HVAC Equipment's Selection from Udemy

This Training Program includes detailed Equipment selection of all major HVAC Equipments. Classification, criteria, parameters of following Products has been discussed in Detailed:

1. Chiller Selection

- Classification of Chillers

- Details required to select Air cooled chiller

- Parameters to judge performance of Air cooled Chiller

- Chiller selection through Midea brand software

- Case study

2. AHU Selection

It includes all 3 major sections

- Coil section

- Fan section

- Filter section

3. Cooling Tower Selection

- Classification of cooling Tower

- important terminologies like Range, approach etc

- Cas study

4. Pump Selection

Very important section for chilled water system design. Head loss & Flowrate is mandatory criteria for pump selection.

5. Fan Selection

Its used in ventilation as well as Air conditioning . Fans are used in AHU , Air washer , Exhaust Fans etc

6. Humidifier Selection

7. Coil Selection

8. HRW Selection

After going through this Training Program candidate must be able the design the system in more effective way as Equipment selection is an important parameter of any HVAC system Design.

Equipment Selection helps in

1. Cost optimization

2. Energy saving

3. Value Engineering

HVAC Selection Criteria

There were several factors that we took into consideration when thinking about how to come up with a criteria matrix. We looked at the problem from different perspectives as different stakeholders would prioritize different selection criteria. The ones we thought were most important are listed below:COST

Initial cost - This includes costs of installation and labour costs. Some systems may need a highly specialized engineers to install which will inevitably increase initial cost. We are also taking into account any transportation costs. The owners are most likely going to be fairly concerned with initial cost.
Operating cost - The cost in order to run the system, this can vary greatly as factors such as replacement of elements is included. A system like a fan will have very low operating cost as no special labour is required.
Maintenance - This includes things such as replacing parts on the system and ease. Similarly to before, the fan will require minimal maintenance whereas other systems such as a Rooftop Package Unit will be harder to maintain and will require an engineer.

In the case of a computer server farm, cooling capacity is one of the, if not most important criteria. Computer servers will generate heat whilst operating, most of the time operating 24 hours a day. Cooling capacity must be sufficient to stop the servers from over heating and therefore turning off which could lead to a huge loss of data.

Heating Capacity - Whilst not as important as cooling capacity in our case, still required in extreme temperatures such as Anchorage, Alaska where average high temperatures in January are around 23ºF.

Humidity Control - In a computer farm where there are many electrical systems, humidity control is important to ensure the servers function properly. If humidity is too high, this may cause damage to terminals and hardware

Pressure - Not a major concern, but is definitely equipment dependent. Each computer system may have special needs involving pressure

Ventilation - Considered in terms of air circulation and ability to minimize dust gathering on the servers. Ideally, a low energy consumption system would be the best option however, this may not always meet the HVAC needs.

Climate - how effective the system is within a certain climate. This will be weighted in our criteria matrix as we have chosen locations which are at opposite ends of the spectrum in terms of climate throughout the year

What's inside

Learning objectives

Sound knowledge of all major equipments used in hvac system
Helpful in equipment selection like chiller, ahu, pump, cooling tower, humidifier, fan & het recovery wheel

Detailed analysis of different parameters used in equipment selection
Manual & software based system selection

Sound knowledge of all major equipments used in hvac system
Helpful in equipment selection like chiller, ahu, pump, cooling tower, humidifier, fan & het recovery wheel
Detailed analysis of different parameters used in equipment selection
Manual & software based system selection

Syllabus

- Classification of Chiller , Parameters required to judge Chiller's Performance, Details required in Chiller selection , Software use for chiller selection & Techno commercial comparison of Chillers

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Offers detailed instruction on selecting HVAC equipment, which is a core skill for HVAC system design and maintenance

Covers chiller selection using Midea brand software, which may limit the generalizability of the skills to other software platforms

Explores cost optimization, energy saving, and value engineering, which are important considerations in HVAC system design and operation

Includes case studies for chiller and cooling tower selection, which provides practical application of the concepts learned

Requires understanding of head loss and flow rate for pump selection, which suggests a need for foundational knowledge in fluid mechanics

Reviews summary

Practical hvac equipment selection guide

According to learners, this course offers a largely positive and practical guide to HVAC equipment selection. Students report that the content is directly applicable to their professional roles, praising its focus on real-world scenarios. Key highlights include the clear explanations of selection criteria and the valuable inclusion of software selection demonstrations, particularly for chillers. Reviewers appreciate the course's comprehensive coverage of major equipment types, finding it provides a strong foundation. However, some users with prior experience found it to be a bit basic in certain areas and suggested adding more in-depth examples or practice exercises for advanced applications.

Great for basics, less for experts.

"Good solid overview... Overall, a valuable course for reinforcing knowledge or learning the basics."

"As someone with some prior experience, I was hoping for a bit more depth..."

"Decent course for absolute beginners. If you already know the basics... might not add significant new information."

"Provides a strong foundation in selection principles."

Includes valuable software selection demos.

"using the Midea software was a game changer."

"Loved the hands-on software part for chillers."

"I found the fan and pump selection sections slightly less detailed than the chiller/AHU parts."

