DOCSLIB.ORG

Energy Supply Infrastructure Development in the Apec Region

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Energy Supply Infrastructure Development in the Apec Region ASIA PACIFIC ENERGY RESEARCH CENTRE ENERGY SUPPLY INFRASTRUCTURE DEVELOPMENT IN THE APEC REGION MARCH 2001 Published by Asia Pacific Energy Research Centre Institute of Energy Economics, Japan Shuwa-Kamiyacho Building, 4-3-13 Toranomon Minato-ku, Tokyo 105-0001 Japan Tel: (813) 5401-4551 Fax: (813) 5401-4555 Email: [email protected] (administration) ã 2001 Asia Pacific Energy Research Centre ISBN 4-931482-14-7 APEC#201-RE-01.2 FOREWORD I am pleased to present the final report of the study, Energy Supply Infrastructure Development in the APEC Region. This study is a follow-up of three previous studies undertaken by APERC, namely; Natural Gas Pipeline Development in Northeast Asia, Natural Gas Pipeline Development in Southeast Asia, and Power Interconnection in the APEC Region that were completed in March 2000. This merged study was initiated because energy infrastructure interconnections issues have become high on the energy policy agenda of most APEC economies, both developed and developing. The principal findings of the study are highlighted in the executive summary of this report. This report is published by APERC as an independent study and does not necessarily reflect the views or policies of the APEC Energy Working Group or of individual member economies. Finally, I would like to thank all those who have been involved in this major and I believe successful exercise including the staff at the Centre, both professional and administrative, the experts who have helped us through our conferences and workshops, and many others who have provided useful com- ments. I hope this report will be useful to a wide audience. Keiichi Yokobori President Asia Pacific Energy Research Centre ACKNOWLEDGEMENTS We would like to thank all of those who worked so hard on the project. The development of this report could not have been accomplished without the contributions of many individuals. We wish to express our appreciation to the APERC Conference and Workshop participants who met with us and provided invaluable insights into the issues. We also thank all members of the APEC Energy Working Group (EWG), APEC Expert Group on Energy Data and Analysis (EGEDA), APERC Advisory Board, energy officials and other experts for their stimulating comments and assistance with the study. Our thanks go also to the APERC adminis- trative staff for their help in administration and publication of this report. PROJECT LEADER: Dr Hassan Ibrahim (Malaysia) PROJECT PARTICIPANTS: Ahmad Haji Mohamad (Brunei Darussalam) Zhong-an Wang (China) Iman Santoso (Indonesia) Satya Zulfanitra (Indonesia) Naoko Doi (Japan) Dr Ki Joong Kim (Korea) Martin Bonou (Papua New Guinea) Edito Barcelona (Philippines) Dr Oleg Sinyugin (Russia) Dr Tran Thanh Lien (Viet Nam) EDITOR Dr David Cope (New Zealand) ADMINISTRATIVE SUPPORT Sutemi Arikawa, Shohei Okano, Sachi Goto, Emi Tomita, Yayoi Ito, and Erika Saeki. CONTENTS Foreword ii Acknowledgements iv List of Tables vi List of Figures vii List of Abbreviations vii Preface 1 Executive Summary 3 Chapter 1 Introduction 7 Chapter 2 Energy Infrastructure Trends 9 Chapter 3 Energy Demand and Supply in Asia 27 Chapter 4 Critical Decision-Making Factors and Issues 39 Chapter 5 Northeast Asia 53 Chapter 6 Southeast Asia 67 Chapter 7 Other APEC Natural Gas Pipeline Projects 95 Chapter 8 Conclusions and Policy Implications 99 References 103 Appendix 107 LIST OF TABLES Table 1 Gaseous emissions from fossil-fuelled power plants 14 Table 2 LNG demand outlook for Northeast Asia 24 Table 3 Existing LNG projects in the Asia Pacific region 25 Table 4 LNG projects for Asian markets 26 Table 5 Electricity demand forecast by region, Baseline ‘98 (B98) scenario 27 Table 6 APEC electricity generation fuel consumption forecast 28 Table 7 Natural gas and electricity demand