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HVAC Hydronic Systems 24 PDH Discount Package

PACKAGE NO: DP24M-03
PACKAGE PDH: 24
PACKAGE PRICE: $288
To buy the package, please click on:
Courses in this Package
COURSE TITLE: Chiller Systems
COURSE NO: M04-006
COURSE PROVIDER: A. Bhatia
Chiller Systems
Course Highlights

This online engineering PDH course discusses the applications of chiller systems.

 

A chiller can be generally classified as a refrigeration system that uses either a vapor compression or absorption cycle to cool.  Both the absorption and the mechanical compression systems have the evaporation and condensation of a refrigerant in common. In both systems, the refrigerant evaporates at low pressure to absorb heat and then condenses at higher pressure to reject heat to the atmosphere. Both systems require energy to raise the temperature of the refrigerant for the heat rejection process.

 

The difference is that the mechanical chillers use reciprocating, centrifugal or screw compressors that are powered by electric motors whereas in the absorption cycle uses heat (usually steam or direct fire) to raise the refrigerant temperature. Mechanical chillers are most commonly used in residential and commercial buildings whereas absorption systems offer an excellent choice for industrial applications there waste heat recovery is an essential element of the process.

 

This 4 PDH online course is applicable to mechanical engineers, design and construction personnel, technical staff and facility personnel who are interested in gaining a better understanding of chiller systems.

Learning Objectives

This PE continuing education course is intended to provide you with the following specific knowledge and skills:

  • How the mechanical compression cycle operates
  • What are the different types of mechanical compressors
  • What is vapor absorption refrigeration cycle, its components and applications
  • What do the terms efficiency and coefficient of performance mean
  • What are the functions of the different components of a chiller system
  • How is heat rejection achieved through contact and non-contact type cooling towers
  • What are the different types of refrigerants and their effects on environment
  • What are the principle guidelines in sizing, costing and selecting an appropriate chiller
  • Why is water treatment important in closed and open systems
  • What are the basic methods and procedures for testing, adjusting and balancing (TAB) of chiller systems
Course Document

In this professional engineering CEU course, you need to review Appendix C, "Chiller Systems" of the US Corps of Engineers Construction Engineering Research Laboratory (USACERL) technical report 99/20, May 1999.

To view, print and study the course document, please click on the following link(s):
Chiller Systems (3.44 MB)
Course Quiz
Once you complete your course review, you need to take a multiple-choice quiz consisting of twenty (20) questions to earn 4 PDH credits. The quiz will be based on the entire Appendix C, "Chiller Systems" of this USACERL technical report.
The minimum passing score is 70%. There is no time limit on the quiz, and you can take it multiple times until you pass at no additional cost.
Certificate of Completion

Upon successful completion of the quiz, print your Certificate of Completion instantly. (Note: if you are paying by check or money order, you may print your Certificate of Completion after we receive your payment.) For your convenience, we will also email you your Certificate of Completion. Also, you can log in to your account at any time to access and print your Certificate of Completion.

COURSE TITLE: Design Considerations for a Hydronic Pumping System
COURSE NO: M06-020
COURSE PROVIDER: A. Bhatia
Design Considerations for a Hydronic Pumping System
Course Highlights

This online engineering PDH course describes the relationships between the components that make up the pumping system with generic references to air-conditioning applications so that the reader can appreciate the nuances for any application. A little extra effort in the system design can make a safe & efficient system. Numerous illustrations and examples have been included to enhance the understanding of the course material.

 

Although pumps are typically purchased as individual items, they provide service only when operating as part of a system. Procurement costs of the pumps in general amount to less than 1% of the total investment of a plant, yet the operational quality of a pump may be the decisive factor in the overall running costs. According to the Hydraulic Institute:

  • 5% of industrial energy goes to pumps
  • Pumping systems account for nearly 20% of the world's electrical energy demand and range from 20% to 25% of the energy usage in certain industrial plant operations
  • Energy consumption is 90% of the total cost of owning a pump 

It is important to note that an efficient system design is established more by those concerned with system design, installation, balance and operation than by the pump engineer.

 

This 6 PDH online course is aimed at the personnel who have some limited background in the air conditioning field and is targeted to mechanical, electrical, controls and HVAC engineers, architects, building designers, contractors, estimators, energy auditors and facility managers who are involved in the planning, design and installation of hydronic pump systems.

Learning Objectives

This PE continuing education course is intended to provide you with the following specific knowledge and skills:

  • Understanding the pump system terminology
  • Understanding the pump system characteristics and relationship between flow and head
  • Understanding the methods to achieve minimum recirculation
  • Understanding how to vary pump performance
  • Understanding the effect of throttling, impeller trim and speed change on pump performance
  • Understanding the effect of increasing chiller temperature range on pumping flow rates
  • Understanding various pump system design configurations - series v/s parallel schemes
  • Understanding the concepts, myths and realities of primary-secondary pumping;
  • Understanding the application of 2-way and 3-way valves
  • Understanding the pump system design general recommendations
Course Document

In this professional engineering CEU course, you need to review the document titled “Design Considerations for Hydronic Pumping System” .

