NYSSPE has partnered with Sem-Train, LLC - New York State Approved Sponsor
Cost: $325 Members / $350 Non-Members
This course caters to Engineers, Technicians, Facilities Managers, Energy Professionals, Architects and other professionals who are interested in enhancing their understanding of the concept of energy and utilities, and would like to learn about 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.
Learning Objectives - Upon successful completion of this course, participants will be able to:
• Apply principles and concepts associated with common forms of energy (electric, hydrocarbon, compressed air, steam, stack heat, etc.) in an industrial or commercial environment to assess the energy intensity and energy productivity differences between alternative manufacturing and process systems, with a clear understanding of the physics and engineering fundamentals of energy in its various forms.
• Apply energy engineering metrics - associated with different forms of energy, i.e. electrical, hydrocarbon fuel energy, heat energy, pressure energy, etc. - to quantify how much energy is being consumed and how efficiently energy is being utilized in operations and facilities of various types. Examples of energy metrics include MMBtus, MMBtus/ton or product, kWh, kWh/ton of product, Joules, etc.
• Identify, evaluate and implement high value energy conservation opportunities based on energy facts, energy engineering principles, application of SCADA, Supervisory Controls and Data Acquisition, type Energy Management Systems (EMS). Develop architecture and design of EMS systems for specific energy measurement, real-time monitoring – and in some cases – energy conservation related control applications.
• Apply proven energy engineering and equipment sustainability best practices that can minimize overall energy intensity and enhance equipment durability in industrial and commercial facilities.
• Apply a three-faceted approach in the development of corporate or facility level energy management plan. This three-faceted approach includes: (1) Focus on Energy Productivity Improvement, (2) Focus on Energy Cost Minimization and (3) Focus on Energy Supply/Source.
• Apply Power Factor and Load Factor improvement engineering principles and methods to enhances electrical power quality, electrical energy productivity and electrical equipment sustainability. Calculation of power factor and load factor will be illustrated in addition to quantification of the benefits realized through these efforts.
• Distinguish between high efficacy and low efficacy lighting systems on the basis of watts/lumen or watts/foot-candle and apply coefficient of utilization approach in the design and specification of facility illumination systems – all, ultimately precipitating in lower overall energy intensity.
• Apply proven best practices in the HVAC realm to achieve optimal HVAC system operation and higher energy productivity.
• Apply proven best practices in the operation and maintenance of compressed air systems to maximize their utilization and to minimize energy intensity associated with compressed air generation, distribution and consumption.
- Energy Basics and its Various Forms. Energy Facts and Statistics
- Electricity Basics and Electrical Rate Schedules
- EMS/BMS, Energy Monitoring and Building Monitoring Systems
Morning Break 15 minutes
- Power Factor Correction
- Energy Conservation in Lighting
- Energy Conservation in HVAC Systems, Steam Systems and Compressed Air Systems
- Energy Audits
Afternoon Break 15 minutes
- Energy Conservation Tips; “The Low Hanging Fruit”
- Financial Justification and Implementation of Energy Projects
Speakers Bio: Professor Bobby Rauf, P.E, C.E.M, MBA