projected to 2010 29 Table 8 Fuel input for power generation in Northeast Asia (for 1998) 31 Table 9 Fuel input for power generation for Southeast Asia (for 1998) 33 Table 10 Natural gas consumption by sector in Northeast Asia (for 1998) 34 Table 11 Natural gas consumption by sector in Southeast Asia (for 1998) 36 Table 12 Cross-border pipelines in Southeast Asia (2003) 71 Table 13 Existing interconnections in Southeast Asia 75 Table 14 Status of interconnection projects in SE Asia 79 Table 15 APEC economy natural energy resource potentials (for 1999) 81 Table 16 GMS interconnection projects 84 Table 17 Projected industrial energy demand in Thailand 87 Table 18 Possible natural gas markets in the industrial and electricity sectors 87 Table 19 Natural gas supply for Thailand 88 Table 20 Electricity cost comparisons 89 Table 21 Projected industrial energy demand in the Philippines 90 Table 22 Possible natural gas markets 91 Table 23 Projected sources of natural gas supply in the Philippines 91 Table 24 Electricity cost comparisons 92 Table 25 Energy demand forecast for Singapore 93 Table 26 Possible supplies of natural gas for Singapore 94 Table A 1 Isolated case 110 Table A 2 Connected Case 1 (Scheme 1) 110 Table A 3 Connected Case 2 (Scheme 2) 111 Table A 4 Connected Case 3 (Scheme 3) 111 Table A 5 Estimated reserve margins (for selected regions) 112 Table A 6 Estimated fuel ratios for APEC economies 113 Table A 7 Comparison between isolated and connected cases (Scheme 1) 114 Table A 8 Comparison between isolated and connected cases (Scheme 2) 115 Table A 9 Comparison between isolated and connected cases (Scheme 3) 115 Table A 10 Power exchange flows (2011-2020) 116 Table A 11 Outline of each interconnection plan 118 Table A 12 List of cost elements 118 Table A 13 Transmission line utilisation factors for Scheme 2 126 Table A 14 Cost-benefit for interconnection transmission line for Scheme 2 127 LIST OF FIGURES Figure 1 Interconnected European gas network 17 Figure 2 The European electricity network 18 Figure 3 Major gas transportation corridors in the US and Canada 21 Figure 4 Projected fuel demand for power generation in 2010 29 Figure 5 CO2 emissions from electricity generation (1995 - 2010) 31 Figure 6 Natural gas, hydropower and oil resources in Northeast Asia 40 Figure 7 Natural gas, hydropower and oil resources in Southeast Asia 40 Figure 8 Power generation decline in Siberia 55 Figure 9 Potential power grid interconnections in Northeast Asia 59 Figure 10 Proposed gas and power interconnection routes in Northeast Asia 63 Figure 11 Map showing existing and planned cross-border pipelines in SE Asia 72 Figure 12 Map showing proposed Trans-ASEAN Gas Pipeline in 1996 73 Figure 13 Electricity projections for SE Asia - Baseline Scenario 76 Figure 14 Electricity projections for SE Asia - Protracted Crisis Scenario 77 Figure 15 Southeast Asia power interconnection projects 78 Figure 16 GMS power interconnection projects 78 Figure 17 Proposed pipeline routes (PNG & East Timor to Australia) 96 Figure A 1 Demand forecast for B98 Scenario 112 Figure A 2 Power flow direction (Scheme 1) 116 Figure A 3 Power flow direction (Scheme 2) 117 Figure A 4 Power flow direction (Scheme 3) 117 Figure A 5 Power flow between Thailand and Peninsular Malaysia 119 Figure A 6 Energy flow between Thailand and Peninsular Malaysia 120 Figure A 7 Power flow between Peninsular Malaysia and Sumatra 120 Figure A 8 Energy flow between Peninsular Malaysia and Sumatra 121 Figure A 9 Power flow between Peninsular Malaysia and Sarawak 121 Figure A 10 Energy flow between Peninsular Malaysia and Sarawak 122 Figure A 11 Power flow between Sumatra and Java 122 Figure A 12 Energy flow between Sumatra and Java 123 Figure A 13 Power flow between Peninsular Malaysia and Singapore 123 Figure A 14 Energy flow between Peninsular Malaysia and Singapore 124 Figure A 15 Power flow between Sarawak and Brunei Darussalam 124 Figure A 16 Power flow between Brunei Darussalam