To view, print and study the course document, please click on the following link(s):
Design Considerations for a Hydronic Pump System (528 KB)
Course Quiz
Once you complete your course review, you need to take a multiple-choice quiz consisting of thirty (30) questions to earn 6 PDH credits. The quiz will be based on the entire document.
The minimum passing score is 70%. There is no time limit on the quiz, and you can take it multiple times until you pass at no additional cost.
Certificate of Completion

Upon successful completion of the quiz, print your Certificate of Completion instantly. (Note: if you are paying by check or money order, you may print your Certificate of Completion after we receive your payment.) For your convenience, we will also email you your Certificate of Completion. Also, you can log in to your account at any time to access and print your Certificate of Completion.

COURSE TITLE: HVAC Chilled Water Distribution Schemes
COURSE NO: M05-008
COURSE PROVIDER: A. Bhatia
HVAC Chilled Water Distribution Schemes
Course Highlights

This online engineering PDH course discusses the history of chilled water distribution systems and the development of "variable primary flow system". Problems such as low delta-T syndrome associated with the chilled water pumping schemes are defined and also discussed. Finally, this course compares the advantages and disadvantages of primary-secondary and direct-primary pumping schemes.

 

In large commercial and industrial systems, chilled water system serves as means to transfer heat from building spaces to the refrigeration system. Initially, when energy costs were low, constant volume and primary-secondary systems provided a stable and simple operation of the chillers and distribution systems. However, as energy costs increased, particularly in the late 1970s, the efficiency of the chillers and the costs associated with operating the distribution system became more important. As a result, the need for new schemes to improve chiller performance and reduce energy costs drove the HVAC industry to advance chilled water technology, particularly in the manner that chilled water is delivered.

 

This 5 PDH online course is applicable to mechanical and HVAC engineers, process engineers, architects, building designers, contractors, energy auditors, facility managers who are interested in gaining a better understanding of HVAC chilled water distribution schemes.

Learning Objectives

This PE continuing education course is intended to provide you with the following specific knowledge and skills:

  • The basic hydronic principles i.e. relationship of chilled water flow rate v/s cooling load and the energy savings due to adjustable speed pumps
  • How do constant volume chilled water systems different from primary/secondary arrangement
  • What is low delta-T syndrome and how it affects the chiller loading
  • What are the causes and mitigation measures to prevent low delta-T syndrome
  • Why distributed pumping arrangement is better than headered arrangement for constant flow systems
  • How do primary/secondary chilled water systems create hydraulically independent loops.
  • How to size the de-coupler bridge
  • The characteristics of control valves and why 2-way valve is better than 3-way valve in variable flow systems
  • How do the variable primary flow system compare with primary/secondary system in terms of cost and energy
  • The importance of design tube velocity and rate of chilled water flow variations in variable primary flow systems
Course Document

In this professional engineering CEU course, you need to review the course document titled "HVAC Chilled Water Distribution Schemes".

To view, print and study the course document, please click on the following link(s):
HVAC Chilled Water Distribution Schemes (550 KB)
Course Quiz
Once you complete your course review, you need to take a multiple-choice quiz consisting of twenty five (25) questions to earn 5 PDH credits. The quiz will be based on the entire document.
The minimum passing score is 70%. There is no time limit on the quiz, and you can take it multiple times until you pass at no additional cost.
Certificate of Completion

Upon successful completion of the quiz, print your Certificate of Completion instantly. (Note: if you are paying by check or money order, you may print your Certificate of Completion after we receive your payment.) For your convenience, we will also email you your Certificate of Completion. Also, you can log in to your account at any time to access and print your Certificate of Completion.

COURSE TITLE: HVAC Pump Characteristics and Energy Efficiency
COURSE NO: M05-007
COURSE PROVIDER: A. Bhatia
HVAC Pump Characteristics and Energy Efficiency
Course Highlights

This online engineering PDH course provides the students with a firm understanding of the basic principles that centrifugal pumps operate under. Topics covered include the performance curve, series operation, parallel operation, the affinity laws, friction, specific gravity & viscosity, suction lift, and NPSH.

 

Most HVAC systems are designed to handle the maximum potential temperature extremes, keeping the building cool on the hottest days and warm on the coldest days. As a result, the HVAC system only needs to work at full capacity on the ten or so hottest and coldest days of the year. On the other 345 days, the system could be operated at reduced capacity.

 

HVAC pumps are generally designed for peak conditions and the output of these systems is controlled by mechanically constricting the flow with throttling valves. This wastes energy. By using a variable speed drives, chilled water flows can be matched to actual heating and cooling demands.

 

This 5 PDH online course is applicable to mechanical and HVAC engineers, process engineers, architects, building designers, contractors, energy auditors, facility managers who are interested in gaining a better understanding of HVAC pump characteristics and energy efficiency.

