Đang chuẩn bị liên kết để tải về tài liệu:
Vessel Collision Design of Bridges
Đang chuẩn bị nút TẢI XUỐNG, xin hãy chờ
Tải xuống
Vessel Collision Design of Bridges 60.1 60.2 Introduction Background • Basic Concepts • Application 60 Initial Planning Selection of Bridge Site • Selection of Bridge Type, Configuration, and Layout • Horizontal and Vertical Clearance • Approach Spans • Protection Systems 60.3 Waterway Characteristics Channel Layout and Geometry • Water Depth and Fluctuations • Current Speed and Direction 60.4 Vessel Traffic Characteristics Physical and Operating Characteristics • Vessel Fleet Characteristics 60.5 60.6 Collision Risk Analysis Risk Acceptance Criteria • Collision Risk Models Vessel Impact Loads Ship Impact • Barge Impact • Application of Impact Forces Michael Knott Moffatt & Nichol Engineers. | Knott M. Pruca Z. Vessel Collison Design of Bridges. Bridge Engineering Handbook. Ed. Wai-Fah Chen and Lian Duan Boca Raton CRC Press 2000 60 Vessel Collision Design of Bridges 60.1 Introduction Background Basic Concepts Application 60.2 Initial Planning Selection of Bridge Site Selection of Bridge Type Configuration and Layout Horizontal and Vertical Clearance Approach Spans Protection Systems 60.3 Waterway Characteristics Channel Layout and Geometry Water Depth and Fluctuations Current Speed and Direction 60.4 Vessel Traffic Characteristics Physical and Operating Characteristics Vessel Fleet Characteristics 60.5 Collision Risk Analysis Risk Acceptance Criteria Collision Risk Models 60.6 Vessel Impact Loads Ship Impact Barge Impact Application of Impact Forces 60.7 Bridge Analysis and Design Michael Knott 60.8 Bridge Protection Measures Moffatt Nichol Engineers Physical Protection Systems Aids to Navigation Zolan Prucz Alternatives Modjeski and Masters Inc. 60.9 Conclusions Notations The following symbols are used in this chapter. The section number in parentheses after definition of a symbol refers to the section or figure number where the symbol first appears or is identified. AF annual frequency of bridge element collapse Section 60.5.2 Bm beam width of vessel Figure 60.2 Bp width of bridge pier Figure 60.2 DWT size of vessel based on deadweight tonnage one tonne 2205 lbs 9.80 kN Section 60.4.1 H ultimate bridge element strength Section 60.5.2 N number of one-way vessel passages through the bridge Section 60.5.2 P vessel collision impact force Section 60.5.2 PBh ship collision impact force for head-on collision between ship bow and a rigid object Section 60.6.1 PDH ship collision impact force between ship deckhouse and a rigid superstructure Section 60.6.1 2000 by CRC Press LLC PMT ship collision impact force between ship mast and a rigid superstructure Section 60.6.1 PS ship collision impact force for head-on collision between ship bow and a rigid object .