DOCSLIB.ORG

Buoys, Fenders and Floats Main Catalog

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Buoys, Fenders and Floats Main Catalog s t a o l F d g n o l 5 a 5 a 9 t s 1 r a e e C c n d i n s n i - e a F M , s y o u B Polyform - the Originator of the modern Plastic Buoy 2 Polyform ® was established in Ålesund, Norway in the year of 1955 and was the first company in the world to produce an inflatable, rotomolded soft Vinyl buoy. The product was an instant success and was immediately accepted in the domestic as well as overseas markets. Products and machinery were gradually developed and improved until the first major leap forward in our production technology happened in the 1970’s and early 1980’s when specially designed, in-house constructed machinery for rotomolding of our buoys and fenders was developed and put into use. Such type of machinery at that time was truly unique in the world of molding buoys and fenders. More recent and even more revolutionary developments took place in the new millennium, by our designing and constructing of the first ever fully automated and robot assisted production machinery, built for molding of inflatable fenders. Ever since the start in 1955, our company has been committed to further expand the range and to further develop, customize and improve the individual products. Today, Polyform ® of Norway can offer the widest range of inflatable buoys and fenders , expanded foam marina fenders, purse seine floats and an extensive range of hard-plastic products for use throughout the marine industry, including aquaculture/fish-farming, offshore oil and gas industry, harbors, ships, marina industry and custom made products also for land-based applications. It is a historical fact that the world's first inflatable plastic buoy was made on the west coast of Norway and later brought to America. Reproduction with a slight modification of Christian Krohg's oil painting "Leiv Eirikson Discovers America". 131 contents contents Pages in numeric order Area of use A brief history of Polyform 2 commercial use and Fishery Marinas, Docks and Inshore use A-series buoys and fenders 6 CC-series central tube buoys 12 Inflatable Vinyl Buoys and Fenders 5 F-series fenders 8 CCE/CCD-series mooring buoys 13 A-series 6 HL-series low drag buoys 10 MR/MG-series mooring buoys 15 F-series 8 CC-series central tube buoys 12 MF dock ending products 16 Pe3 marker buoy 12 PMF modular fendering system 18 HL-series 10 PMF modular fendering system 18 Flowsafe hose floating device 20 G-series 11 BPB-series purse seine floats 22 Aqua-series mooring buoys 25 CC-series 12 NF-series purse seine floats 23 APB modular mooring buoys 28 LSB light spring buoys 33 MB-series mooring buoys 31 Pe3-buoy 12 HDF heavy duty fenders 34 LB-series light buoys 32 CCE/CCD-series 13 (Marker buoys are listed under FSF-series pontoon floats 32 Polyform Special Foam Products 14 Aquaculture and Inshore & Marina.) LSB light spring buoys 33 MP marina floating pontoons 35 BPB-series 15 MR/MG-series 15 MF-series 16 offshore PMF modular fendering system 18 A-series buoys 6 FlowSafe 20 Flowsafe hose floating device 20 Leisure and Recreational Boat BPB-series 22 Aqua-series mooring buoys 27 A-series buoys and fenders 6 APB modular mooring buoys 30 F-series fenders 8 NF-series 23 LB-series light buoys 32 HL-series fenders 10 Non-inflatable PE products 24 LSB light spring buoys 33 G-series fenders 11 Aqua-series 25 Subsea 37 Pe3 marker buoy 12 CCE/CCD-series mooring buoys 13 APB-series 28 MR/MG-series mooring buoys 15 MB-series 31 MF dock ending products 16 LB-series 32 MB-series mooring buoys 31 FSF-series 32 Aquaculture / Fish Farming SBH-buoys 33 A-series buoys 6 LSB-buoys 33 Flowsafe hose floatation device 20 Aqua-series mooring buoys 25 HDF-series 34 APB modular mooring buoys 28 subsea 37 MP-pontoons 35 LB-series light buoys 32 Transport Container 36 FSF-series pontoon floats 32 SBH mussel farm buoys 33 Waste water tanks 36 LSB light spring buoys 33 Subsea 37 MP marina floating pontoons 35 Development and Customization 40 Yachts and Work Boats A-series buoys and fenders 6 ................................................ F-series fenders 8 PMF modular fendering system 18 News: Aqua-series mooring buoys 25 APB modular mooring buoys 28 HDF-series available in blue color 34 HDF heavy duty fenders 34 4 Polyform Main Catalog 7 / 2015 Inflatable Buoys and Fenders People associate Polyform’s inflatable buoys and fenders with the easily recognizable blue, rib reinforced ropeholds of the A- and F-series. No wonder, this has been Poly - form’s hallmark for almost 60 years. Today, Polyform offers much more, like the extensive range of inflatable buoys and fenders that can be supplied in a wide variety of different colors. The rea sons for Polyform’s leading edge are the in-house developed molding technologie s and the unique raw-materials formulations. At the end of 2005, after several years of research and development, we launched the first ever fully automated and robot assisted production machinery, built for molding of inflatable fenders. The revolutionary new production machine and method was named POLYMATIQ ® and was patented. Simultaneously with the invention of the POLYMATIQ ® production machine and process, we developed what we named WELCOTEC ©, a welding control technology that guarantees the optimal control over the wall thickness throughout the roto-molding process. All-plastic valves Foam filling The flexible all-plastic Polyform ® valve is The majority of our products, soft- as well as fitted into every inflatable Polyform ® product. hard-shell buoys may be filled with either The V-10 valve is a non-return type of valve, Polystyrene (EPS) or Polyurethane (PUR) fitted with a protective valve screw. For foams. Please read more about foam filling inflation, the screw has to be removed. Air is on page 38 in this catalogue. blown into the valve, and the valve screw has to be set back in place in order to fully secure any loss of air from the valve! The V-40 valve is designed for easy inflation and deflation of our largest products. This is not a non-return valve. To Extreme strength inflate the product, the valve is opened by turning the valve screw anti- As part of our in-house quality assurance clockwise 3-4 times. Inflate through the center hole of the valve screw itself, procedures, destructive testing of products is and tighten the screw. carried out at regular intervals and at Inflation random. This picture shows (the destructive) testing for pulling strength for one of our Do not overinflate. The flexible all-plastic Polyform ® valve is fitted into every standard blue, rib-reinforced ropeholds. inflatable Polyform ® product. Please note: Over-inflation will reduce the The V-10 valve is a non-return type of valve, fitted with a protective valve strength of the products and void guarantee. screw. V10 valve inflation adapter Replace the valve screw with the adapter’s In-house developed roto-molding technology. threaded end. Inflate through this end of the adpter by using a standard tire nozzle. Screwdriver for removing the valve screw. In-house developed welding control technology. 5 s r e d n e F d n A-series a s y o u All purpose Buoys and Fenders B l y n i V t f o s e l b a t a fl n I Ribbed, reinforced ropehold Extra strong ropehold material Recessed valve screw Perfectly seamless construction Extra flexible body material Sturdy, uniform wall thickness Smooth surface Glossy finish The professional’s choice since 1955 In late 1955, the world’s very first technology has been further developed inflatable, all-plastic buoy was produced in and improved. But still today the tough, rib- Aalesund, Norway. This was the first buoy reinforced ropehold and the seamless in a series of buoys that was to become construction of the Polyform® buoys and the Polyform® A-series. The buoys soon fenders are part of the reasons why pro - were to be found in most corners of the fessional users all over the world prefer The world’s first inflatable plastic buoy. world, and they established the standard the Polyform® A-series buoys – and why for buoy design and quality. Since 1955, these buoys have become synonymous thanks to our innovative staff of engineers with “the best buoy money can buy” . and technicians, design and production The Polyform A-series have been trusted by fishermen all over the world since 1955. 6 s r e d n e F d n a s y o u B l y n Polyform A-series are specially designed i V and produced by use of Polyform’s in- t f o house Welcotec™ molding technology s e l ensuring controlled wall thickness, b a t seamless true one-piece products and a fl reliable product quality. n I Inflation valves Polyform A-series are produced in 8 differ - possible buoyancy. The wide range, from The A-series buoys ent sizes. Each model is designed and the smallest to the largest buoy, makes from size A1 to A5 molded in order to offer a maximum of them useful in a wide variety of maritime are fitted with the strength in combination with highest sectors. V-10 valve. The A6 and A7 are fitted with the larger V-40 valve. Art.no. Buoyancy Length Diameter eye diameter Weight The A7 has the Polyform® Double Valve kg * mm mm mm kg System for more easily deflation.
