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Vermont-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Vermont Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Vermont Board of Professional Engineering. Instructor: Juan Pesante, PEVermont – Laws, Rules, & Ethics for Professional Engineers: 3 PDH
In this course the student will study the Vermont Board of Professional Engineering Statutes and Codes, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Vermont Laws, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
West Virginia-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus West Virginia Codes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the West Virginia State Board of Registration for Engineers.Instructor: Juan Pesante, PEWest Virginia – Codes, Rules, & Ethics for Professional Engineers: 3 PDH
In this course the student will study the West Virginia State Board of Registration for Engineers Codes and Rules, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: West Virginia Codes, Rules & Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Wyoming-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Wyoming Statutes, Regulations & Ethics course that will earn 30 PDH guaranteed to be accepted by the Wyoming Board of Professional Engineers and Professional Land Surveyors.Instructor: Juan Pesante, PEWyoming – Statutes, Regulations, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Wyoming Board of Professional Engineers and Professional Land Surveyors Statutes & Regulations, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Wyoming Statutes, Regulations & Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Montana-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Montana Rules, Statutes & Ethics course that will earn 30 PDH guaranteed to be accepted by the Montana Board of Professional Engineers and Professional Land Surveyors. Instructor: Juan Pesante, PEMontana – Rules, Statutes, and Ethics for Professional Engineers: 3 PDH
In this course the professional engineering student will study the Montana Board of Professional Engineers and Professional Land Surveyors Rules & Statutes, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Montana Rules, Statutes and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
New Hampshire-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus New Hampshire Statutes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the New Hampshire Board of Professional Engineers. Instructor: Juan Pesante, PENew Hampshire – Statutes, Rules and Ethics for Professional Engineers: 3 PDH
In this course the student will study the New Hampshire Board of Professional Engineers Statutes and Rules including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: New Hampshire Statutes Rules & Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
North Dakota-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus North Dakota Statutes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the North Dakota State Board of Registration for Professional Engineers & Land Surveyors. Instructor: Juan Pesante, PENorth Dakota – Statutes, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the North Dakota State Board of Registration for Professional Engineers and Land Surveyors Statutes and Rules including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: North Dakota Statutes, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Oklahoma-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Oklahoma Statutes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Oklahoma State Board of Licensure for Professional Engineers and Land Surveyors. Instructor: Juan Pesante, PEOklahoma – Statutes, Rules, & Ethics for Professional Engineers: 3 PDH
In this course the student will study the Oklahoma State Board of Licensure for Professional Engineers and Land Surveyors Statutes and Rules including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Oklahoma Statutes, Rules & Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Oregon-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Oregon Statutes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Oregon State Board of Examiners for Engineering and Land Surveying. Instructor: Juan Pesante, PEOregon – Statutes, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Oregon State Board of Examiners for Engineering and Land Surveying Statutes and Rules, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Oregon Statutes, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
South Carolina-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus South Carolina Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the South Carolina Board of Engineers and Surveyors. Instructor: Juan Pesante, PESouth Carolina – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the South Carolina Board of Engineers and Surveyors Laws and Rules including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: South Carolina Laws, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
South Dakota-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus South Dakota Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the South Dakota Board of Technical Professions. Instructor: Juan Pesante, PESouth Dakota – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the South Dakota Board of Technical Professions Laws and Rules, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: South Dakota Laws, Rules & Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Utah-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Utah Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Utah Professional Engineers and Professional Land Surveyors Licensing Board.Instructor: Juan Pesante, PEUtah – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Utah Professional Engineers and Professional Land Surveyors Licensing Board Laws and Rules, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Utah Laws, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Missouri-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Missouri Statutes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Missouri Board for Architects, Professional Engineers, Professional Land Surveyors, and Landscape Architects. Instructor: Juan Pesante, PEMissouri – Rules, Statutes & Ethics for Professional Engineers: 3 PDH
In this course the student will study the Missouri Board for Architects, Professional Engineers, Professional Land Surveyors, and Landscape Architects Rules and Statutes including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Missouri Statutes, Codes and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Maine-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Maine Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Maine State Board of Licensure for Professional Engineers. Instructor: Juan Pesante, PEMaine – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Maine State Board of Licensure for Professional Engineers Laws and Rules, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Maine Laws, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Missouri-Mechanical Engineering Package #3: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Mechanical Engineering courses plus Missouri Statutes, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Missouri Board for Architects, Professional Engineers, Professional Land Surveyors, and Landscape Architects. Instructor: Seth Grablow, PEMissouri – Rules, Statutes & Ethics for Professional Engineers: 3 PDH
In this course the student will study the Missouri Board for Architects, Professional Engineers, Professional Land Surveyors, and Landscape Architects Rules and Statutes including Professional Engineering Ethics.
Best Practices for Energy-Efficient Data Center Design: 4 PDH
In this course the student will understand the principles, strategies, and technologies used to design energy-efficient data centers, including IT systems, environmental controls, cooling systems, air management, and energy performance metrics.
Continuous Energy Improvement in Motor Driven Systems: 5 PDH
In this course the student will understand the principles, strategies, and best practices for achieving continuous energy improvement in motor-driven systems. They will learn how to develop and implement motor management programs, assess motor system efficiency, apply energy-saving technologies, and adopt life-cycle cost approaches to decision-making.
Fuel Cell Technology and Performance: 4 PDH
In this course the student will understand the fundamental principles, design, operation, and performance characteristics of various fuel cell technologies, including their system components, fuel processing, and real-world applications.
Geothermal Heat Pump Systems: 4 PDH
In this course the student will understand how geothermal (geoexchange) heat pump systems function, including heat transfer mechanisms, system components, ground loop configurations, performance considerations, and environmental and economic impacts.
Guide to Chilled Water Plant Design: 5 PDH
In this course the student will understand how to design, operate, and optimize chilled water plants with respect to energy efficiency, load variability, system configurations, equipment characteristics, and instrumentation strategies. They will develop a systems-level understanding of chilled water distribution, including how to manage load uncertainty, evaluate life-cycle costs, and integrate effective controls.
Vacuum Technology and Applications: 5 PDH
In this course the student will gain a comprehensive understanding of vacuum technology, including its principles, terminology, pump technologies, measurement methods, system design, leak detection, and application across industries. They will learn how vacuum environments are created, maintained, and optimized for various engineering and industrial processes.
Preview Course: Missouri Statutes, Codes and Ethics
Preview Course: Best Practices for Energy-Efficient Data Center Design
Preview Course: Continuous Energy Improvement in Motor Driven Systems
Preview Course: Fuel Cell Technology and Performance
Preview Course: Geothermal Heat Pump Systems
Preview Course: Guide to Chilled Water Plant Design
Preview Course: Vacuum Technology and Applications - Sale!
Kentucky-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Kentucky Statutes, Regulations & Ethics course that will earn 30 PDH guaranteed to be accepted by the Kentucky Board of Engineers and Land Surveyors. Instructor: Juan Pesante, PEKentucky – Statutes, Regulations and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Kentucky Board of Engineers and Land Surveyors Statutes and Regulations, including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Kentucky Statutes, Regulations and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Maine-Mechanical Engineering Package #3: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Mechanical Engineering courses plus Maine Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Maine State Board of Licensure for Professional Engineers. Instructor: Seth Grablow, PEMaine – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Maine State Board of Licensure for Professional Engineers Laws and Rules, including Professional Engineering Ethics.
Best Practices for Energy-Efficient Data Center Design: 4 PDH
In this course the student will understand the principles, strategies, and technologies used to design energy-efficient data centers, including IT systems, environmental controls, cooling systems, air management, and energy performance metrics.
Continuous Energy Improvement in Motor Driven Systems: 5 PDH
In this course the student will understand the principles, strategies, and best practices for achieving continuous energy improvement in motor-driven systems. They will learn how to develop and implement motor management programs, assess motor system efficiency, apply energy-saving technologies, and adopt life-cycle cost approaches to decision-making.
Fuel Cell Technology and Performance: 4 PDH
In this course the student will understand the fundamental principles, design, operation, and performance characteristics of various fuel cell technologies, including their system components, fuel processing, and real-world applications.
Geothermal Heat Pump Systems: 4 PDH
In this course the student will understand how geothermal (geoexchange) heat pump systems function, including heat transfer mechanisms, system components, ground loop configurations, performance considerations, and environmental and economic impacts.
Guide to Chilled Water Plant Design: 5 PDH
In this course the student will understand how to design, operate, and optimize chilled water plants with respect to energy efficiency, load variability, system configurations, equipment characteristics, and instrumentation strategies. They will develop a systems-level understanding of chilled water distribution, including how to manage load uncertainty, evaluate life-cycle costs, and integrate effective controls.
