt Park Chicago Engineering Reports blog.

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An Electrical Engineering Expert Explains Energy Management Guidelines from the ENERGY STAR Program

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The ENERGY STAR program, managed by the US Environmental Protection Agency, has been very effective in helping homes and businesses reduce their energy use and environmental footprint. Implementing energy efficiency in a large organization represents a significant management challenge, so the US EPA has provided guidelines to simplify the process, broken down into seven steps. In this article, an electrical engineering professional explains the details of these seven steps.

  1. Commitment
  2. Assess performance
  3. Set goals
  4. Create an action plan
  5. Implement an action plan
  6. Evaluate progress
  7. Recognize achievements

Step 1: Commitment

In simple terms, commitment means taking energy efficiency seriously, as a business priority. Companies must be aware that energy efficiency is an investment, requiring a commitment of resources in exchange for an even greater long-term benefit. When companies are starting to implement an energy efficiency policy, it will generally require two key inputs: staff and funding.

The US EPA recommends appointing an energy director and depending on company size this can be a full-time position. The energy director should ideally be supported by an energy team, with members from all relevant organizational areas. The creation of an energy team and capital allocation complement the energy policy, which establishes objectives and responsibilities.

Step 2: Assess Performance

Before implementing measures to improve energy performance, it is important to determine where a company currently stands. This also provides a baseline to assess the effectiveness of energy efficiency initiatives in the future. In addition, knowledge of current energy performance allows benchmarking, both among facilities owned by the same organization and with respect to similar buildings owned by other parties.

When gathering data, it is important to determine what level of detail is appropriate, considering that more detail provides added insights, but is also more demanding in terms of man-hours and data processing needs. It is also important to consider all forms of energy usage:

  • Some companies make the mistake of only considering utility bills, while ignoring energy sources like renewable generation and heat recovery systems.
  • Other than the amount of energy consumed from each source, it is also important to have cost data.
  • You will also need complementary information to assess overall energy performance, including building data such as square footage and operating schedules.

Initial performance assessment can be complemented with an energy tracking system. It can be as simple as a spreadsheet that is filled manually, or as complex as a web platform with sensors and automated reporting. Just keep in mind that it should be designed to be easy to use an insightful; in other words, it must be a tool that adds value and not a hindrance.

Another key element of energy performance assessment, according to electrical engineering professionals, is to establish useful metrics, considering that some may be better suited for specific types of companies. For example, a manufacturing firm can measure kWh consumption per unit produced, while a financial institution can instead focus on annual kWh/ft2.

Energy performance assessment requires know-how, so not all companies may be able to do it with their internal staff alone, especially if they operate outside of technical fields. However, this can be compensated by simply hiring the services of external energy consultants. Even if a company has a large engineering department, working with specialized consultants can help develop in-house expertise if it’s the first time the department will deal with energy efficiency.

3) Set Goals

Once a company has a clear picture of where they stand in terms of energy efficiency, the next step is to determine where they want to be. Benchmarking can be very useful here: by analyzing top performers, companies seeking to improve their energy efficiency can set realistic goals. Without benchmarking, a company may inadvertently set targets that are unfeasible from the technical or financial standpoint.

Goals can be broken down by scale or by timeframe. For example, an energy efficiency improvement goal can target the overall organization, a specific building, or even a specific process or piece of equipment. The timeframe may also vary: some improvements can be carried out very quickly, while others require careful planning and gradual upgrades. For example, recommissioning typically yields energy savings up to 10% with minimal expenses and a quick payback; on the other hand, upgrades to base building systems can be capital and labor intensive, while having a longer payback.

Energy performance goals can take many forms, but some of the most common ways to establish them are:

  • Achieving a specified percentage reduction in energy consumption.
  • Achieving a specified percentage reduction in greenhouse gas emissions.
  • Certification under a program such as ENERGY STAR or LEED.

4) Create an Action Plan

The action plan is the roadmap for getting from the current level of energy performance to the established target. Basically, this step involves project management: the company must define a scope based on the results of previous analyses and audits, prioritizing energy efficiency measures considered the most effective. The action plan involves a scope of work, as well as timelines and allocated resources (cost and labor).

Breaking down the action plan by the department is recommended to optimize work, and it should be reviewed and updated periodically, for example, once per year. Keep in mind that energy efficiency involves specialized knowledge and building system upgrades, so the action plan must also consider the role of external consultants, technology suppliers and contractors.

5) Implement the Action Plan

Best practices in project management are also effective when implementing energy efficiency. Like with any project, human resources management is key, so the US EPA suggest creating a communication plan to ensure information always reaches its target. It is also important to raise awareness at the organizational level, to simplify collaboration once the proposed measures are being deployed.

It may be also be necessary to build capacity by training existing staff members, while expanding the staff temporarily or permanently with the adequate talent for the task. The energy tracking system developed in step 2 can be very useful here to keep a record of results achieved, and match them with the corresponding energy efficiency measures.

6) Evaluate Progress

Progress evaluation is an ongoing process that involves two main activities:

  • Comparing the results achieved with the established targets.
  • Reviewing the action plan and adjusting it as needed towards the energy efficiency goals.

Initiatives that have worked can be enhanced, while those that have proven less effective can be given less priority. As time progresses, the energy management procedures deployed by a company improve thanks to periodic assessment and action plan revisions.

Best practices are a very useful product of progress evaluation. As energy efficiency improvement becomes an established business process, there will be a record of what has worked best in the past.

7) Recognize Electrical Engineering Achievements

An energy efficiency policy involves extra effort from your staff, so it makes sense to reward the results achieved. Two of the most effective methods are public recognition and salary bonuses. Public recognition at the organization level is also important to build momentum, say electrical engineering experts in the field; for example, if the firm achieves certification under a program such as LEED or ENERGY STAR, a press release can be published. This also helps improve public perception of the company as a corporate citizen committed with sustainability.

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