Load more

Recommended publications
  • 1.0 Introduction
    1.0 INTRODUCTION 1.1 MARINE RECREATION AND TOURISM IN HAWAI‘I Hawai‘i hosts approximately seven million visitors each year who spend more than US $11 billion in the state and in the last 20 years tourism has increased over 65% (Friedlander et al., 2005). More than 80% of Hawaii’s visitors engage in recreation activities in the state’s coastal and marine areas with the majority of these individuals participating in scuba diving (200,000 per year) or snorkeling (3 million per year) when visiting (Hawai‘i DBEDT, 2002; van Beukering & Cesar, 2004). Other popular marine recreation activities include ocean kayaking, parasailing, swimming, outrigger canoeing, and surfing. Coral reef areas are a focal point for much of this recreation use, but these areas are also a natural resource that has considerable social, cultural, environmental, and economic importance to the people of Hawai‘i. For example, the state’s reefs generate US $800 million in revenue and $360 million in added value each year (Cesar & van Beukering, 2004; Davidson et al., 2003). These reefs are also important for local residents, as approximately 30% of households in the state have at least one person who fishes for recreation and almost 10% of households also fish for subsistence purposes (QMark, 2005). As popularity of Hawaii’s reef areas continues to increase, demand for access and use can disrupt coastal processes, damage ecological integrity of reef environments, reduce the quality of user experiences, and generate conflict among stakeholders regarding appropriate management responses (Orams, 1999). As a result, state regulatory agencies such as Hawaii’s Department of Land and Natural Resources (DLNR) are faced with a set of challenges that include determining use thresholds and how to 1 manage and monitor use levels to ensure that thresholds are not violated, protecting reef environments from degradation, and ensuring that user experiences are not compromised.
    [Show full text]
  • Marine Recreation at the Molokini Shoal Mlcd
    MARINE RECREATION AT THE MOLOKINI SHOAL MLCD Final Report Prepared By: Brian W. Szuster, Ph.D. Department of Geography University of Hawai‘i at Mānoa Mark D. Needham, Ph.D. Department of Forest Ecosystems and Society Oregon State University Conducted For And In Cooperation With: Hawai‘i Division of Aquatic Resources Department of Land and Natural Resources July 2010 ACKNOWLEDGMENTS The authors would like to thank Emma Anders, Petra MacGowan, Dan Polhemus, Russell Sparks, Skippy Hau, Athline Clark, Carlie Wiener, Bill Walsh, Wayne Tanaka, David Gulko, and Robert Nishimoto at Hawai‘i Department of Land and Natural Resources for their assistance, input, and support during this project. Kaimana Lee, Bixler McClure, and Caitlin Bell are thanked for their assistance with project facilitation and data collection. The authors especially thank Merrill Kaufman and Quincy Gibson at Pacific Whale Foundation, Jeff Strahn at Maui Dive Shop, Don Domingo at Maui Dreams Dive Company, Greg Howeth at Lāhaina Divers, and Ed Robinson at Ed Robinson’s Diving for their support in facilitating aspects of this study. Also thanked are Hannah Bernard (Hawai‘i Wildlife Fund), Randy Coon (Trilogy Sailing Charters), Mark de Renses (Blue Water Rafting), Emily Fielding (The Nature Conservancy), Pauline Fiene (Mike Severns Diving), Paul Ka‘uhane Lu‘uwai (Hawaiian Canoe Club), Robert Kalei Lu‘uwai (Ma‘alaea Boat and Fishing Club), Ken Martinez Bergmaier (Maui Trailer Boat Club), Ananda Stone (Maui Reef Fund), and Scott Turner (Pride of Maui). A special thank you is extended to all of recreationists who took time completing surveys. Funding for this project was provided by the Hawai‘i Division of Aquatic Resources, Department of Land and Natural Resources pursuant to National Oceanic and Atmospheric Administration (NOAA) Coral Reef Conservation Program award numbers NA06NOS4190101 and NA07NOS4190054.