and Sabah 125 Figure A 17 Power flow between Philippines and Sabah 125 LIST OF ABBREVIATIONS ABARE Australian Bureau of Agricultural and Resource Economic AC Alternating current ACE ASEAN Centre for Energy AEEMTRC ASEAN-EC Energy Management Training and Research Centre APEC Asia Pacific Economic Cooperation APERC Asia Pacific Energy Research Centre ASCOPE ASEAN Council on Petroleum ASEAN Association of Southeast Asian Nations B98 Baseline-1998 Scenario BAU Business-as-usual BCF Billion cubic feet BCM Billion cubic metres BCMY Billion cubic metres per year BP British Petroleum BTU British thermal unit CCGT Combined cycle gas turbine CEERD Centre for Energy-Environment R&D - Asian Institute of Technology CIGRE Conference Internationale des Grands Reseaux Electriques CLP China Light and Power Company CNPC China National Petroleum Corporation CO2 Carbon dioxide DC direct current DPRK Democratic People's Republic of Korea (or North Korea) EDF Electricite de France EDMC Energy Data and Modelling Centre (Japan) EFS Environmentally Friendly Scenario EGAT Electricity Generating Authority of Thailand EGEAS Electric Generation Expansion Analysis System EIA Energy Information Administration (USA) EPDC Electric Power Development Company (Japan) EPRI Electric Power Research Institute EPS Electric Power System ES Energy System ESPRIT Electric System Planning Program Reflecting Interconnection & Transmission EU European Union EVSL Early Voluntary Sectorial Liberalisation EWG Energy Working Group FERC Federal Energy Regulatory Commission (USA) FGD fuel gas desulphurised GDF Gaz de France GDP Gross domestic product GHG Greenhouse gas GJ Gigajoules GMS Great Mekong Sub-region GVA Gross Value Added GW Gigawatt (= one million kilowatt) GWh Gigawatt hour (= one million kilowatt hours) HAPUA
Load more

Recommended publications
  • Regional Climatology East Asian Seas: an Introduction
    NOAA Atlas NESDIS 79 doi:10.7289/V5D21VM9 REGIONAL CLIMATOLOGY OF THE EAST ASIAN SEAS: AN INTRODUCTION National Centers for Environmental Information Silver Spring, Maryland December 2015 U.S. DEPARTMENT OF COMMERCE National Oceanic and Atmospheric Administration National Environmental Satellite, Data, and Information Service National Centers for Environmental Information Additional copies of this publication, as well as information about National Centers for Environmental Information (formerly the National Oceanographic Data Center) data holdings and services, are available upon request directly from the National Centers for Environmental Information. National Centers for Environmental Information User Services Team NOAA/NESDIS/NCEI SSMC III, 4th floor 1315 East-West Highway Silver Spring, MD 20910-3282 Telephone: (301) 713-3277 E-mail: [email protected] NCEI Oceans Home Page: http://www.ncei.noaa.gov/ This document should be cited as: Johnson, D.R., Boyer, T.P., 2015: Regional Climatology of the East Asian Seas: An Introduction. NOAA Atlas NESDIS 79, Silver Spring, MD, 37 pp. doi:10.7289/V5D21VM9. This document is available at http://data.nodc.noaa.gov/woa/REGCLIM/EAS/DOC/nesdis79-doi107289V5D21VM9.pdf. Editor: Dan Seidov, National Centers for Environmental Information Technical Editor: Alexey Mishonov, National Centers for Environmental Information NOAA Atlas NESDIS 79 doi:10.7289/V5D21VM9 REGIONAL CLIMATOLOGY OF THE EAST ASIAN SEAS: AN INTRODUCTION Daphne R. Johnson and Tim P. Boyer National Centers for Environmental Information Silver Spring, Maryland December 2015 U.S. DEPARTMENT OF COMMERCE Penny Pritzker, Secretary National Oceanic and Atmospheric Administration Kathryn Sullivan Under Secretary of Commerce for Oceans and Atmosphere and NOAA Administrator National Environmental Satellite, Data, and Information Service Stephen Volz, Assistant Administrator This page intentionally left blank Table of Contents ABSTRACT ......................................................................................................................................
