Interactive & Video Discount Package - Kentucky Energy Efficiency 30 PDH

This online engineering PDH interactive presentation provides an overview on cool roofs which are designed to maintain a lower roof temperature than traditional roofs while the sun is shining.

Cool roofs have surfaces that reflect sunlight and emit heat more efficiently than hot or dark roofs, keeping them cooler in the sun. In contrast, hot roofs absorb much more solar energy than cool roofs, making them hotter.

Cool roofs can be desirable to a building owner for several reasons. They can reduce energy bills by decreasing air conditioning needs, improve indoor thermal comfort for spaces that are not air conditioned, and decrease roof operating temperature, which may extend roof service life. Cool roofs can also benefit the environment, and policymakers may issue cool roof regulations to provide these benefits to the society.

This 1 PDH online interactive presentation is intended primarily for engineers, building owners and professionals who are interested in learning more about cool roofs to determine whether cool roofing is an appropriate energy efficiency option for a particular building.

This online engineering PDH interactive presentation provides an overview of the basic principles for the design and installation of energy-efficient windows, doors, and skylights in residential buildings.

Residential buildings account for about 21% of total energy consumption in the United States, and windows alone are responsible for 25% to 30% of residential heating and cooling energy use. The U.S. Department of Energy estimates that upgrading the nation's current window stock to meet DOE's long-term performance goals could save more than 2 quadrillion BTU. Clearly, expanding the use of energy-efficient windows should be of interest to engineers and others interested in reducing energy consumption.

This presentation will walk you through the process of selecting energy-efficient windows, doors, and skylights in new and existing residential construction in all U.S. climate zones. A discussion is given on energy performance for many window types and window coverings, and guidance is included for reducing energy lost through windows, doors, and skylights.

This 1 PDH online course is applicable to engineers and designers, as well as residents themselves, who are interested in saving energy in new and existing residential buildings.

This online engineering PDH interactive presentation provides a brief outline on the basics of hydroelectric power and how its favorable characteristics continue to make it an attractive and efficient source of electric energy.

Hydropower has played an important part in the development of this Nation's electric power industry and provides about 96 percent of the renewable energy in the United States. Considered as one of the many renewable sources of energy, hydroelectric powerplants do not use up resources to create electricity nor do they pollute the air, land, or water, as other powerplants may. In addition, hydropower is an essential contributor in the national power grid because of its ability to respond quickly to rapidly varying loads or system disturbances, which base load plants with steam systems powered by combustion or nuclear processes cannot accommodate.

This presentation highlights the basics of hydroelectric power, while also documenting cost benefits of utilizing hydropower as an efficient source of electric energy. It provides a detailed description on the types of hydropower turbines and introduces modern concepts such as pumped storage hydropower. The presentation also illustrates the development of hydropower through history.

This 1 PDH online interactive presentation is applicable to practitioners, engineers, and designers who are interested in adopting hydroelectric power in future applications.

This online engineering PDH interactive presentation provides a brief overview of the environmental and economic benefits of electricity production from geothermal resources.

Energy from geothermal resources has benefited humankind from its earliest origins. Prehistoric civilizations used hot springs and steam discharges for cooking, heating, and therapeutic bathing. Today, geothermal power plants operating around the world are proof that the Earth’s thermal energy is readily converted to electricity in geologically active areas.

Many communities, commercial enterprises, universities, and public facilities in the western United States are heated directly with the water from underground reservoirs. For the home-owner or building owner anywhere in the United States, the emergence of geothermal heat pumps brings the benefits of geothermal energy to everyone’s doorstep.

This 1 PDH online interactive presentation is applicable to owners of homes, businesses, or greenhouses who want to diversify their electricity supply and reduce the environmental impact and costs of their energy use.

This online engineering PDH interactive presentation provides a brief summary on hydrogen and fuel cells technologies, including production resources, processes, goals, and challenges.

The Hydrogen and Fuel Cell Technologies Office (HFTO), aligned with the strategic vision and goals of the U.S. Department of Energy (DOE), leads federal efforts to promote the commercial viability of hydrogen and fuel cell technologies through a broad portfolio of research, development, and demonstration activities.