Learning Objectives

This PE continuing education course is intended to provide you with the following specific knowledge and skills:

  • Understand the basic types of pumps used in HVAC applications
  • Understand the key fluid properties such as viscosity, density, temperature, specific weight, concentration and vapor pressure
  • Understand why pump performance in typically rated feet of head and not pressure.
  • Understand the various head terms such as suction lift, static head, discharge head, friction head, velocity head and pressure head
  • Understand the laws of affinity and illustrate them with a pump operating under VFD control
  • Understand the pump curve, system curve, operating point and the best efficiency point for the pump operation
  • Understand the flat, smooth and drooping characteristic curve for the centrifugal pump and the applications for which it is best suited
  • Understand the importance of specific speed and their relationship to the shape of impeller (radial, mixed or axial)
  • Understand pump cavitation and its relationship to net positive suction head (NPSH) available and required
  • Understand the various techniques for flow control including throttling, speed adjustment and multi-pump installation considerations in parallel or series arrangement
  • Learn by example the method to compute the frictional head through the HVAC chilled water system
  • Define the pumping system efficiency and the tips to achieve the same
Course Document

In this professional engineering CEU course, you need to review the course document titled "HVAC Pump Characteristics and Energy Efficiency".

To view, print and study the course document, please click on the following link(s):
HVAC Pump Characteristics and Energy Efficiency (946 KB)
Course Quiz
Once you complete your course review, you need to take a multiple-choice quiz consisting of twenty five (25) questions to earn 5 PDH credits. The quiz will be based on the entire document.
The minimum passing score is 70%. There is no time limit on the quiz, and you can take it multiple times until you pass at no additional cost.
Certificate of Completion

Upon successful completion of the quiz, print your Certificate of Completion instantly. (Note: if you are paying by check or money order, you may print your Certificate of Completion after we receive your payment.) For your convenience, we will also email you your Certificate of Completion. Also, you can log in to your account at any time to access and print your Certificate of Completion.

COURSE TITLE: Hydronic Systems
COURSE NO: M04-008
COURSE PROVIDER: A. Bhatia
Hydronic Systems
Course Highlights

This online engineering PDH course provides basics of the hydronic system operation and will familiarize the reader with piping system layout and operation, as well as provide an awareness of common circuiting arrangements. Topics to be discussed include auxiliary hydronic system components such as pumps, expansion tank, terminal units, distribution piping and fittings.

 

The circulation of hot water or chilled water to provide heat or cool the spaces is known as "Hydronic" system. It is a closed system where cold or hot water/steam runs through a heat exchanger and air is then blown over the heat exchanger to get the desired room conditions. Traditionally, HVAC systems are designed as All-Air Systems, which means that air is cooled at one location and is than distributed to the required space through ducts. All-Air Systems achieve the task of cooling a building by convection only. Hydronic system provides an alternative to cool/heat through a combination of radiation and convection inside the building.

 

Hydronic heating has three advantages over other types of heating systems. These advantages are comfort, efficiency, and versatile installation. With hydronics, you can move 40,000 Btu's through a 3/4" copper pipe through walls and between floors - or anywhere you need the heat - quietly and efficiently. A forced air system requires a lot of duct space, about an 8" by 14" duct, to move that much air with that many Btu's into a room.

 

This 4 PDH online course is applicable to mechanical engineers, design and construction personnel, technical staff and facility personnel who are interested in gaining a better understanding of hydronic systems.

Learning Objectives

This PE continuing education course is intended to provide you with the following specific knowledge and skills:

  • Understand the basic hydronic systems in heating and cooling applications
  • Understand the difference between once through, recirculation, open and closed systems
  • Describe the components of hydronic systems such as air separators, air vents, circulators, relief valves, expansion tanks, flow control devices, miscellaneous valve and fittings
  • Understand water system piping classification for main and branch feeders
  • Learn about the various piping circuits including one pipe, two pipe, three pipe and four pipe systems for various applications
  • Understand different type of heating and cooling terminal units such as unitary equipment, air handling units, baseboard heaters, convectors and radiators
  • Learn different type of hydronic pumps including circulators, closed coupled centrifugal pumps and horizontal split casing pumps
  • Understand pump cavitation and pump installation considerations; parallel or series arrangement
  • Learn basic hydronic system testing, adjusting and balancing (TAB) procedures
Course Document

In this professional engineering CEU course, you need to review Appendix E, "Hydronic Systems" of the US Corps of Engineers Construction Engineering Research Laboratory (USACERL) technical report 99/20, May 1999.

To view, print and study the course document, please click on the following link(s):
Hydronic Systems (2.34 MB)
Course Quiz
Once you complete your course review, you need to take a multiple-choice quiz consisting of twenty (20) questions to earn 4 PDH credits. The quiz will be based on Appendix E of this USACERL report.
The minimum passing score is 70%. There is no time limit on the quiz, and you can take it multiple times until you pass at no additional cost.
Certificate of Completion

Upon successful completion of the quiz, print your Certificate of Completion instantly. (Note: if you are paying by check or money order, you may print your Certificate of Completion after we receive your payment.) For your convenience, we will also email you your Certificate of Completion. Also, you can log in to your account at any time to access and print your Certificate of Completion.

To buy the package , please click on: