Exhaust emissions from auxiliary engines operating when ships are at berth is a significant source of pollution in the San Pedro Bay Ports Complex. The Port of Long Beach (POLB) has adopted a Green Port Policy making environmental protection a top priority. As part of the Port's Green Port Policy a reduction of diesel emissions is a goal. The Port has identified vessels that have a high power demand as candidates for implementation of shore-side electrical power or "cold ironing" while at berth. Cold Ironing of ships at berth allows auxiliary engines to be turned off, thus eliminating that source of emission and causing an overall reduction of air pollution in the Port. This paper provides an overview on the design and development of bid documents for Cold Ironing Alaska Class Oil Tankers at the BP oil-unloading terminal located at Berth T121 in the Port of Long Beach. The project will be the first of its kind to cold iron an oil tanker terminal. The paper will focus on the design of the onshore and offshore facilities required to support and implement Cold Ironing, and on the operational and safety issues involved with Cold Ironing of an oil tanker terminal. The facilities include electrical, structural, mechanical and civil design elements. Not all vessels will be cold ironed at the facility. The paper will present the investigation and analysis undertaken to ensure there will be no conflicts between the new facilities and mooring of smaller non-cold ironed vessels and the mooring and berthing of the Alaska Class Oil Tankers. The facilities must be constructed while maintaining operations at the terminal. A discussion of the development of construction documents to accomplish the project while maintaining operations is included. Cold Ironing of the vessels requires that various modifications be made to the vessels which will be performed under a separate project. The paper will discuss the coordination required between the ship and shore side facility designs. Many operational procedures had to be developed for the implementation of the Cold Ironing. The paper will discuss the issues involved and how they were developed as part of the design process. In addition, various safety procedures were developed and will also be discussed. This paper will be of interest to those engaged in the design of cold ironing facilities or providing alternative electrical power to vessels. Specifically the paper will be of interest to those who are engaged in the design of petroleum or LNG terminals because of the nature of these berthing facilities.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Design and Development of Bid Documents for Cold Ironing of Oil Tanker Vessels at Berth T121 at the Port of Long Beach


    Contributors:
    Nagel, S. (author) / Khouri, J. (author) / Mast, R. (author)

    Conference:

    11th Triennial International Conference on Ports ; 2007 ; San Diego, California, United States


    Published in:

    Publication date :

    2007-03-22




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English





    Challenges Associated with Implementing Operations for the First Cold Ironing of Oil Tanker Vessels

    Gamette, S. / Khouri, J. / Mascardo, B. et al. | British Library Conference Proceedings | 2010


    New tanker berth at Mombasa

    Engineering Index Backfile | 1964


    Port of Long Beach Marine Maintenance Dock Facilities at Pier D, Berth 48, Project

    Aguilar, Joel / Lai, Cheng / Tuladhar, Prabin et al. | TIBKAT | 2019


    Port of Long Beach Marine Maintenance Dock Facilities at Pier D, Berth 48, Project

    Aguilar, Joel / Lai, Cheng / Tuladhar, Prabin et al. | ASCE | 2019