    [Show full text]
  • Joint Industry Programme
    CETACEAN STOCK ASSESSMENT IN RELATION TO EXPLORATION AND PRODUCTION INDUSTRY SOUND by Prepared for Joint Industry Programme 30 September 2009 LGL Report TA4582-1 CETACEAN STOCK ASSESSMENT IN RELATION TO EXPLORATION AND PRODUCTION INDUSTRY SOUND by LGL Limited, environmental research associates 22 Fisher Street, POB 280 King City, Ontario, Canada L7B 1A6 9768 Second Street Sidney, British Columbia, Canada V8L 3Y8 and LGL Alaska Research Associates Inc. 1101 East 76th Avenue, Suite B Anchorage, Alaska, United States 99518 Prepared for Joint Industry Programme 30 September 2009 LGL Report TA4582-1 Executive Summary Purpose and Objectives This project investigated the relationship between the oil industry‘s offshore E&P activities and trends in the distribution, abundance and rates of increase of key cetacean stocks found in three areas where E&P activities are intensive. The approach taken was to compare the status and population trends of stocks of key cetacean species in three areas with E&P activities―Alaska (subdivided into three regions, the Beaufort, Bering and Chukchi seas), Australia (Western and southeast regions), and Sakhalin Island, Russia―with corresponding parameters for stocks of the same species (where possible) in areas where E&P activities were absent or greatly reduced. The project involved a critical review of existing and historical data on cetacean stocks, and a compilation of data on E&P activities and non-industry factors that may have influenced stocks, in the areas of interest. Data were assessed in terms of quality, quantity, and temporal and spatial coverage to determine whether sufficient data were available for a reasonable assessment of correlations between cetacean populations and E&P activities.
    [Show full text]
  • Sakhalin-1 Project Report on Environmental Protection Activities
    SAKHALIN-1 PROJECT REPORT ON ENVIRONMENTAL PROTECTION ACTIVITIES EXXON NEFTEGAS LIMITED 2017 Report on ENL Environmental Protection Activities in 2017 Sakhalin-1 Project Table of Contents 1. Health, Safety, and Environmental Protection in 2017 .………………………………………3 2. 2017 Environmental Performance………...…………………………………..………………..3 2.1 Waste management ….………………………………………………………………..3 2.2 Water use, water consumption, and wastewater disposal …………………………8 2.3 Air emissions ……………………………………………………………………………9 2.4 Oil/Products spill response activities ….…………………………………………….11 2.5 Purchasing emergency response equipment (OSR, fire and rescue equipment) 14 2.6 Expenditures for environmental protection ……………… …………………….…..15 2.7 Payments for the use of natural resources ……………..……………………….…...15 3. Key Environmental Protection and Environmental Monitoring Programs …...…………….16 3.1 Pipeline right-of-way repair and maintenance ……………………………………....16 3.2 Environmental monitoring and in-process oversight ………………………………16 3.3 Environmental monitoring and in-process oversight results in 2017 .……………19 3.4 Key environmental protection programs ……………………………………………25 3.5 Compensation for damage to aquatic biological resources ….……………………28 Attachment: ENL’s SSHE performance in 2014-2017. 2 Report on ENL Environmental Protection Activities in 2017 Sakhalin-1 Project 1. HEALTH, SAFETY, AND ENVIRONMENTAL PROTECTION IN 2017. In 2017 Exxon Neftegas Limited conducted the following major activities to develop a culture of safety, health, and environmental protection: ♦ Promotion of safety
    [Show full text]
