3.2.8.2 CL01 – Equipment Size and Type Description Code (English Only)
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Transforming Shipping Containers Into Primary Care Health Clinics
Transforming Shipping Containers into Primary Care Health Clinics Project Report Aerospace Vehicles Engineering Degree 27/04/2020 STUDENT: DIRECTOR: Alba Gamón Aznar Neus Fradera Tejedor Abstract The present project consists in the design of a primary health clinic inside intermodal shipping containers. In recent years the frequency of natural disasters has increased, while man-made conflicts continue to afflict many parts of the globe. As a result, societies and countries are often left without access to basic medical assistance. Standardised and ready-to-deploy mobile clinics could play an important role in bringing such assistance to those who need it all over the world. This project promotes the adaptation of the structure of shipping containers to house a primary healthcare center through a multidisciplinary approach. Ranging from the study of containers and the potential environments where a mobile clinic could be of use to the design of all the manuals needed for the correct deployment, operation and maintenance of a mobile healthcare center inside a shipping container, this project intends to combine with knowledge from many sources to develop a product of great human, social and ecological value. 1 Abstract 1 INTRODUCTION 6 Aim 6 Scope 6 Justification 7 Method 8 Schedule 8 HISTORY AND CHARACTERISTICS OF INTERMODAL CONTAINERS 9 History 9 Shipping containers and their architectural use 10 Why use a container? 10 Container dimensions 11 Container types 12 Container prices 14 STUDY OF POSSIBLE LOCATIONS 15 Locations 15 Environmental -
Rules for Classification and Construction VI Additional Rules and Guidelines
Rules for Classification and Construction VI Additional Rules and Guidelines 1 Container Technology 1 Guidelines for the Construction, Repair and Testing of Freight Containers Edition 1995 The following Guidelines come into force on April 1st, 1995 Germanischer Lloyd Aktiengesellschaft Head Office Vorsetzen 35, 20459 Hamburg, Germany Phone: +49 40 36149-0 Fax: +49 40 36149-200 [email protected] www.gl-group.com "General Terms and Conditions" of the respective latest edition will be applicable (see Rules for Classification and Construction, I - Ship Technology, Part 0 - Classification and Surveys). Reproduction by printing or photostatic means is only permissible with the consent of Germanischer Lloyd Aktiengesellschaft. Published by: Germanischer Lloyd Aktiengesellschaft, Hamburg Printed by: Gebrüder Braasch GmbH, Hamburg VI - Part 1 Table of Contents Chapter 1 GL 1995 Page 3 Table of Contents Section 1 General Instructions and Guidance A. General Test Conditions .............................................................................................................. 1- 1 B. Types of tests .............................................................................................................................. 1- 2 C. Construction characteristics (design principles) .......................................................................... 1- 5 D. Materials ..................................................................................................................................... 1- 7 E. Jointing methods ........................................................................................................................ -
Event Guide Is Sponsored by a @Intermodaleu
SANY PORT MACHINERY. Stand B82 5-7 NOVEMBER 2019 | HAMBURG MESSE YOUR PLATFORM IN EVENT EUROPE TO MEET THE ADVERT GLOBAL CONTAINER INDUSTRY GUIDE SANY has the vision and capability to offer a refreshing alternative to the market. Customer solutions are developed and produced meeting the highest European standards and demands. Quality, Reliability and Customer Care are our core values. The team in SANY Europe follows each project from the development phase through to the ex-works dispatch and full customer satisfaction. Short delivery times and 5 years warranty included. FLOORPLAN • EXHIBITOR A-Z • CONFERENCE PROGRAMME • PRODUCT INDEX The Event Guide is sponsored by A @intermodalEU www.intermodal-events.com Sany Europe GmbH · Sany Allee 1, D-50181 Bedburg · TEL. 0049 (2272) 90531 100 · www.sanyeurope.com Sany_Anz_Portmachinery_TOC_Full_PageE.indd 1 25.04.18 09:58 FLOORPLAN Visit us at Visit us at Visit us at EXHIBITOR A-Z stand B110 stand B110 stand B110 COMPANY STAND COMPANY STAND ABS E70 CS LEASING E40 ADMOR COMPOSITES OY F82 DAIKIN INDUSTRIES D80 ALL PAKISTAN SHIPPING DCM HYUNDAI LTD A92 ASSOCIATION (APSA) F110 DEKRA CLAIMS SERVICES GMBH A41 AM SOLUTION B110 EMERSON COMMERCIAL ARROW CONTAINER & RESIDENTIAL SOLUTIONS D74 PLYWOOD & PARTS CORP F60 EOS EQUIPMENT OPTIMIZATION BEACON INTERMODAL LEASING B40 SOLUTIONS B80 BEEQUIP E70 FLEX BOX A70, A80 BLUE SKY INTERMODAL E40 FLORENS ASSET MANAGEMENT E62 BOS GMBH BEST OF STEEL B90 FORT VALE ENGINEERING LTD B74 BOXXPORT C44A GLOBALSTAR EUROPE BSL INTERCHANGE LTD D70 SATELLITE SERVICE LTD B114 -
Structural Design of a Container Ship Approximately 3100 TEU According to the Concept of General Ship Design B-178
Structural design of a container ship approximately 3100 TEU according to the concept of general ship design B-178 Wafaa Souadji Master Thesis presented in partial fulfillment of the requirements for the double degree: “Advanced Master in Naval Architecture” conferred by University of Liege "Master of Sciences in Applied Mechanics, specialization in Hydrodynamics, Energetics and Propulsion” conferred by Ecole Centrale de Nantes developed at West Pomeranian University of Technology, Szczecin in the framework of the “EMSHIP” Erasmus Mundus Master Course in “Integrated Advanced Ship Design” Ref. 159652-1-2009-1-BE-ERA MUNDUS-EMMC Supervisor: Dr. Zbigniew Sekulski, West Pomeranian University of Technology, Szczecin Reviewer: Prof. Robert Bronsart, University of Rostock Szczecin, February 2012 Structural design of a container ship approximately 3100 TEU 3 according to the concept of general ship design B-178 ABSTRACT Structural design of a container ship approximately 3100 TEU according to the concept of general ship design B-178 By Wafaa Souadji The initial design stage is crucial for the ship design, including the ship structural design, as the decisions are here taken fundamental to reach design objectives by establishing basic ship characteristics. Consequently, errors which may appear have the largest impact on the final design. Two main aspects related to the design of structures are typically addressed in the initial design: analysis of strength and cost estimation. The design developed in the dissertation is based on the conceptual design of general containership B-178 built in the Stocznia Szczecińska Nowa, providing its main particulars, hull form as well as the general arrangement. The general objective of the thesis is to carry out the hull structural design based on the functional requirements of the containership. -
Army Container Operations
FM 55-80 ARMY CONTAINER OPERATIONS DISTRIBUTION RESTRICTION: Approved for public release; distribution is unlimited. HEADQUARTERS, DEPARTMENT OF THE ARMY FM 55-80 FIELD MANUAL HEADQUARTERS No. 55-80 DEPARTMENT OF THE ARMY Washington, DC, 13 August 1997 ARMY CONTAINER OPERATIONS TABLE OF CONTENTS Page PREFACE.......................................................................................................................... iv CHAPTER 1. INTRODUCTION TO INTERMODALISM .......................................... 1-1 1-1. Background.................................................................................... 1-1 1-2. Responsibilities Within the Defense Transportation System............. 1-1 1-3. Department of Defense ................................................................... 1-2 1-4. Assistant Deputy Under Secretary of Defense, Transportation Policy............................................................................................. 1-2 1-5. Secretary of the Army..................................................................... 1-2 1-6. Supported Commander in Chiefs..................................................... 1-2 1-7. Army Service Component Commander............................................ 1-2 1-8. Commanders .................................................................................. 1-2 1-9. United States Transportation Command .......................................... 1-3 1-10. Military Traffic Management Command ......................................... 1-3 1-11. Procurement and Leasing -
Loading of Road Freight Vehicles Covering Technical, Behavioural and Organisational Aspects
Best Practice Guidelines for Safe (Un)Loading of Road Freight Vehicles covering Technical, Behavioural and Organisational Aspects Issue 1 - December 2013 Table of Contents Table of Contents ____________________________________________________________ 2 Introduction ________________________________________________________________ 3 Scope and objectives _________________________________________________________ 3 Part A: Organizational and Behavioural aspects_____________________________________ 4 1. Behaviour Based Safety _________________________________________________ 4 2. Roles and responsibilities ________________________________________________ 9 3. SQAS and ESAD ______________________________________________________ 18 4. Emergency response plan _______________________________________________ 19 5. Applicable legislation ___________________________________________________ 21 6. Communication skills of drivers and operators _______________________________ 22 Part B: Technical aspects _____________________________________________________ 23 7. Technical requirements (un)loading sites ___________________________________ 23 8. SULID: Site (Un)Loading Information Document _____________________________ 24 9. Information, instructions and training for drivers and operators _________________ 26 10. Personal Protective Equipment (PPE) ______________________________________ 30 11. Unloading scenario’s bulk liquid __________________________________________ 33 12. Couplings and hoses for bulk liquids and gasses _____________________________ -
Economics of Improved TOFC/COFC Systems Robert H