    [Show full text]
  • Safe Boating Guidelines
    DIVE FLAGS HEALTH & DIVING REFERENCE SERIES When diving, fly the flag. Ensure the flags are stiff, 6 West Colony Place unfurled and in recognizable condition. Durham, NC 27705 USA SAFE BOATING PHONE: +1-919-684-2948 DIVER DOWN FLAG DAN EMERGENCY HOTLINE: +1-919-684-9111 GUIDELINES This flag explicitly signals that divers are in the water and should always be flown from a vessel or buoy when divers are in the water. When flown from a vessel, the diver down flag should be at least 20 inches by 24 inches and flown above the vessel’s highest point. When displayed from a buoy, the flag should be at least 12 inches by 12 inches. ALPHA FLAG Internationally recognized, this flag is flown when the mobility of a vessel is restricted, indicating that other vessels should yield the right of way. The alpha flag may be flown along with the diver down flag when divers are in the water. D SURFACE MARKER BUOYS I V When deployed during ascent, a E surface marker buoy (SMB) will make R a diver’s presence more visible. In B addition to a SMB, divers may also E L use a whistle or audible signal, a dive O light or a signaling mirror to notify W boaters of their location in the water. Part #: 013-1034 Rev. 3.27.15 REPORT DIVING INCIDENTS ONLINE AT DAN.ORG/INCIDENTREPORT. JOIN US AT DAN.ORG SAFE BOATING GUIDELINES To prevent injuries and death by propeller and vessel strikes, divers and boaters must be proactively aware of one another.
    [Show full text]
  • The Marine Archaeological Resource
    The marine archaeological resource IFA Paper No. 4 Ian Oxley and David O’Regan IFA PAPER NO. 4 THE MARITIME ARCHAEOLOGICAL RESOURCE Published by the Institute of Field Archaeologists SHES, University of Reading, Whiteknights, PO Box 227, Reading RG6 6AB ISBN 0 948393 18 1 Copyright © the authors (text), illustrations by permission © IFA (typography and design) Edited by Jenny Moore and Alison Taylor The authors Ian Oxley, formerly Deputy Director of the Archaeological Diving Unit, University of St Andrews, is researching the management of historic wreck sites at the Centre for Environmental Resource Management, Department of Civil and Offshore Engineering, Heriot-Watt University, Edinburgh. David O’Regan is a freelance archaeologist, formerly Project Manager for the Defence of Britain Project, Imperial War Museum. Acknowledgements A document attempting to summarise a subject area as wide as UK maritime archaeology inevitably involves the input of a large number of people. It is impossible to name them all and therefore any omissions are regretted but their support is gratefully acknowledged. Particular thanks go to Martin Dean, Mark Lawrence, Ben Ferrari, Antony Firth, Karen Gracie-Langrick, Mark Redknap and Kit Watson. General thanks go to the past and present staff members of the Archaeological Diving Unit and the Scottish Institute of Maritime Studies at the University of St Andrews, and officers and Council members of the IFA and its Maritime Affairs Special Interest Group. The IFA gratefully acknowledges the assistance of the Royal Commission on the Historical Monuments of England, Royal Commission on the Ancient and Historical Monuments of Scotland, Historic Scotland, and the Environment and Heritage Service, Historic Buildings and Monuments, DoE(NI), for funding this paper.