  • October 1988
    THE LONG BATTLE FOR EQUAL PAY-TRUMPS OR TRUCE? TENTH YEAR OF PUBLICATION OCTOBER 1988 Playwright Renee Talks for the first tii The Mervyn Thomi VIOTHERHOOi wo W om en’s Stories WAHIA PUBLI < Growing Future or M aori Artists t Writers LIBRARY AUCKLAND OLLEGE OF El REBEL OR REACTIONARY? t u r n % The Gluepot Hotel in Ponsonby will host two seasons of comedy cabaret Dare Swan during the Festival. Tickets $16 inc. Booking and GST. O C3 Tue 25th to Sat 29th October. 8pm nightly, Matinee 2pm Sat. The Auckland Comedy Festival will showcase a season by Sydney dance company Dare Swan at the Maidment Theatre in the last week of October. Dare Swan (pictured below) was founded in 1982 and comprises New Zealanders Chris Jannides and Kilda Northcott, founding members of Limbs Dance Cabaret — Week One. Company, Peta Rutter, formerly of Slick Stage, as Oct 26-29. Gluepot. well as Australian’s Kaye Freeman and Anastasi Siotasis. Red Mole join local Comedy- store star Chris Hegan, Sydney mime Ira Seidenstein, and the father of the Christchurch Fringe, River, for a three hour cabaret show, running Wednesday to Saturday in the first week of the Festival. Aucklanders will remember Red Mole from their work in the late seventies, and their appearance at the Sweetwaters Festival in 1980. The core of the group (pictured above), now based in Wellington after a decade of work in America and Europe, will return to Auckland for the Comedy Festival with newly created B O O K ^ a ^ S cabaret material. MmmoKmm Mmmmmm ■ m m H p e r iv n I 1 L f J U 1 T VJL i Presented by Expression Multi-media and the Aotea Centre in association with No Ordinary beer.
    [Show full text]
  • Routes and Intensity of Geese Migration Over Northern Sakhalin and the Mainland Part of Tatar Strait I
    ISSN 10674136, Russian Journal of Ecology, 2011, Vol. 42, No. 2, pp. 151–160. © Pleiades Publishing, Ltd., 2011. Original Russian Text © I. M. Tiunov, A. Yu. Blokhin, P. A. Faiman, 2011, published in Ekologiya, 2011, No. 2, pp. 134–143. Routes and Intensity of Geese Migration over Northern Sakhalin and the Mainland Part of Tatar Strait I. M. Tiunova, A. Yu. Blokhinb, and P. A. Faimanc aInstitute of Biology and Soil Sciences, Far East Branch, Russian Academy of Sciences, pr. Stoletiya Vladivostoka 159, Vladivostok, 690022 Russia; email: [email protected] bSakhalin Ecological Company, ul. Rozhdestvenskaya 63, YuzhnoSakhalinsk, 693007 Russia cResearch Institute for Applied Mechanics, 61 Kasuga, Fukuoka, 8168580 Japan Received March 26, 2010 Abstract—The intensity of geese migration has increased since 2005, and its routes have shifted eastward. The main migration route of the geese previously passed over the northwestern Sea of Okhotsk, far from the coast; since 2005, however, a major migration flow has been recorded over northern Sakhalin and the main land part of Tatar Strait. A probable factor accounting for this shift is a change in weather conditions and, in particular, in the circulation of air masses over the northwestern Sea of Okhotsk. Keywords: geese, migration, flight dates, numbers, northern Sakhalin, Tatar Strait. DOI: 10.1134/S1067413611010139 Sakhalin Island is located on the East Asian–Aus and on the mainland coast of Nevelskoy Strait tralasian flyway. Its diverse and extensive wetlands and between the village of DeKastri to the Tymi River on coastal biotopes offer a major resting and feeding stop the north, mainly in autumn, in 2001–1008 (Fig.