6 basis. On a "maximum" cost basis, however, the ser high-rate service. At profitable rates, the Philadelphia vice is unprofitable at all rate levels. Cleveland and Chicago-Houston services would carry only 13 and 21 trailers a day, respectively. This dif Chicago-Houston City Pair fers from the more conventional concept of a TOFC shuttle train service, such as the "Slingshot," which The long distance between Chicago and Houston dis emphasizes low rates and high volume. It would be tinguishes this city pair from the other two. Al interesting to repeat this analysis assuming a lower though both rail and truck service tends to be fairly cost, but slower, less reliable service. It is possible good, a reliable TOFC shuttle train service is believed that such a service might prove more profitable than to offer some improvement in service over both. De the premium service hypothesized here. spite its long distance, the traffic between this pair of These models have allowed us to understand the cities is fairly heavy-roughly the same as between consequences of the multitude of individual firm deci Philadelphia and Cleveland. One might speculate that sions that will determine the market for a service. As the economies of rail line-haul operation would make such, they represent a considerable advance over other a TOFC shuttle train a profitable undertaking between methods, such as aggregate econometric models, which this pair of cities. require gross assumptions about the relationship of Figure 4 presents the comparison of revenues and transportation demand to the economy of a region. costs at various rate levels for the Chicago-Houston Better industry data, production-type demand models, TOFC shuttle train service. -
Investing in Mobility
Investing in Mobility FREIGHT TRANSPORT IN THE HUDSON REGION THE EAST OF HUDSON RAIL FREIGHT OPERATIONS TASK FORCE Investing in Mobility FREIGHT TRANSPORT IN THE HUDSON REGION Environmental Defense and the East of Hudson Rail Freight Operations Task Force On the cover Left:Trucks exacerbate crippling congestion on the Cross-Bronx Expressway (photo by Adam Gitlin). Top right: A CSX Q116-23 intermodal train hauls double-stack containers in western New York. (photo by J. Henry Priebe Jr.). Bottom right: A New York Cross Harbor Railroad “piggypacker” transfers a low-profile container from rail to a trailer (photo by Adam Gitlin). Environmental Defense is dedicated to protecting the environmental rights of all people, including the right to clean air, clean water, healthy food and flourishing ecosystems. Guided by science, we work to create practical solutions that win lasting political, economic and social support because they are nonpartisan, cost-effective and fair. The East of Hudson Rail Freight Operations Task Force is committed to the restoration of price- and service-competitive freight rail service in the areas of the New York metropolitan region east of the Hudson River. The Task Force seeks to accomplish this objective through bringing together elected officials, carriers and public agencies at regularly scheduled meetings where any issue that hinders or can assist in the restoration of competitive rail service is discussed openly. It is expected that all participants will work toward the common goal of restoring competitive rail freight service East of the Hudson. ©2004 Environmental Defense Printed on 100% (50% post-consumer) recycled paper, 100% chlorine free. -
A Literature Review, Container Shipping Supply Chain: Planning Problems and Research Opportunities
logistics Review A Literature Review, Container Shipping Supply Chain: Planning Problems and Research Opportunities Dongping Song School of Management, University of Liverpool, Chatham Street, Liverpool L69 7ZH, UK; [email protected] Abstract: This paper provides an overview of the container shipping supply chain (CSSC) by taking a logistics perspective, covering all major value-adding segments in CSSC including freight logistics, container logistics, vessel logistics, port/terminal logistics, and inland transport logistics. The main planning problems and research opportunities in each logistics segment are reviewed and discussed to promote further research. Moreover, the two most important challenges in CSSC, digitalization and decarbonization, are explained and discussed in detail. We raise awareness of the extreme fragmentation of CSSC that causes inefficient operations. A pathway to digitalize container shipping is proposed that requires the applications of digital technologies in various business processes across five logistics segments, and change in behaviors and relationships of stakeholders in the supply chain. We recognize that shipping decarbonization is likely to take diverse pathways with different fuel/energy systems for ships and ports. This gives rise to more research and application opportunities in the highly uncertain and complex CSSC environment. Citation: Song, D. A Literature Keywords: container shipping supply chain; transport logistics; literature review; digitalization; Review, Container Shipping Supply -
The Last Car Is Changing