Concepts and criteria explained clearly.

"The instructor explains complex concepts clearly."

"The step-by-step guides are easy to follow."

"Clear explanations for the most part."

Covers selection of major HVAC equipment.

"Good solid overview of the selection process for key components."

"Comprehensive coverage of the listed equipment."

"The syllabus is well covered."

Content is highly practical for HVAC work.

"Highly practical and applicable to my daily job as a consulting engineer."

"Fantastic practical guide! Loved the hands-on software part..."

"As a junior engineer, this course gave me the confidence to tackle equipment selection tasks at work."

"The practical focus is its greatest strength."

Could benefit from more examples/practice.

"...lacked sufficient complex examples or exercises."

"I wish there were more assignments or practice problems to reinforce the learning..."

"Some modules could be expanded, maybe add more examples..."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in HVAC Equipment's Selection with these activities:

Review Thermodynamics Principles

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Refresh your understanding of thermodynamics principles to better grasp the heat transfer and energy efficiency concepts crucial for HVAC equipment selection.

Browse courses on Thermodynamics

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Review key concepts like enthalpy, entropy, and specific heat.
Work through practice problems related to heat transfer calculations.

Explore Online HVAC Design Tutorials

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Follow online tutorials to further refine your HVAC design skills and learn about industry best practices.

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Search for tutorials on specific HVAC equipment selection topics.
Follow along with the tutorials and practice the techniques.

Review 'HVAC Systems Design Handbook'

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Study this handbook to gain a deeper understanding of HVAC system design principles and equipment selection processes.

View HVAC Systems Design Handbook, Fifth Edition on Amazon

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Read the chapters related to chiller, AHU, and pump selection.
Take notes on key design considerations and selection criteria.

Four other activities

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Chiller Selection Exercises

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Practice chiller selection exercises to reinforce your understanding of performance parameters and selection software usage.

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Use Midea brand software to select chillers for different scenarios.
Compare the performance of different chiller models.
Analyze the techno-commercial aspects of each selection.

ASHRAE Handbook - HVAC Systems and Equipment

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Consult the ASHRAE Handbook to gain in-depth knowledge of HVAC systems and equipment, supplementing the course material.

View 2016 ASHRAE Handbook-HVAC Systems and Equipment... on Amazon

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Explore the sections on AHUs, cooling towers, and pumps.
Review the design guidelines and best practices.

Develop a Chiller Selection Report

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Create a detailed report outlining the chiller selection process for a specific building project, demonstrating your ability to apply the course concepts.

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Define the cooling load requirements for the building.
Evaluate different chiller types based on performance and cost.
Document the selection process and justify your choice.

Design an HVAC System for a Small Office Building

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Undertake a comprehensive project to design an HVAC system for a small office building, integrating all the knowledge and skills acquired during the course.

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Determine the building's heating and cooling loads.
Select appropriate HVAC equipment based on the load calculations.
Create a system layout and specify control strategies.
Prepare a cost estimate for the entire system.

Career center

Learners who complete HVAC Equipment's Selection will develop knowledge and skills that may be useful to these careers:

HVAC Engineer

As an HVAC Engineer you'll design, develop, and oversee the installation and maintenance of heating, ventilation, and air conditioning systems. This course helps build a foundation in the critical area of equipment selection, which is vital for optimizing system design, cost, and energy savings. You will significantly benefit from the detailed analysis of parameters used in equipment selection for chillers, AHUs, cooling towers, pumps, fans, humidifiers, coils, and heat recovery wheels. Moreover, the course's emphasis on both manual and software-based system selection will enhance your ability to make informed decisions. A future HVAC Engineer should take this course to increase their knowledge of HVAC equipment.

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HVAC Design Engineer

HVAC Design Engineers specialize in the design and development of HVAC systems for various buildings and applications. This course helps build a detailed understanding of HVAC equipment selection, a key component of the design process. The comprehensive analysis of chillers, AHUs, cooling towers, pumps, fans, humidifiers, and other components will equip you with the knowledge and skills to create efficient, cost-effective, and reliable HVAC systems. This course may enhance the skills for an HVAC Design Engineer.

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HVAC System Designer

As an HVAC System Designer you are responsible for planning and designing heating, ventilation, and air conditioning systems for buildings. This course helps build expertise in HVAC equipment selection, a cornerstone skill for designing effective and efficient systems. The course's detailed examination of chillers, AHUs, cooling towers, pumps, and fans, combined with the emphasis on cost optimization and energy savings, provides a solid foundation for making informed design choices. An HVAC System Designer could expand their knowledge with this course.

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Building Systems Designer

Building Systems Designers are responsible for planning and designing the various systems within a building, including HVAC. This course helps build a comprehensive understanding of HVAC equipment selection, which is essential for creating efficient and cost-effective building systems. The course's detailed examination of chillers, AHUs, cooling towers, pumps, and fans, as well as the emphasis on cost optimization and energy savings, provide a strong foundation for making informed design decisions. A Building Systems Designer should take this course to improve their HVAC design knowledge.