Vacuum Technology and Applications: 5 PDH
In this course the student will gain a comprehensive understanding of vacuum technology, including its principles, terminology, pump technologies, measurement methods, system design, leak detection, and application across industries. They will learn how vacuum environments are created, maintained, and optimized for various engineering and industrial processes.
Preview Course: Maine Laws, Rules and Ethics
Preview Course: Best Practices for Energy-Efficient Data Center Design
Preview Course: Continuous Energy Improvement in Motor Driven Systems
Preview Course: Fuel Cell Technology and Performance
Preview Course: Geothermal Heat Pump Systems
Preview Course: Guide to Chilled Water Plant Design
Preview Course: Vacuum Technology and Applications - Sale!
Indiana-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartIndiana Approved Provider: CE21800049Six Electrical Engineering courses plus Indiana Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Indiana State Board of Registration for Professional Engineers. Instructor: Juan Pesante, PEIndiana – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Indiana State Board of Registration for Professional Engineers Laws and Rules including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Indiana Laws, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Kentucky-Mechanical Engineering Package #3: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Mechanical Engineering courses plus Kentucky Statutes, Regulations & Ethics course that will earn 30 PDH guaranteed to be accepted by the Kentucky Board of Engineers and Land Surveyors. Instructor: Seth Grablow, PEKentucky – Statutes, Regulations and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Kentucky Board of Engineers and Land Surveyors Statutes and Regulations, including Professional Engineering Ethics.
Best Practices for Energy-Efficient Data Center Design: 4 PDH
In this course the student will understand the principles, strategies, and technologies used to design energy-efficient data centers, including IT systems, environmental controls, cooling systems, air management, and energy performance metrics.
Continuous Energy Improvement in Motor Driven Systems: 5 PDH
In this course the student will understand the principles, strategies, and best practices for achieving continuous energy improvement in motor-driven systems. They will learn how to develop and implement motor management programs, assess motor system efficiency, apply energy-saving technologies, and adopt life-cycle cost approaches to decision-making.
Fuel Cell Technology and Performance: 4 PDH
In this course the student will understand the fundamental principles, design, operation, and performance characteristics of various fuel cell technologies, including their system components, fuel processing, and real-world applications.
Geothermal Heat Pump Systems: 4 PDH
In this course the student will understand how geothermal (geoexchange) heat pump systems function, including heat transfer mechanisms, system components, ground loop configurations, performance considerations, and environmental and economic impacts.
Guide to Chilled Water Plant Design: 5 PDH
In this course the student will understand how to design, operate, and optimize chilled water plants with respect to energy efficiency, load variability, system configurations, equipment characteristics, and instrumentation strategies. They will develop a systems-level understanding of chilled water distribution, including how to manage load uncertainty, evaluate life-cycle costs, and integrate effective controls.
Vacuum Technology and Applications: 5 PDH
In this course the student will gain a comprehensive understanding of vacuum technology, including its principles, terminology, pump technologies, measurement methods, system design, leak detection, and application across industries. They will learn how vacuum environments are created, maintained, and optimized for various engineering and industrial processes.
Preview Course: Kentucky Statutes, Regulations and Ethics
Preview Course: Best Practices for Energy-Efficient Data Center Design
Preview Course: Continuous Energy Improvement in Motor Driven Systems
Preview Course: Fuel Cell Technology and Performance
Preview Course: Geothermal Heat Pump Systems
Preview Course: Guide to Chilled Water Plant Design
Preview Course: Vacuum Technology and Applications - Sale!
Idaho-Electrical Engineering Package: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartSix Electrical Engineering courses plus Idaho Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Idaho Board of Licensure of Professional Engineers and Professional Land Surveyors. Instructor: Juan Pesante, PEIdaho – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Idaho Board of Licensure of Professional Engineers and Professional Land Surveyors Laws and Rules including Professional Engineering Ethics.
Design and Development of Hybrid Power Plants: 4 PDH
In this course the student will understand the hybrid power plant and the necessary design and planning details required to ensure reliable and efficient means for power production.
Compressed Air Energy Storage and Pumped Storage Hydropower Concepts: 4 PDH
In this course the student will understand understand current Compressed Air Energy Storage (CAES) and Pumped Storage Hydropower (PSH) technologies and explore future advances of this technology by examining the feasibility of a variety of different concepts.
