VFD Challenges for Shipboard Electrical Power System Design
14 days return policy
Shipping & Delivery
Product details
- ISBN 9781119463382
- Weight: 249g
- Dimensions: 150 x 226mm
- Publication Date: 03 Feb 2020
- Publisher: John Wiley & Sons Inc
- Publication City/Country: US
- Product Form: Paperback
Secure
checkout
Fast Shipping
Easy returns
An in-depth exploration of shipboard power generation and distribution system design that utilizes variable frequency drives
The variable frequency drive (VFD) application is a proven technology for shore-based applications. However, shore-based VFDs often are unsuitable for shipboard applications because the power generation and distribution fundamentals are completely different. VFD Challenges for Shipboard Electrical Power System Design explores the problems presented by variable frequency drives as they are applied in shipboard power generation and distribution system design and offers solutions for meeting these challenges.
VFDs with configurations such as six pulse drive, 12 pulse drive, 18 pulse drive, active front end, pulse width modulation and many others generate many different levels of harmonics. These harmonics are often much higher than the regulations allow. This book covers a range of techniques used to provide ships with efficient energy that minimizes mechanical and electrical stress. This important book:
- Offers a comparison of shipboard grounding and VFD grounding
- Contains an analysis of the VFD effect in terms of shipboard power quality
- Includes specific examples of Department of Transportation standards regarding VFDs
Written for commercial and naval engineers designing ships and/or shipboard power systems, VFD Challenges for Shipboard Electrical Power System Design is a comprehensive resource that addresses the problems and solutions associated with shipboard applications of VFD.
Mohammed M. Islam is R&D Manager of Applied Science at Northrop Grumman Ship Systems. He has forty-five years of diversified shipboard electrical engineering experience and has played significant roles in every part of new shipbuilding and ship modernization engineering.