This presentation demonstrates how HFTO's efforts aim to help realize a clean, equitable energy future while spurring innovation and building a strong domestic economy by discussing the different types of hydrogen production resources, hydrogen production processes and the way they work. It also presents a study of the processes of hydrogen delivery, on-site storage, and dispensing technologies and the associated goals and challenges. The presentation concludes by discussing the different types of fuel cells, their systems and components, and the way they work.

This 2 PDH online interactive presentation is applicable to mechanical engineers, environment personnel, clean energy providers, and technical staff who are interested in gaining a better understanding of hydrogen and fuel cell technologies.

This online engineering PDH interactive presentation provides an overview of the basic principles of cool pavements and how they work to reduce the heat island effect.

Cool pavements refer to a range of established and emerging materials. These pavement technologies tend to store less heat and may have lower surface temperatures compared with conventional products. As concerns about elevated summertime temperatures rise, researchers and policymakers are directing more attention to the impact pavements have on local and global climates.

This presentation demonstrates the factors involved in cool pavements and how they can be modified to address the problem of urban heat islands. It also shows how location-specific information can be obtained to update existing technologies, enhance the pavement selection process, and implement new approaches to cool pavements, thus targeting increased benefits and reduced life-cycle costs.

This 1 PDH online course is intended for environmental engineers, researchers, decision-makers and local experts interested in better understanding and implementing cool pavements.

This online engineering PDH interactive presentation provides a summary on the first part of the Solar Futures Study, which includes the discussion of solar futures scenarios and their core results.
 

The U.S. electric grid is one of the world’s largest machines, comprising millions of miles of transmission and distribution lines that connect thousands of large-scale electricity generators to end users. The grid has undergone tremendous change in the past decades, in part due to innovations in the solar energy industry. In 2020, fossil fuel combustion continued to generate most U.S. electricity, emitting around 1.45 billion metric tons (gigatons, Gt) of heat-trapping carbon dioxide. On its current trajectory, the United States is unlikely to meet its targets for keeping global temperature rise below 2°C as specified under the 2015 Paris Agreement.
 

This presentation introduces the first part of the Solar Futures Study which discusses the goals of decarbonizing the U.S. electricity grid by 2035 and shifting the nation onto an irreversible path to a 100% clean-energy economy, reaching net-zero emissions by 2050—while strengthening the American economy, creating well-paying domestic jobs, conserving natural resources, and ensuring that the benefits and costs of the clean energy transition are equitably distributed. The Solar Futures Study uses the state-of-the-art modeling capabilities of the U.S. National Renewable Energy Laboratory (NREL) to develop and evaluate three core scenarios. It also continues to explore what it will take to achieve solar deployment at the pace and scale envisioned in these scenarios, by exploring the synergies between solar technologies and energy storage, and the necessary transformations of the U.S. electric grid.
 

This online engineering PDH interactive presentation provides an overview of renewable energy, its benefits and current state in the U.S.

Renewable energy is energy produced from sources like the sun and wind that are naturally replenished and do not run out. It can be used for electricity generation, space and water heating and cooling, and transportation. Non-renewable energy, in contrast, comes from finite sources that could get used up, such as fossil fuels like coal and oil.

This 2 PDH online interactive presentation is intended primarily for engineers and professionals who are interested in learning more about different renewable energy systems and their benefits.   

This online engineering PDH interactive presentation provides a brief guidance on water use and management in mechanical and other systems such as bathroom suites, landscaping, and irrigation systems.

Tracking water use is an important first step in managing and reducing property water use. The U.S. Environmental Protection Agency (EPA) WaterSense® program encourages property managers and owners to regularly input their buildings’ water use data in ENERGY STAR® Portfolio Manager®, an online tool for tracking energy and water consumption, in order to develop the EPA Water Score for multifamily housing.

The presentation first tackles the basics principles behind each of the mechanical systems. In order to familiarize with the best maintenance and management practices, the presentation then tackles the retrofit and replacement options that help in reducing water use and thereby increasing efficiency. The presentation finally describes calculations and assumptions required for the saving water in the described mechanical applications.