Energy Storage Technology Cost and Performance: 4 PDH
In this course the student will understand a variety of different energy storage technologies and explore their advantages and disadvantages with an in-depth cost and performance comparison. This course follows the report: Energy Storage Technology and Cost Characterization Report, published by the U.S. Department of Energy (DOE).
Electrical Storage Guide for Electrical Engineers: 5 PDH
This course provides a thorough overview of current electrical storage technologies including batteries, flywheels, compressed air energy storage (CAES), and pumped storage hydropower (PSH) and is a how-to guide for engineers to aid in the selection, procurement, installation, and/or operation of stationary energy storage systems in today’s electric grid.
Electrification-Power System Evolution and Infrastructure Development: 5 PDH
In this course the student will understand Electrification, the shift from non-electric to electric sources of energy at the point of final consumption, and an analysis of the potential impacts of widespread electrification on the evolution of the U.S. electricity system. This course follows the guide: Electrification Futures Study: Scenarios of Power System Evolution and Infrastructure Development for the United States, published by the National Renewable Energy Laboratory.
Best Practices for O&M of Photovoltaic and Energy Storage Systems: 5 PDH
In this course the student will understand how to reduce the cost and improve the effectiveness of operations and maintenance (O&M) for photovoltaic (PV) systems and combined PV and energy storage systems. The course follows the guide: Best Practices for O&M of Photovoltaic and Energy Storage Systems 3rd edition, published by the National Renewable Energy Laboratory.
Preview Course: Idaho Laws, Rules and Ethics
Preview Course: Design and Development of Hybrid Power Plants
Preview Course: CAES and PSH Concepts
Preview Course: Energy Storage Technology Cost and Performance
Preview Course: Electrical Storage Guide for Electrical Engineers
Preview Course: Electrification-Power System Evolution and Infrastructure Development
Preview Course: Best Practices for O&M of Photovoltaic and Energy Storage Systems - Sale!
Indiana-Mechanical Engineering Package #3: 30 PDH
Original price was: $180.00.$90.00Current price is: $90.00. Add to cartIndiana Approved Provider: CE21800049Six Mechanical Engineering courses plus Indiana Laws, Rules & Ethics course that will earn 30 PDH guaranteed to be accepted by the Indiana State Board of Registration for Professional Engineers. Instructor: Seth Grablow, PEIndiana – Laws, Rules, and Ethics for Professional Engineers: 3 PDH
In this course the student will study the Indiana State Board of Registration for Professional Engineers Laws and Rules including Professional Engineering Ethics.
Best Practices for Energy-Efficient Data Center Design: 4 PDH
In this course the student will understand the principles, strategies, and technologies used to design energy-efficient data centers, including IT systems, environmental controls, cooling systems, air management, and energy performance metrics.
Continuous Energy Improvement in Motor Driven Systems: 5 PDH
In this course the student will understand the principles, strategies, and best practices for achieving continuous energy improvement in motor-driven systems. They will learn how to develop and implement motor management programs, assess motor system efficiency, apply energy-saving technologies, and adopt life-cycle cost approaches to decision-making.
Fuel Cell Technology and Performance: 4 PDH
In this course the student will understand the fundamental principles, design, operation, and performance characteristics of various fuel cell technologies, including their system components, fuel processing, and real-world applications.
Geothermal Heat Pump Systems: 4 PDH
In this course the student will understand how geothermal (geoexchange) heat pump systems function, including heat transfer mechanisms, system components, ground loop configurations, performance considerations, and environmental and economic impacts.
Guide to Chilled Water Plant Design: 5 PDH
In this course the student will understand how to design, operate, and optimize chilled water plants with respect to energy efficiency, load variability, system configurations, equipment characteristics, and instrumentation strategies. They will develop a systems-level understanding of chilled water distribution, including how to manage load uncertainty, evaluate life-cycle costs, and integrate effective controls.
Vacuum Technology and Applications: 5 PDH
In this course the student will gain a comprehensive understanding of vacuum technology, including its principles, terminology, pump technologies, measurement methods, system design, leak detection, and application across industries. They will learn how vacuum environments are created, maintained, and optimized for various engineering and industrial processes.
Preview Course: Indiana Laws, Rules and Ethics
Preview Course: Best Practices for Energy-Efficient Data Center Design
Preview Course: Continuous Energy Improvement in Motor Driven Systems
Preview Course: Fuel Cell Technology and Performance
Preview Course: Geothermal Heat Pump Systems
Preview Course: Guide to Chilled Water Plant Design
Preview Course: Vacuum Technology and Applications
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