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84475

Commercial Wireless Compliance 5-Pack of Videos (Bundle) - Site License [2016 Webinar Recording]

*Site license holders can share this bundle with up to 10 guests from the same organization. This 5-Pack Bundle includes the following webinars; Part 1: FCC Part 15 Essentials Part 2: SAR and Radiation Hazards Part 3: Broadband Wireless Devices Part 4: Wireless Approvals in the Far East Part 5: Radio Equipment Directive (RED) Implementation

Visited 7 times
$937.50
84473

IEC CISPR FCC Testing 7-Pack of Videos (Bundle) - Site License [2016 Webinar Recording]

*Site license holders can share this bundle with up to 10 guests from the same organization. This 7-Pack Bundle includes the following webinars; Part 1: IEC/EN/FCC – Emissions Part 2: IEC/CE Transient Immunity Part 3: IEC/CE CW Immunity Part 4: IEC/EN Power Issues Part 5: IEC/EN Power Plant Issues Part 6: EPRI TR-102323 R4 Tests Part 7: IEC/EN Wireless Immunity

Visited 4 times
$1,050.00
84471

Product Safety: 12-Pack of Videos (Bundle) - Site License [2016 Webinar Recording]

*Site license holders can share this bundle with up to 10 guests from the same organization. This 12-Pack Bundle includes the following webinars; Part 1:    Ratings, Labels, Manuals Part 2:    Electrical Shock Protection Part 3:    Insulation Design w/Creepage & Clearance Part 4:    Laser Product Safety Part 5:    LED Safety              Part 6:    Fire/Flammability Part 7:    Mechanical/Stability          Part 8:    Laser Equipment Classification – U.S. FDA and IEC    Part 9:    Risk Analysis                      Part 10:  Laser Facility Safety          Part 11:  Thermal Measurements    Part 12:  Routes to Compliance     

Visited 5 times
$1,350.00
84470

Product Safety: 12-Pack of Videos (Bundle) - Single License [2016 Webinar Recording]

This 12-Pack Bundle includes the following webinars; Part 1:    Ratings, Labels, Manuals Part 2:    Electrical Shock Protection Part 3:    Insulation Design w/Creepage & Clearance Part 4:    Laser Product Safety Part 5:    LED Safety              Part 6:    Fire/Flammability Part 7:    Mechanical/Stability          Part 8:    Laser Equipment Classification – U.S. FDA and IEC    Part 9:    Risk Analysis                      Part 10:  Laser Facility Safety          Part 11:  Thermal Measurements    Part 12:  Routes to Compliance     

Visited 4 times
$900.00
84469

MIL-STD-810: 12-Pack of Videos (Bundle) - Site License [2016 Webinar Recording]

*Site license holders can share this bundle with up to 10 guests from the same organization. This 12-Pack Bundle includes the following webinars;   Part 1     MIL-STD-810G: Pgm/Lab Guidelines Part 2     MIL-STD-810G: Altitude/Pressure                       Part 3     MIL-STD-810G: Temperature       Part 4     MIL-STD-810G:  Ingress Part 5     MIL-STD-810G:  Contamination   Part 6     MIL-STD-810G:  Vibration/Shock Part 7     MIL-STD-810G:  Corrosion                       Part 8     MIL-STD-810G:  Dynamic Part 9     MIL-STD-810G:  Atmospheric      Part 10   MIL-STD-810G:  Miscellaneous Tests     Part 11   MIL-STD-810G:  Documentation  Part 12   MIL-STD-167/MIL-STD-901D

Visited 4 times
$1,350.00
84466

MIL-STD-810: 12-Pack of Videos (Bundle) - Single License [2016 Webinar Recording]

This 12-Pack Bundle includes the following webinars; Part 1     MIL-STD-810G: Pgm/Lab Guidelines Part 2     MIL-STD-810G: Altitude/Pressure                       Part 3     MIL-STD-810G: Temperature       Part 4     MIL-STD-810G: Ingress Part 5     MIL-STD-810G: Contamination   Part 6     MIL-STD-810G: Vibration/Shock Part 7    MIL-STD-810G: Corrosion                       Part 8    MIL-STD-810G: Dynamic Part 9    MIL-STD-810G: Atmospheric      Part 10   MIL-STD-810G: Miscellaneous Tests     Part 11   MIL-STD-810G: Documentation  Part 12   MIL-STD-167/MIL-STD-901D

Visited 4 times
$900.00
84392

MIL-STD-461G: 12-Pack of Videos (Bundle) - Site License [2016 Webinar Recording]

MIL-STD-461G: 12-Pack of Videos (Bundle) - Site License [2016 Webinar Recording] *Site license holders can share this bundle with up to 10 guests from the same organization. This 12-Pack Bundle includes the following webinars; Part 1: General requirements Part 2: CE101, CE102 Part 3: CE106/RE103 Part 4: CS101 Part 5: CS103/CS104/CS105 Part 6: CS114 Part 7: CS115/CS116 Part 8: CS117/CS118 Part 9: RE101/RE102 Part 10: RS101/RS103 Part 11: CS109/RS105 Part 12: Documentation/DIDs

Visited 2 times
$1,350.00
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Scientific Method and Project Management [2016 Webinar Recording]