This 1 PDH online interactive presentation is applicable to multifamily housing property owners and managers in search for improving their water management, property water use, and subsequently their EPA Water Score. In addition, many of the best practices in this presentation can be used by facility managers for non-residential properties.

This online PDH video presentation provides an overview of what energy usage and demand are, the wide-ranging benefits of planning and implementing a smart energy conservation program, and proven approaches to conduct and communicate a successful energy audit.

Energy is a growing cost center for most businesses, perhaps only behind labor and real estate. Not only is energy a growing cost, but it is also a commodity that in some areas is shrinking in availability, causing a potential existential threat for some manufacturing facilities. At the same time, there has literally been a revolution in energy technology in just the last few years, making improvement in efficiency affordably possible. Many companies, municipalities, etc. are beginning to understand that improved energy efficiency not only saves them direct costs, but also reduces other expenses and can improve productivity, too. This comes by performing a quality energy audit. This webinar will explain some basics in determining one’s energy profile, new technologies to reduce energy usage and demand, and approaches for a successful energy audit.

This online engineering PDH video presentation covers the principles of passive solar heating, such as basic types of systems, their description, and the components making up any passive solar system. It identifies and discusses sources of data on heating requirements and available solar radiation at locations throughout the U.S. It presents a method for estimating performance of a passive system of specified size at a specified size at a specified location.  It illustrates data retrieval and calculations through numerous examples.

Passive solar heating is an alternative source of energy mechanism that is becoming more and more desirable. Passive solar heating of a building is using the sun’s radiant energy and converting it to thermal energy (heat) when it is absorbed by the building. Some of the absorbed thermal energy will directly heat the building, and some will be stored in components of the building.

This 4 PDH online video presentation is intended primarily for chemical, environmental, mechanical, industrial, and energy engineers, and architects who are interested in learning more about passive solar heating.

This online engineering PDH video presentation presents the methods, best practices and strategies for reducing energy demand, energy consumption and energy costs in an industrial or commercial setting.

The importance and pertinence of three faceted energy outlook is explained and discussed. This course addresses usage, cost and conservation of energy in its more common forms such as electrical, compressed air, natural gas, steam and heat, etc. This course will familiarize attendees with various ways for reducing energy cost through well planned, specific and results oriented projects. The instructor - with years of experience in energy project implementation and energy program/process development – shows how substantial energy cost reduction can be achieved with little or no capital investment. Some of such projects can be pursued in collaboration with and through sponsorship of local utility companies. Some of the myths associated with electricity and gas contracts will be exposed. Energy audits and tools needed to perform audits will be discussed. Practical examples of energy monitoring systems will be presented. The attendees will also be, briefly, introduced to some of the more proven renewable energy alternatives.

This 7 PDH video presentation is designed for engineers, technicians, facilities managers, energy professionals, architects and other professionals who are interested in enhancing their understanding of the concept of energy management and conservation.

This engineering online PDH video presentation will establish, through slides and discussions, the impact of Distributed Energy Resources (DERs) while highlighting the role of energy storage on the electric transmission and distribution grid.

This presentation will discuss the critical role energy storage will play in the 100% clean and renewable energy systems by 2050 or sooner. Various energy storage stacking options will be discussed in great detail including:

• Deferring transmission and distribution load relief projects
• Peak shifting
• Microgrids
• Solar smoothing
• Non-wire solutions

Additionally, various energy storage types, applications, key energy storage components, critical information, and battery management systems will be discussed. We will highlight the impact of energy storage on the power generation, transmission, and distribution systems as well as utilizing DERs’ inverters and other fast acting electronics to adjust the voltage. Solar performance during sunny, cloudy and peak days will be analyzed as well as the impact of the frequency market energy storage.

This 3 PDH online video presentation is intended for electrical, mechanical and computer engineers as well as others involved in a technical and non-technical level in the renewable energy world who are interested in learning more about the future of the energy systems and the impact of solar, wind, energy storage, fuel-cells, distributed generation, etc. and how to maintain a reliable grid.