    [Show full text]
  • Ddc Master Status
    Full List of Road Paving Projects since 2005 Data Date: Jun 2, 2015 Note: Listing and Status subject to change. *Planned projects are subject to utility clearances and availability of funds Street Name Street From Street To Status 10TH AVE 10TH AVE END Construction to Start within a year 10TH AVE MAUNALEI AVE ALOHEA AVE Road Paved 10TH AVE PALOLO AVE WAIALAE AVE Construction to Start within a year 10TH AVE (ONLY FWY HARDING AVE PAHOA AVE Road Paved UNDERPASS R/W) 11TH AVE PAHOA AVE KILAUEA AVE Road Paved 11TH AVE WAIALAE AVE HARDING AVE Road Paved 12TH AVE H1 FWY ALOHEA AVE Road Paved 12TH AVE HARDING AVE LUNALILO FWY Road Paved 12TH AVE WAIALAE AVE HARDING AVE Road Paved 13TH AVE 175 FEET BELOW WAIALAE AVE Road Paved CLAUDINE ST 13TH AVE WAIALAE AVE *Planning phase (Construction Est. to Start after 2015) 13TH AVE WAIALAE AVE PAHOA AVE Road Paved 141 MIKALEMI ST SERVES 99-141 TO 99 MIKALEMI ST TO GATE *Planning phase (Construction Est. to Start -151 after 2015) 14TH AVE KEANU ST WAIALAE AVE Road Paved 14TH AVE WAIALAE AVE *Planning phase (Construction Est. to Start after 2015) 14TH AVE WAIALAE AVE KAIMUKI AVE Road Paved 15TH AVE H1 FWY KILAUEA AVE Road Paved 15TH AVE NOEAU ST WAIALAE AVE Road Paved 15TH AVE WAIALAE AVE HARDING AVE Road Paved 16TH AVE KOKO DR WAIALAE AVE Road Paved 16TH AVE WAIALAE AVE KILAUEA AVE Road Paved 17TH AVE H1 FWY KILAUEA AVE Road Paved 17TH AVE NOEAU ST WAIALAE AVE Road Paved 17TH AVE WAIALAE AVE LUNALILO FWY Road Paved 18TH AVE HARDING AVE DIAMOND HEAD RD Road Paved 19TH AVE H1 FWY KILAUEA AVE Road Paved Full List of Road Paving Projects since 2005 Data Date: Jun 2, 2015 Note: Listing and Status subject to change.
    [Show full text]
  • CAMUNA CAVI REFERENCE LIST 080818.Xlsx
    A LAPP GROUP COMPANY REFERENCE LIST ISO 9001, ISO14000, ISO 50001 CERTIFIED COUNTRY DESTINATION PLANT / PROJECT PURCHASER / END USER YEAR Italy Vezzano Power Plant ENEL Trento 1994 Greece Keratsini Keratsini Unit 8 Power Plant ALCATEL/ANSALDO 1995 Indonesia Java Barat Gunung Salak G.P.P. 55 MW ALCATEL/ANSALDO 1995 Singapore Singapore Senoko Power station Ext. of Gas Turb. SIEMENS/POWER GEN. (SENOKO) Pte. Ltd. 1995 Algeria Annata No.2 Furnace Ribuild ITALIMPIANTI SpA/SIDER C. SIDERURGIQUE 1996 China Ningbo NZP Plant FROESCHL/SIEMENS ERLAGEN 1996 China Shanghai Project D68 SINCO ENGINEERING/ CHINAYIZHENG CH. FIBER C 1996 Colombia Covenas Oleoducto Central S.A. Full Field Dev. BOUYGUES OFFSHORE 1996 Egypt Alexandria Alexandria Petroleum Crude Oil Furn. KIRCHNER ITALIA Spa 1996 Italy Augusta (SR) LSADO Project Step 2 ESSO ITALIANA S.p.A. 1996 Italy Civitavecchia Torrevaldaliga N. Plant ENEL- CIVITAVECCHIA 1996 Italy Milazzo Heaters Automation AGIP PETROLI 1996 Italy Milazzo Control Centralization LC-Finer AGIP PETROLI 1996 Italy Pallanza Project CF-762 SINCO ENGINEERING/ITALPET 1996 Italy Priolo Gargallo (Sr) Interconnecting Plant ERG PETROLI 1996 Italy Priolo Gargallo (Sr) Revamping Unit 200 A NHDS ISAB S.p.A. 1996 Italy Priolo Gargallo (Sr) Thermoelectric Power Plant ENEL-Palermo 1996 Italy Sarroch Hydrocracking Plant SARAS Spa 1996 Italy Sarroch Intrinsically-safe Plant HOECHST ITALIA Spa 1996 Pakistan Hub River Hub Power Project 4x323 MW ANSALDO/HUBCO POWER Co 1996 S.Arabia Yanbu Ibn Rushd/PTA Plant Hot Oil Furnace KIRCHNER/TECNIMONT 1996 Belgium Feluy Manufacturing Units TELEREX S.A. / PANTOCHIM 1997 Egypt Suez 10 H-1 Heater Revamp. Project KIRCHNER ITALIA S.p.A./ SUEZ OIL 1997 France St.