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Mechanical Engineer

Mechanical Engineers are often involved in the design and analysis of HVAC systems. This course may be useful, as it provides detailed training on HVAC equipment selection, which directly impacts system performance and efficiency. A Mechanical Engineer who understands how to properly select chillers, AHUs, pumps, and other components is better equipped to create effective and energy-efficient designs. The course's coverage of selection criteria and parameters, as well as the use of software for chiller selection, makes it invaluable for mechanical engineers working with HVAC systems. This course can benefit a mechanical engineer hoping to add HVAC to their arsenal.

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Project Engineer

Project Engineers manage and coordinate engineering projects, often involving HVAC systems. This course is helpful in understanding the critical aspects of HVAC equipment selection, which directly impacts project costs and timelines. As a Project Engineer, you can use the knowledge gained from this course to make informed decisions about equipment procurement and installation. The course's emphasis on cost optimization and detailed analysis of selection parameters will help you effectively manage HVAC-related aspects of engineering projects. Project Engineers can use this knowledge to improve their HVAC related projects.

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Energy Engineer

Energy Engineers focus on improving energy efficiency and reducing energy consumption in buildings and industrial processes. This course is particularly relevant because it emphasizes energy saving through optimal HVAC equipment selection. An Energy Engineer can leverage the knowledge gained from this course to identify and implement energy-efficient HVAC solutions. The course's detailed analysis of equipment parameters and selection criteria will empower you to make data-driven decisions that minimize energy waste and maximize performance. This course may make an Energy Engineer more effective in their work.

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Plant Engineer

Plant Engineers oversee the operation and maintenance of equipment and systems in industrial plants, including HVAC. This course can provide valuable insights into the selection and performance of HVAC equipment, helping Plant Engineers make informed decisions about system upgrades and maintenance. Understanding the selection criteria for chillers, AHUs, and other components can assist in optimizing system performance and reducing operating costs. This course may be prove to be useful for a Plant Engineer.

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Sustainable Building Consultant

Sustainable Building Consultants advise on the design, construction, and operation of environmentally friendly buildings. This course's is relevant due to its focus on energy saving and cost optimization in HVAC equipment selection. A Sustainable Building Consultant can use this knowledge to recommend HVAC systems that minimize environmental impact and reduce operating costs. The detailed analysis of various equipment parameters and selection criteria will enable you to make informed recommendations that align with sustainability goals. This course may aid Sustainable Building Consultants with HVAC queries.

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Commissioning Agent

Commissioning Agents ensure that building systems, including HVAC, are designed, installed, and perform according to the owner's requirements. This course provides valuable insights into the selection and performance of HVAC equipment, enabling Commissioning Agents to verify that systems meet specified criteria. The course's detailed analysis of chillers, AHUs, cooling towers, and other components can assist in identifying potential issues and ensuring optimal system operation. This course may be useful for Commissioning Agents seeking to improve their HVAC knowledge.

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Facilities Manager

Facilities Managers oversee the operation and maintenance of buildings and their systems, including HVAC. This course can provide insights into the selection and performance of HVAC equipment, helping Facilities Managers make informed decisions about maintenance and upgrades. Understanding the selection criteria for chillers, AHUs, and other components can assist in optimizing system performance and reducing operating costs. Facilities Managers can benefit from the course's focus on cost optimization and energy savings. Knowledge from this guide can help Facilities Managers monitor and manage their buildings' HVAC systems.

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Sales Engineer

Sales Engineers sell technical products or services, often including HVAC equipment. This course can equip you with the knowledge needed to effectively communicate the features and benefits of various HVAC systems to potential customers. The detailed analysis of equipment types, selection criteria, and performance parameters will enable you to provide informed recommendations and tailor solutions to specific customer needs. This course may be helpful to Sales Engineers seeking to improve their HVAC knowledge.

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HVAC Technician

An HVAC Technician installs, maintains, and repairs heating, ventilation, and air conditioning systems. This course can supplement practical skills with a deeper understanding of equipment selection, which will enable you to troubleshoot issues more effectively and make informed recommendations for replacements or upgrades. The detailed analysis of various equipment types such as chillers, AHUs, and cooling towers will enhance your diagnostic abilities and contribute to better system performance. This course may be useful to HVAC Technicians seeking to refine and develop their knowledge of HVAC.

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Automated Building System Technician

Automated Building System Technicians install, monitor, and maintain the automated systems that control various aspects of a building, including HVAC. This course can augment your understanding of HVAC equipment selection, which is essential for integrating HVAC systems into automated control networks. Knowledge of equipment parameters and performance characteristics will enable you to optimize system operation and ensure compatibility with automated controls. An Automated Building System Technician may find value in this course.

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Building Inspector

Building Inspectors examine buildings and their systems to ensure compliance with safety codes and regulations. This course helps you with a foundational understanding of HVAC equipment and its selection criteria, enabling you to assess whether systems are appropriate for the intended use and meet required standards. Knowledge of equipment parameters and performance characteristics can assist in identifying potential safety hazards or code violations related to HVAC systems. This course may be beneficial for Building Inspectors.

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HVAC Equipment's Selection

What's inside

Learning objectives

Syllabus

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Reviews summary

Practical hvac equipment selection guide

Activities

Career center

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