"In the gaudy lexicon of railroad jargon, it has more names than any other property in the economy of the high iron, even more than there are for engines and engine drivers. It is a caboose, the last crummy, way car, van, cage, doghouse, drone house, bouncer, • bedhouse, buggy, chariot, shelter house, glory wagon, go-car, hack, hut, monkey wagon, pavilion, palace, parlor, brainbox, zoo, oar1s diner, kitchen, perambulator, cabin car and shanty. There are probably others in a variety only bounded by the limitations of human imagining and the vocabulary of profane and ohanging uninhibited men." -A Treasury of Railroad Folklore Early version of the caboose. 14 UNION PACIFIC INFO a natural part of every railroad. lookout nest on top lives on in the memories of old-timers who can THEN ... Still, there was a time when the still hear it hustling along far behind No one knows for sure when the conductor parked himself wherever the huffing and puffing steam loco "caboose" came into existence. he could ride in the early days. motives of yesteryear. The word dates to the time when it Maybe it was in a boxcar, or lying described either a ship's galley or prone on a flatcar or in the engine ... NOW... the galley's iron cookstoves. One or wherever he could hang on for Today the caboose is still a familiar dictionary says it was derived from awhile. sight on most railroads, although the Dutch work "kabuis" that de But the conductor, being are some no longer use it on every freight veloped from the Middle Low sourceful soul who played an essen train. -
Tank Containers
www.bulk-distributor.com July/August 2014 BULKEst. 1990 DISTRIBUTOR Your single information source for bulk and semi-bulk logistics TUJDTt$MFBOJOH3FQBJS%FQPUTt$PNQPOFOUT 5BOL$POUBJOFSTt'MFYJUBOLTt*#$Tt%SVNTt'*#$Tt#VML-JOFSTt3PBE5BOLFSTt-PBEJOH#BHHJOHt#VML-PHJ IN THIS ISSUE &ůĞdžŝƚĂŶŬƐƉĞĐŝĮĐĂƟŽŶůĂƵŶĐŚĞĚ sector.” Shipper 2 he long-awaited international flexitank materials, performance and labelling, and includes The use of flexitanks has increased significantly specification was published in early July. a test method for determining the flexitank’s T in the last ten years, from an estimated 40,000 Tank Containers 3 Commissioned by the Container Owners resistance to impact when installed in an ISO shipments a year in 2002, to a projected 500,000 Association (COA), the specification – designated freight container. shipments in 2014. Flexitanks offer financial and ANNUAL REVIEW: PAS (Publicly Available Specification) 1008 – was “There are numerous standards throughout the environmental benefits to businesses and usage Tank Container Leasing 7 developed and published by international container shipping industry, but until now there has grown significantly across many industries. standards organisation BSI Group, with the goal has never been a standard to aid the manufacture The wine industry, for example, was an early ANNUAL REVIEW: of providing an industry-wide benchmark for the or testing of flexitanks, which is important,” adopter of flexitanks, taking advantage of the FIBCs & Bagging 9 manufacturing and testing of both flexitanks and explained Chris Thornton, the COA’s flexitank savings realised through reduced weight the materials used for their manufacture. manager. “A damaged flexitank, for instance, can compared to traditional glass and plastic bottles, Powtech Preview 12 The PAS 1008 (Specification for the result in large cost implications due to leaking as well as a higher volume of liquid that can be manufacturing process and testing of flexitanks) cargo. -
Appendix I – Container/Equipment Description Codes
Customs Automated Manifest Interface Requirements – Ocean ACE M1 Appendix I Container/Equipment Description Codes This appendix provides a complete listing of valid container/equipment description codes. Code Description 00 Openings at one end or both ends. 01 Opening(s) at one or both ends plus "full" opening(s) on one or both sides. 02 Opening(s) at one or both ends plus "partial" opening(s) on one or both sides. 03 Opening(s) at one or both ends plus opening roof. 04 Opening(s) at one or both ends plus opening roof, plus opening(s) at one or both sides. 05 (Spare) 06 (Spare) 07 (Spare) 08 (Spare) 09 (Spare) 10 Passive vents at upper part of cargo space - Total vent cross-section area < 25 cm2/m of nominal container length. 11 Passive vents at upper part of cargo space - Total vent cross-section area > 25cm2/m of nominal container length. 12 (Spare) 13 Non-mechanical system, vents at lower and upper parts of cargo space. 14 (Spare) 15 Mechanical ventilation system, located internally. 16 (Spare) 17 Mechanical ventilation system, located externally. 18 (Spare) 19 (Spare) 21 Insulated - containers shall have insulation "K" values of Kmax < 0.7 W/(m2.oC). 22 Heated - containers shall have insulation "K" values of Kmax < 0.4 W/(m2.oC). Containers shall be required to maintain the internal temperatures given in ISO 1496/2. Series 1 freight containers – specification and testing - part 2: Thermal containers. 23 (Spare). 24 (Spare). 25 (Spare) Livestock carrier. CAMIR V1.4 November 2010 Appendix I I-1 Customs Automated Manifest Interface Requirements – Ocean ACE M1 Code Description 26 (Spare) Automobile carrier.