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$30.00

10990

Power Cycle Components/Processes Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Information Technology Training > Other

The power cycle components/processes (compression, combustion and expansion) are presented in this course material.In the presented power cycle components/processes analysis, air is used as the working fluid. For compression and expansion, the technical performance of mentioned power cycle compo ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Compression, Combustion, Expansion, ideal vs real operation

$25.00

10978

Power Cycles Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The simple and basic power cycles (Brayton Cycle, Otto Cycle and Diesel Cycle) are presented in this course material.In the presented power cycle analysis, air is used as the working fluid. For each power cycle, the thermal efficiency derivation is presented with a simple mathematical approach.A ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Brayton Cycle, Otto Cycle, Diesel Cycle, ideal vs real operation

$20.00

10967

Otto Cycle Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

In this course material, the open, simple Otto Cycle used for stationary power generation is considered. The Otto Cycle thermal efficiency is presented only for the air as the working fluid.The thermal efficiency derivation is presented with a simple mathematical approach.The Otto Cycle is prese ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Otto Cycle, ideal vs real operation

$20.00

3068

Power Cycles and Power Cycle Components/Processes Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal, simple and basic power cycles (Carnot Cycle, Brayton Cycle for both power and propulsion applications, Otto Cycle and Diesel Cycle) and ideal power cycle components/processes (compression, combustion and expansion) are presented in this course material.  In the presented power cycles a ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Power Cycles, Compression, Combustion and Expansion

$20.00

11547

Otto Cycle Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal cycle for a simple gasoline engine is the Otto Cycle.In this course material, the open, simple Otto Cycle used for stationary power generation is considered. The Otto Cycle thermal efficiency is presented only for the air as the working fluid.The thermal efficiency derivation is presen ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Otto Cycle

$20.00

10969

Diesel Cycle Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

In this course material, the open, simple Diesel Cycle used for stationary power generation is considered. The Diesel Cycle thermal efficiency is presented only for the air as the working fluid.The thermal efficiency derivation is presented with a simple mathematical approach.The Diesel Cycle is ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

$30.00

11006

Power Cycles and Power Cycle Components/Processes Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The simple and basic power cycles (Brayton Cycle, Otto Cycle and Diesel Cycle) and power cycle components/processes (compression, combustion and expansion) are presented in this course material.In the presented power cycles and power cycle components/process analysis, air is used as the working flu ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Power Cycles, Compression, Combustion and Expansion

$20.00

11548

Diesel Cycle Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal cycle for a simple diesel engine is the Diesel Cycle.In this course material, the open, simple Diesel Cycle used for stationary power generation is considered. The Diesel Cycle thermal efficiency is presented only for the air as the working fluid.The thermal efficiency derivation is pr ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Diesel Cycle

$20.00

10989

Combustion Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

Combustion is a process of active oxidation of combustible compounds such as:carbon, hydrogen and sulfur.Therefore, combustion is a chemical reaction.High amount of heat is released during the combustion process.Combustion has a high degree of importance in engineering. Complete combustion at co ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Combustion, ideal vs real operation

$25.00

11011

Compressible Flow Components Ideal vs Real Operation Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The subsonic nozzle, diffuser and thrust analysis is presented only for the air as the working fluid.The technical performance of mentioned compressible flow components is presented with a given relationship between pressure and temperature as a function of Mach Number and isentropic nozzle and dif ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Nozzle, Diffuser and Thrust, ideal vs real operation

$20.00

11546

Brayton Cycle (Gas Turbine) for Propulsion Application Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal cycle for a simple gas turbine is the Brayton Cycle, also called the Joule Cycle.In this course material, the open, simple Brayton Cycle used for stationary power generation is considered providing thrust instead of power output.In order to keep the scope of the thrust analysis simple, th ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Brayton Cycle, propulsion

$20.00

10964

Brayton Cycle (Gas Turbine) Ideal vs Real Operation for Propulsion Application Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

