Understanding the Impacts on Electric and Natural Gas Systems and Mitigating Future Risks

For almost eleven days in February of 2021, the entire state of Texas was at risk of losing electric power and natural gas to millions of customers. This Event was caused by exceptional long lasting and widespread cold weather as well as lack of preparation for an extreme cold weather event. This 5-hour course explains what happened to the Texas natural gas and electric systems during this winter storm and the resulting lessons learned that may help minimize the impacts of future events. Â
This course includes a multiple-choice quiz at the end, which is designed to enhance the understanding of the course materials.

Mr. Layton is an electrical engineering graduate of Auburn University and is a licensed Professional Engineer in Georgia. He also holds a master's in business administration and is a senior member of the Institue of Electrical and Electronic Engineers (IEEE). Mr. Layton began his engineering career in 1978 in the electric utility industry. He has significant experience in managing and operating an electric utility. His experience is not only in the area of electric utility operations; he has provided consulting expertise to numerous industrial facilities in the areas of power quality, energy cost control, plant layout, and building efficiency. Mr. Layton has participated in numerous national research projects including as a member of the Electric Power Research Institute’s (EPRI) Electrical System Division Committee where projects were analyzed and reviewed for funding including projects in FACTS technology and static-var compensator projects. He has participated in research projects with the Cooperative Research Network (CRN), most recently in the development of a utility grade PEM fuel cell. Throughout his career, Mr. Layton has been active in training and developing engineers to lead the utility industry. The training has included all facets of the industry, from technical training, to management, and financial analysis.