    [Show full text]
  • Environmental Management and Environmental Protection Policy
    ENVIRONMENTAL MANAGEMENT AND ENVIRONMENTAL PROTECTION POLICY EXXON NEFTEGAS LIMITED SAKHALIN-1 PROJECT OPERATOR ExxonMobil Corporation Subsidiary 2019 Environmental Management and Sakhalin-1 Project Environmental Protection Policy. Contents 1 Introduction .................................................................................................................. 1-3 2 Operations Integrity Management System .................................................................... 2-4 3 Environmental management ......................................................................................... 3-6 4 ENL environmental protection policy ............................................................................ 4-8 5 Comprehensive assessment of Sakhalin-1 Project potential environmental, socioeconomic, and public health impact ................................................................... 5-10 6 Potential environmental impact prevention and mitigation .......................................... 6-12 6.1 Air Quality Protection ...................................................................................... 6-12 6.2 Protection of Surface Water ............................................................................ 6-13 6.3 Protection Against Physical Factors ................................................................ 6-14 6.4 Protection of the Geological Environment ....................................................... 6-14 6.5 Reducing Natural Landscape Fragmentation, Soil Protection, and Land Remediation ..................................................................................................
    [Show full text]
  • PICES-2011 Mechanisms of Marine Ecosystem Reorganization in The
    PICES-2011 Mechanisms of Marine Ecosystem Reorganization in the North Pacific Ocean North Pacific Marine Science Organization October 14-23, 2011 Khabarovsk, Russia Table of Contents Notes for Guidance � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � v Meeting Timetable � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �vi Keynote Lecture � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 1 Schedules and Abstracts S1: Science Board Symposium Mechanisms of Marine Ecosystem Reorganization in the North Pacific Ocean � � � � � � � 5 S2: BIO/POC Topic Session Mechanisms of physical-biological coupling forcing biological “hotspots” � � � � � � � � � 19 S3: FIS Topic Session Population dynamics, trophic interactions and management of cephalopods in the North Pacific ecosystems � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 31 S4: FIS/POC Topic Session Recent changes of North Pacific climate and marine ecosystems: Implications for dynamics of the dominant species � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 41 S5: MEQ Topic Session Harmful algal blooms in a changing world � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 59 S6: FIS/BIO Topic Session Observations of ecosystem mixing under climate change � � � � � � � � � � � � � � � � � � � � � � � 69 S7: MEQ/FUTURE
    [Show full text]
  • Morphology of the Te Tumu Cut Under the Potential Re-Diversion of the Kaituna River
    http://researchcommons.waikato.ac.nz/ Research Commons at the University of Waikato Copyright Statement: The digital copy of this thesis is protected by the Copyright Act 1994 (New Zealand). The thesis may be consulted by you, provided you comply with the provisions of the Act and the following conditions of use: Any use you make of these documents or images must be for research or private study purposes only, and you may not make them available to any other person. Authors control the copyright of their thesis. You will recognise the author’s right to be identified as the author of the thesis, and due acknowledgement will be made to the author where appropriate. You will obtain the author’s permission before publishing any material from the thesis. Morphology of the Te Tumu Cut Under the Potential Re-diversion of the Kaituna River A thesis submitted in partial fulfilment of the requirements for the degree of Master of Science in Earth and Ocean Sciences at The University of Waikato By Joshua Carl Mawer ________ The University of Waikato 2012 i Abstract Following the diversion of the Kaituna River from Maketū Estuary, out to sea at Te Tumu in 1956, the local community has continually voiced concerns over the estuary’s increased sedimentation rates and decreasing ecological health. These concerns led to the partial re-opening of Fords Cut in 1996. However, this has only resulted in a slight improvement in water quality, and no measurable reduction in sedimentation. The Bay of Plenty Regional Council is currently investigating a number of different re-diversion options to partially or fully restore the flow of the Kaituna River into Maketū Estuary, with the aim of restoring the estuary’s health.
