Skip to main content

SEMINAR ON SYSTEM’S LOSS REDUCTION AND ENERGY LOSS MANAGEMENT

Resource Speaker: George Anders Ph.D

For those who are near Toronto, Canada, Dr. Sanders will be conducting a 1-day seminar on Oct. 17, 2012. The overview of his seminar will focus on understanding losses in Electric Utility Distribution Systems particularly on identifying, estimating, and reducing losses.  To view the details and the complete outline of his discussion, just continue with this article.

OverviewEnergy Loss within Distribution Networks is a critical issue which can result in increased costs to clients and is a major concern of regulatory bodies such as the Ontario Energy Board. Utility engineers need to understand the course of the losses, the methods for estimating the losses, and how to reduce the losses in a cost effective manner. This course provides the knowledge and calculation methods in the estimation of losses, and discusses techniques to reduce potential loss.

Course Outline
Download course outline here


Register Now
Register for the seminar here

Training Location
Toronto
800 Kipling Ave., Unit 2
Toronto, Ontario, M8Z 5G5

ContactPhone: 416-207-6000
Fax: 416-207-6532
Mail: info@kinectrics.com

Contact PersonCherie Ferrari
Phone: 416-207-6000 x6911
Mail: training@kinectrics.com

Comments

Popular posts from this blog

PARTS OF A POWER TRANSFORMER

What are the name of the basic parts of a Power Transformer? We can not deny the fact that only a handful of electrical engineering students are presently familiar with power transformers especially on what it looks like. Unlike a transformer we found in our homes, a power transformer’s appearance and construction is somewhat more complicated. It is not just a simple winding with a primary and secondary terminal although basically any transformer has one. The function that a power transformer plays in an electrical system is very important that an electric utility can not afford to loss it during its operation. Our discussion here will focus more on the basic parts and functions of a power transformer that are usually tangible whenever you go to a substation . Although not all power transformers are identical, nonetheless they all have the following listed parts in which the way of construction may differ.

ELECTRIC MOTOR FRAME SIZE STANDARD SPECIFICATIONS

ELECTRIC MOTOR FRAME SIZE STANDARD SPECIFICATIONS How is electric motor frame size being specified? Motor frame dimensions have been standardized with a uniform frame size numbering system. This system was developed by NEMA and specific frame sizes have been assigned to standard motor ratings based on enclosure, horsepower and speed. The current standardized frames for integral horsepower induction motors ranges from 143T to 445T. These standards cover most motors in the range of one through two hundred horsepower. Typical example of where you can locate the frame is shown in Fig 1.2.D – Frame No. The numbers used to designate frame sizes have specific meanings based on the physical size of the motor. Some digits are related to the motor shaft height and the remaining digit or digits relate to the length of the motor. The rerate, or frame size reduction programs were brought about by advancements in motor technology relating mainly to higher temperature ratings of insulating mate...

ELECTRIC MOTOR NAMEPLATE SPECIFICATIONS

How do we interpret an electric motor nameplate? Motor standards are established on a country by country basis.Fortunately though, the standards can be grouped into two major categories: NEMA and IEC (and its derivatives). In North America, the National Electric Manufacturers Association (NEMA) sets motor standards, including what should go on the nameplate (NEMA Standard MG 1-10.40 "Nameplate Marking for Medium Single-Phase and Polyphase Induction Motors").