    [Show full text]
  • Maritime Archaeology—Discovering and Exploring Shipwrecks
    Monitor National Marine Sanctuary: Maritime Archaeology—Discovering and Exploring Shipwrecks Educational Product Maritime Archaeology Educators Grades 6-12 Discovering and Exploring Shipwrecks http://monitor.noaa.gov Monitor National Marine Sanctuary: Maritime Archaeology—Discovering and Exploring Shipwrecks Acknowledgement This educator guide was developed by NOAA’s Monitor National Marine Sanctuary. This guide is in the public domain and cannot be used for commercial purposes. Permission is hereby granted for the reproduction, without alteration, of this guide on the condition its source is acknowledged. When reproducing this guide or any portion of it, please cite NOAA’s Monitor National Marine Sanctuary as the source, and provide the following URL for more information: http://monitor.noaa.gov/education. If you have any questions or need additional information, email [email protected]. Cover Photo: All photos were taken off North Carolina’s coast as maritime archaeologists surveyed World War II shipwrecks during NOAA’s Battle of the Atlantic Expeditions. Clockwise: E.M. Clark, Photo: Joseph Hoyt, NOAA; Dixie Arrow, Photo: Greg McFall, NOAA; Manuela, Photo: Joseph Hoyt, NOAA; Keshena, Photo: NOAA Inside Cover Photo: USS Monitor drawing, Courtesy Joe Hines http://monitor.noaa.gov Monitor National Marine Sanctuary: Maritime Archaeology—Discovering and Exploring Shipwrecks Monitor National Marine Sanctuary Maritime Archaeology—Discovering and exploring Shipwrecks _____________________________________________________________________ An Educator
    [Show full text]
  • Maui County Day-Use Moorings
    MMAUIAUI CCOUNTYOUNTY DDAY-USEAY-USE MMOORINGSOORINGS GGuidebookuidebook 22009009 Photos ©Ed Robinson Table of Contents Important Contact Numbers..................................... 2 SOUTHWEST LANA‘I About Day-Use Moorings......................................... 3 Southwest Lana‘i Buoy & Mooring Mooring Diagrams ................................................... 4 Locations Map...................................................26 Mooring Practices for Proper Use & Care................ 5 Kaneapua/Lighthouse/Lighthouse 1 Safety and Etiquette Guidelines ..............................6 Site Description................................................. 27 Kaneapua/Lighthouse/Lighthouse 2 & 3 MOLOKINI MOORINGS Site Description................................................. 28 Molokini Buoy & Mooring Locations Map ...............7 Mokunaio/Shark Fin/Shark Fin 1 Site Description 29 About Molokini......................................................... 8 Molokini Marine Life Conservation District MAUI MOORINGS Overview .............................................................9 WEST MAUI - PALI Molokini Mooring Coordinates ..............................10 West Maui - Pali Buoy & Mooring Molokini Zones: Enenue & Mid Reef .....................11 Locations Map...................................................30 Molokini Zones: Reef’s End & Back Wall............... 12 Coral Gardens/Coral Gardens 1 Site Description................................................. 31 LANA‘I MOORINGS Coral Gardens 2, 3 & 4 Coordinates .....................
    [Show full text]
  • Mooring Buoy Shoreline Exemption Application (PDF)
    MOORING BUOY - SHORELINE EXEMPTION APPLICATION PROPERTY INFORMATION Tax Parcel Number: Shoreline Designation: Island: Water Body: Use of Property: Property Address: APPLICANT INFORMATION Applicant: Telephone: Address Email: City: State: Zip Code: Agent: Telephone: Address: Email: City: State: Zip Code: DESCRIPTION OF PROPOSED USE (Include separate sheets as necessary) PERMIT CERTIFICATION I have examined this application and attachments and know the same to be true and correct, and certify that this application is being made with the full knowledge and consent of all owners of the affected property. Signature of Property Owner or Authorized Agent Date If applicant is not the owner a notarized statement is required stating that the application is submitted with the consent of all owners of the property & identifying the owner’s authorized agent or representative. FOR STAFF USE ONLY Date Received: Fee Paid: Receipt #: Inspection Required SEPA Exempt, citation: Approved subject to the attached conditions Denied By : Date: A timely appeal of this exemption stays the effective date of the approval until the appeal is resolved at the County level. (SJCC 18.80.140A(7)) N:\FORMS, LISTS & HANDOUTS\Land Use Forms & Lists\General Land Use Forms & Lists\2020_XMP_MB.docx Page 1 A. Submit ALL of the following for NEW or EXISTING MOORING BUOYS: 1) A habitat survey performed by a diver and developed per WDFW standards: https://wdfw.wa.gov/. 2) Analysis by a Qualified Professional (SJCC 18.20.170) that the buoy will meet SJCC 18.50.210 General regulations, item (C): C. Shoreline development, uses, structures and activities shall not result in a net loss of shoreline ecological functions or adversely impact other shoreline uses, resources and activities such as navigation, recreation and public access.