In this course material, the open, simple Brayton Cycle used for stationary power generation is considered providing thrust instead of power output.In order to keep the scope of the thrust analysis simple, the working fluid exiting gas turbine expands to the atmospheric conditions -- final working ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Continuing Education (CE) 1 Hour Quiz

$30.00

3064

Advanced Power Cycles and Power Cycle Components/Processes Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal, simple and basic power cycles (Carnot Cycle, Brayton Cycle, Otto Cycle and Diesel Cycle) and ideal power cycle components/processes (compression, combustion and expansion) are presented in this course material. When dealing with power cycles two different approaches are taken with res ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Power Cycles, Compression, Combustion and Expansion

$20.00

10937

Brayton Cycle (Gas Turbine) Ideal vs Real Operation for Power Application Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

In this course material, the open, simple Brayton Cycle used for stationary power generation is considered. The Brayton Cycle thermal efficiency is presented only for the air as the working fluid.The thermal efficiency derivation is presented with a simple mathematical approach.The Brayton Cycle ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Brayton Cycle, ideal vs real operation

$30.00

3061

Advanced Power Cycles and Combustion Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal, simple and basic power cycles (Carnot Cycle, Brayton Cycle, Otto Cycle and Diesel Cycle) and combustion are presented in this course material. When dealing with power cycles two different approaches are taken with respect to the working fluid.  For Carnot Cycle and Brayton Cycle, ai ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Power Cycles and Combustion

$25.00

3022

Advanced Power Cycle Components/Processes Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal power cycle components/processes (compression, combustion and expansion) are presented in this course material. When dealing with power cycle components/processes (compression and expansion), air, argon, helium and nitrogen are used as the working fluid. When dealing with combustion ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Compression, Combustion and Expansion

$25.00

3057

Advanced Otto Cycle and Combustion Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal cycle for a simple gasoline engine is the Otto Cycle.  In this course material, the open, simple Otto Cycle used for stationary power generation and combustion are presented.  For Otto Cycle, only air is used as the working fluid. When dealing with combustion, six different fuels ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Otto and Combustion

$25.00

3059

Advanced Diesel Cycle and Combustion Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal cycle for a simple diesel engine is the Diesel Cycle.  In this course material, the open, simple Diesel Cycle used for stationary power generation and combustion are presented. For Diesel Cycle, only air is used as the working fluid. When dealing with combustion, six different fue ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Diesel and Combustion

$25.00

3020

Advanced Compressible Flow Components Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal subsonic nozzle, diffuser and thrust analysis is presented when air, argon, helium and nitrogen are considered as the working fluid.  The technical performance of mentioned compressible flow components is presented with a given relationship between pressure and temperature as a function ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Nozzle, Diffuser and Thrust

$25.00

3055

Advanced Brayton Cycle (Gas Turbine) for Power Application and Combustion Analysis

Author: Gordan Feric

Category: Online Engineering Training > Other

The ideal cycle for a simple gas turbine is the Brayton Cycle, also called the Joule Cycle.  In this course material, the open, simple Brayton Cycle used for stationary power generation and combustion are presented. When dealing with Brayton Cycle, air, argon, helium and nitrogen are considered ... More

Locations:   Alabama, Maine, Oregon, Alaska, Maryland, Pennsylvania, Arizona, Massachusetts, Rhode Island, Arkansas, Michigan, South Carolina, California, Minnesota, South Dakota, Colorado, Mississippi, Tennessee, Connecticut, Missouri, Texas, Delaware, Montana, Utah, Florida, Nebraska, Vermont, Georgia, Nevada, Virginia, Hawaii, New Hampshire, Washington, Idaho, New Jersey, West Virginia, Illinois, New Mexico, Wisconsin, Indiana, New York, Wyoming, Iowa, North Carolina, Puerto Rico, Kansas, North Dakota, Guam, Kentucky, Ohio, US Virgin Islands, Louisiana, Oklahoma

Keywords: Brayton and Combustion