    [Show full text]
  • Lake Wahakari MANAGEMENT PLAN CONTENTS
    Lake Wahakari MANAGEMENT PLAN CONTENTS 1. PURPOSE .....................................................................3 2. INTRODUCTION ...........................................................3 3. LAKE LOCATION MAP ..................................................5 4. LAKE OVERVIEW ..........................................................6 5. SOCIAL AND CULTURAL DIMENSION ...........................7 6. PHYSICAL CHARACTERISTICS ......................................8 7. CHEMICAL CHARACTERISTICS .....................................17 8. BIOLOGICAL CHARACTERISTICS ..................................21 9. LAND USE ....................................................................25 10. MONITORING PLAN .....................................................26 11. WORK IMPLEMENTATION PLAN ...................................28 12. BIBLIOGRAPHY ............................................................28 13. APPENDIX 1. GLOSSARY ..............................................29 2 LAKE WAHAKARI MANAGEMENT PLAN | Introduction 1. Purpose LAKE WAHAKARI MANAGEMENT PLAN The purpose of the Outstanding Northland Dune Lakes Management Plans is to implement the recommendations of the Northland Lakes Strategy Part II (NIWA 2014)1. PURPOSE by producing Lakes Management formedPlans, between starting stabilised with sand the dunes 12 along ‘Outstanding’ the west coast, represent a large proportion of warm, lowland valueThe purposelakes ,of and the Outstanding by facilitating Northland actionsDune with mana whenua iwi, landowners and other lakes in New
    [Show full text]
  • Asia Projects Engineering Pte Ltd (A Member of KYUDENKO Group) Empowering Engineering with Innovation
    Asia Projects Engineering Pte Ltd (A member of KYUDENKO Group) Empowering Engineering with Innovation CONTENTS • About APECO • Our Business • Projects • Maintenance & Operation • Safety, Health & Environmental • Our Core Competency • Our Major Clients • Company Information Our Achievements Standard Certification The National Board of Boiler and Pressure Vessel • ISO 9001 in Quality System Inspector • ISO 14001 in Environmental Management System • “R” stamp for Metallic Repair and/or Alteration • OHSAS 18001 in Health and Safety Management • “NB” stamp for Register Boilers, Pressure Vessels or System Other Pressure Retaining Items The American Society of Mechanical Engineers (ASME) Others • ASME “A” Stamp for Assembly of Power Boilers • BCA Registered Contractor • ASME “PP” Stamp for Fabrication and Assembly of • BizSafe Star Pressure Piping • MOM Approved Scaffold Contractor • ASME “S” Stamp for Manufacture and Assembly of • Qualified Electrical Contractor by ACES/IES Power Boilers Asia Projects Engineering Asia Projects Engineering Pte Ltd also known as APECO, has over decades of experience in providing integrated solutions and services in Engineering, Procurement, Construction, Commissioning, Fabrication, Maintenance and Material Handling. APECO has grown to be a leading engineering and maintenance company serving diversifi ed industries which include Power, Petrochemical, Oil & Gas, Utility and Infrastructures Industries. Our staff possess over decades experience in the industry, paired with extreme effi ciency and professionalism. You know you are in safe hands. A veteran corporation in catering infrastructural developments internationally, APECO has been able to include some of the largest Power Generation Companies in Singapore and Indonesia as its clients. We are one of South-East Asia’s most trusted engineering companies. Coupled with today’s technology our innovative approach allows you to get the best out of our team of engineering experts.
    [Show full text]