    [Show full text]
  • Buoys, Marks and Beacons Fact Sheet
    Buoys, marks and beacons Traffic lights and signs guide drivers on the roads. Buoys, beacons and navigation lights do the same When travelling upstream or away from the sea: 00947 on the water. • keep port (red) marks on your In Queensland, the system of buoys, beacons, marks and lights port-hand side used is compliant with the International Association of Marine (left) Aids to Navigation and Lighthouse Authorities (IALA) Buoyage System ‘A’. Each type of mark has its own colour, shape, top • keep starboard mark and light combination. (green) marks on your starboard To navigate safely, you need to know each mark and its meaning. hand side (right). Lateral marks When travelling downstream or towards the sea: Lateral marks show the port (left) and starboard (right) sides • keep port (red) of navigable waters or channels. marks on your starboard-hand A port mark is red with a can-like shape and displays a red flashing side (right) light at night (when lit). A starboard mark is green with a cone-like • keep starboard shape and displays a green flashing light at night (when lit). (green) marks on When port and starboard lateral marks are opposite each other, your port-hand travel between them. When there is a single side (left). lateral mark, the safe side to pass depends on the direction of travel (or buoyage). This is shown on charts by the symbol: Cardinal marks North cardinal mark Cardinal marks show where the deepest and safest water The top cones point up or North, showing there is safe water is by using a compass.
    [Show full text]
  • The Buoy Tender Marker Buoy Dive Club | Seattle, Washington January, 2011
    The Buoy Tender Marker Buoy Dive Club | Seattle, Washington January, 2011 The Buoy Tender Marker Buoy Dive Club | Seattle, Washington AUGUST 2012 THE TENDER: MARKER BUOY DIVE CLUB NEWSLETTER IN THIS ISSUE President’s Message Buoyed up in August President’s Message 2-3 It’s been so busy I barely know where to start. We’ve gone from Cover Photo 4 a spring and early summer of some of the most rotten viz I’ve Announcements 4 ever had the experience of Next Club Meeting 4 mucking my way through. Sud- Dive Planning Party 4 denly we are having fantastic Dive & Event Calendar 5 viz and really wonderful days to Salt Water St Pk Buoys 6-7 go diving. It’s great to be out Carbon Monoxide Analyzers 8 with the Club on outings like that. Environmental Stewardship 9 One of my most memorable 9-10 REEF Critter of the Month recent dives was the “All gen- REEF Neah Bay Trip Report 11-12 der Bachelor Dive” for Rob Nudibranch Abundance 13 Henderson. Using the spectacu- Lembah and Gangga Dive Report 14-15 lar setting of Namu Cove, cour- Dives and Travels 16 tesy of Brian Horsch, the group Classified 17 dove Waterman’s Wall from Instructors 17 shore on a spectacular day and About Marker Buoy Dive Club 18 great visibility. A couple months previously we had to find the same wall by Braille. We followed up with a tame, but quite fun, bachelor party at Doug and Karin’s a bit down Rich Passage. Later that evening as a satisfied group sailed back on the ferry we remarked at what an incredible day of diving and socializing we had experienced just a couple hours from home.