Scientific Method and Project Management [2016 Webinar Recording] The success or failure of a project typically hinges on the application of sound project management fundamentals. Far too often, projects are not completed on time, within scope, and within budget since the process of managing the basic and critical elements of a project have not been clearly thought out, documented, and implemented. For engineering and technical projects, application of the scientific method should be embedded in the project plan as a task. This task is very often overlooked, and can be the cause of project failures, especially for those projects that are technical and deemed complex. This webinar addresses the use of a simple project management scheme, and how the scientific method can be embedded as a task in the project’s execution phase. Personal examples will be shared. Who will Benefit Industry, Manufacturers, Governmental Agencies, Universities, Construction, and other organizations that conduct projects – especially technical, engineering, and scientific. In cooperation with Laser Product Safety LLC The Presenter Peter Boden: Mr. Boden is an Executive Technical Consultant and Director of Training & Safety for Laser Product Safety, LLC located near Research Triangle Park, NC. He holds a MS in Biomedical Engineering from Northwestern University. He has 32 years of experience in R&D, Engineering Project Management, and is recognized as a U.S. and global laser and photo-biological optical radiation safety expert regarding FDA CDRH, OSHA, IEC, ANSI, and UL Safety Standard compliance, regulation, testing, training, and laser facilities safety assessment. Mr. Boden presently serves on the U.S. Technical Advisory Group to IEC Technical Committee 76 – Optical Radiation Safety and Laser Equipment, and is active on many other U.S. and global technical committees on laser and photo-biological safety including ANSI Safety Standards Committee Z136.1, “Safe Use of Lasers,” and ANSI Subcommittee SSC-8, “Safe Use of Lasers in R&D and Testing,” as applied to laser facilities and university research labs. Mr. Boden was the catalyst for the formation of the IEC Committee of Testing Laboratories Working Group 6 for Photo-biological Safety. He has assessed laser testing laboratories around the globe, and has directed the building of laser testing laboratories in the U.S., Japan, and Europe. His expertise is acknowledged by many awards and publications.  

Visited 2 times
$125.00
56563

Power Cycle Components/Processes Analysis

The ideal 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 components/processes is presented with a given relationship between pressure and temperature. While for combustion, the technical performance at stoichiometric conditions is presented knowing the specific enthalpy values for combustion reactants and products, given as a function of temperature. This course provides the compression and expansion T - s diagrams and their major performance trends plotted in a few figures as a function of compression and expansion ratio and working fluid mass flow rate. For each combustion case considered, combustion products composition on both weight and mole basis is given in tabular form and plotted in a few figures. Also, flame temperature, stoichiometric oxidant to fuel ratio and fuel higher heating value (HHV) are presented in tabular form and plotted in a few figures. The provided output data and plots allow one to determine the major combustion performance laws and trends. In this course material, the student gets familiar with the ideal power cycle components/processes, their T - s and h - T diagrams, operation and major performance trends.

Visited 931 times
$20.00
10989

Combustion Ideal vs Real Operation Analysis

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 constant pressure with and without heat loss is presented.Six different fuels (carbon, hydrogen, sulfur, coal, oil and gas) react with air as the oxidant at different stoichiometry values (stoichiometry => 1) and oxidant inlet temperature values. Reactants and combustion products enthalpy values change with an increase in the temperature and such enthalpy values are presented in a plot where one can notice fuel higher heating value (HHV) and flame temperature definitions.Physical properties of basic combustion reactants and products are presented in an enthalpy vs temperature plot. The combustion technical performance at stoichiometry => 1 conditions is presented knowing the enthalpy values for combustion reactants and products, given as a function of temperature.Combustion products composition on both weight and mole basis is given in tabular form and plotted in a few figures. Also, flame temperature, oxidant to fuel ratio and fuel higher heating value (HHV) are presented in tabular form and plotted in a few figures. The provided output data and plots allow one to determine the major combustion performance laws and trends. In this course material, the student gets familiar with complete combustion of carbon, hydrogen, sulfur, coal, oil and gas, with and without heat loss, with air as the oxidant at different stoichiometry values (stoichiometry => 1) and oxidant input temperature values, physical properties of combustion reactants and products, combustion products composition on both weight and mole basis, flame temperature, oxidant to fuel ratio and higher heating value (HHV),.As a result, basic combustion performance trends are presented.

Visited 1,966 times
$20.00
11546

Brayton Cycle (Gas Turbine) for Propulsion Application Analysis

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, the working fluid exiting gas turbine expands to the atmospheric conditions -- final working fluid exit pressure is equal to the ambient pressure. 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 is presented in a T - s diagram and its major performance trends (specific propulsion output and propulsion output) are plotted in a few figures as a function of compression ratio, gas turbine inlet temperature and working fluid mass flow rate.It should be noted that this online course does not deal with costs (capital, operational or maintenance). In this course material, the student gets familiar with the Brayton Cycle, its components, T - s diagram, operation and major performance trends.

Visited 1,734 times
$20.00
3022

Advanced Power Cycle Components/Processes Analysis

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, six different fuels (carbon, hydrogen, sulfur, coal, oil and gas) react with air and oxygen enriched air as the oxidant at different stoichiometry values (stoichiometry => 1) and oxidant inlet temperature values. For compression and expansion, the technical performance of mentioned power cycle components/processes is presented with a given relationship between pressure and temperature.  While for combustion, the technical performance at stoichiometry => 1 conditions and is presented knowing the specific enthalpy values for combustion reactants and products, given as a function of temperature.  This course material provides the compression and expansion T - s diagrams and their major performance trends plotted in a few figures as a function of compression and expansion pressure ratio and working fluid mass flow rate.  For each combustion case considered, combustion products composition on both weight and mole basis is given in tabular form and plotted in a few figures.  Also, flame temperature, stoichiometric oxidant to fuel ratio and fuel higher heating value (HHV) are presented in tabular form and plotted in a few figures.  The provided output data and plots allow one to determine the major combustion performance laws and trends. In this course material, the student gets familiar with the ideal power cycle components/processes and their T - s and h - T diagrams, operation and major performance trends.

Visited 2,004 times
$25.00