    [Show full text]
  • Hawaii's Tour Boat Industry 2003
    The Hawaii Boat Industry 2003 –A Survey and Economic Description By Michael Markrich Dba/Markrich Research Email: [email protected] Cell: 808- 372-6225 May 5, 2004 Copyright 2004 Abstract The Hawaii tour boat industry generates approximately $200 million in revenue annually and employs more than 2000 people. Most of the companies that make up the industry are small businesses. They have created badly needed jobs on the Neighbor Islands. Many of these jobs are management positions that pay far above the minimum wage. The tour boat businesses make their living by providing safe access to some of Hawaii’s most beautiful and remote ocean and river areas. Their customers include visitors from around the globe. Most people lack the expertise or the ocean going vessels needed to visit coral reefs or to see whales in their offshore habitat. The tour boat industry enables taxpayers to see the natural resources they own and pay to maintain. The positive experiences of these visits helps nurture the political will needed to maintain ocean resource management programs in Hawaii and throughout the United States. What makes much of this possible is day use-moorings. Day-use moorings are stainless steel eyebolts drilled into the coral or rock substrate beneath the sea and set with epoxy. They cause no environmental harm. In time, coral grows over the metal parts and the day-use moorings become a part of the coral substrate. In highly visited Marine Life Conservation Districts (MLCD’s) tour boats tie their boats to the day-use moorings and take visitors on snorkel and dive tours of the coral reefs.
    [Show full text]
  • Technical Note
    Indian Journal of Geo Marine Sciences Vol. 47 (09), September 2018, pp. 1723-1726 Technical Note SONO BOUYS Raja Acharya India Meteorological Department,Regional Meteorological Centre,Kolkata,Ministry of Earth Sciences 4, Duel Avenue,Alipore Kolkata-700027 [E.Mail: [email protected] ] Received: 14 May 2018 Revised 20 July 2018 A bouy is an anchored floating device which serves as (http://navyaviation.tpub.com/14030/css/Sonobuoy a navigation mark, to show reefs or other hazards, or -Receivers-107.htm) for mooring. A Sono Bouy is a buoy equipped to Sono buoys are classified into three categories: detect underwater sounds, objects and transmit them active, passive and special purpose. by radio. It is a relatively small buoy (typically 13 cm Active sono buoy uses a transducer to radiate a or 5 in, in diameter and 91 cm or 3 ft long with sonar pulse that is reflected back from the target. The expendable sonar system that is dropped/ejected from time interval between the ping (sound pulse) and the aircraft or ships conducting anti-submarine warfare or echo return to the sono buoy is measured. Taking the underwater acoustic research. Doppler Effect on the pulse frequency into The sono buoy has 4 main components: a float, a consideration, this time-measurement data is used to radio transmitter, a saltwater battery, and a calculate both range and speed of the submarine hydrophone. Hydrophone is an underwater sensor relative to the sono buoy. The command activated that converts the pressure waves from underwater buoy is controlled by a UHF command signal from sounds into electrical voltages that get amplified and the aircraft.
    [Show full text]
  • History of Day Use Moorings the History of Malama Kai Foundation Is Integrally Connected to the History of the Hawaii Day-Use Mooring Buoy Program
    History of Day Use Moorings The history of Malama Kai Foundation is integrally connected to the history of the Hawaii day-use mooring buoy program. Winter 1981: National Marine Sanctuary received authorization to install six experimental mooring pins and buoys off Key Largo, Florida. Since that time, hundreds such pin-buoy systems have been installed off the shores of Florida and five Caribbean countries. The system is not only approved by the U.S. Government and the State of Florida, its use is required of boaters wherever the system is available. September 20, 1985: First correspondence to Hawaiʻi Sea Grant office from John Halas, developer of the Florida mooring buoy system. Follow up on a meeting with Dr. Jan Auyong when Halas delivered a paper on the mooring buoy system in May 1985 at the Tahiti Coral Reef Congress. December 1986: First general discussion of application of mooring pin-buoy concept to protect Hawaiʻi’s corals. Participants include Sea Grant (Jan Auyong and Ray Tabata), Hawaiʻi Institute of Geophysics (HIG, George Wilkins, senior scientist), and several Kona dive companies. February 1987: Initial testing of hydraulic drilling system at Makai Range Pier, Makapu‘u Point, Oahu. Volunteer support provided at no cost to the State by Hawaiʻi Sea Grant, HIG, Jack’s Diving Locker, and three Oahu dive companies. March 1987: Letter from Bill Paty, Hawaii Department of Land and Natural Resources (DLNR) Chairperson, stating that Hawaiʻi Department of Transportation (DOT) Harbors Division has sole jurisdiction for granting of mooring buoy permits at this time. March 31, 1987: First fully documented meeting on the subject.
    [Show full text]