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国家海洋局关于进一步规范海上风电用海管理的意见正文:----------------------------------------------------------------------------------------------------------------------------------------------------国家海洋局关于进一步规范海上风电用海管理的意见国海规范〔2016〕6号沿海各省、自治区、直辖市和计划单列市海洋厅(局),局属有关单位:海上风电是我国新兴的可再生能源产业,发展海上风电对于促进沿海地区能源结构调整优化和转变经济发展方式具有重要意义。
同时,海上风电项目实际占用和影响的海域面积大,对海域空间资源具有立体化和破碎化的影响。
为促进海上风电产业的持续健康发展和海域空间资源的科学合理利用,维护健康的海洋生态环境,根据有关规定和要求,现就进一步规范海上风电用海管理提出以下意见。
一、充分发挥海洋空间规划控制性作用,优化海上风电场选址海上风电项目用海必须符合海洋主体功能区规划和海洋功能区划,优先选择在海洋功能区划中已明确兼容风电的功能区布置,一般不得占用港口航运区、海洋保护区或保留区等功能区;海洋功能区划中没有明确兼容风电功能的,应当严格科学论证与海洋功能区划的符合性,不得损害所在功能区的基本功能,避免对国防安全和海上交通安全等产生影响。
深入贯彻落实生态文明建设要求,统筹考虑开发强度和资源环境承载能力,科学选定风电建设区域。
鼓励海上风电深水远岸布局,在当前和未来开发强度低的海域选址建设,原则上应在离岸距离不少于10公里、滩涂宽度超过10公里时海域水深不得少于10米的海域布局。
在各种海洋自然保护区、海洋特别保护区、自然历史遗迹保护区、重要渔业水域、河口、海湾、滨海湿地、鸟类迁徙通道、栖息地等重要、敏感和脆弱生态区域,以及划定的生态红线区内不得规划布局海上风电场。
海上风电场日常工作流程英文回答:The daily workflow of an offshore wind farm involves several key activities to ensure smooth operations and maintenance. Here is an overview of the typical daily work process:1. Morning Briefing: The day starts with a morning briefing where the operations team gathers to discuss the tasks and priorities for the day. This includes reviewing maintenance schedules, weather conditions, and any issues from the previous day.2. Preparing Equipment: The next step is to prepare the necessary equipment and tools for the day's tasks. This may involve checking and refueling vessels, inspecting safety gear, and ensuring all necessary tools are available.3. Maintenance and Repairs: The maintenance team thenproceeds with scheduled maintenance tasks such as inspecting and lubricating turbine components, checking electrical systems, and replacing worn-out parts. They also address any repairs or issues that may have been identified during routine inspections.4. Monitoring Operations: Throughout the day, the operations team continuously monitors the performance of the wind turbines and other equipment. They use advanced monitoring systems to track energy production, detect any anomalies or malfunctions, and ensure optimal performance.5. Safety Inspections: Regular safety inspections are conducted to ensure compliance with safety regulations and identify any potential hazards. This includes checking safety equipment, conducting emergency drills, and reviewing safety protocols.6. Environmental Monitoring: Offshore wind farms also have a responsibility to monitor and minimize their impact on the environment. This involves monitoring marine life, bird populations, and noise levels to ensure compliancewith environmental regulations.7. Reporting and Documentation: Accurate and detailed documentation is essential in the daily workflow of an offshore wind farm. This includes recording maintenance activities, equipment inspections, incident reports, and any other relevant data. This information is crucial for tracking performance, identifying trends, and ensuring compliance with regulations.8. Communication and Coordination: Effective communication and coordination among team members are vital for a smooth workflow. Regular meetings and updates are conducted to ensure everyone is informed about the progress of tasks, any issues or challenges, and any changes in plans.9. End of Day Review: The day concludes with a review of the day's activities, including any completed tasks, ongoing projects, and outstanding issues. This helps in planning for the next day and ensuring a seamlesstransition of work.中文回答:海上风电场的日常工作流程涉及多个关键环节,以确保运营和维护工作的顺利进行。
海上风电工程指南标准规范英文回答:Wind power is a rapidly growing source of renewable energy, and offshore wind farms have become increasingly popular due to their potential for higher wind speeds and larger turbine capacities. As a result, there has been a growing need for guidelines and standards to ensure thesafe and efficient development and operation of offshore wind projects.One important guideline for offshore wind projects is the International Electrotechnical Commission (IEC) 61400 series. This series of standards covers various aspects of wind turbines, including design, testing, and certification. It provides a framework for ensuring the reliability and performance of wind turbines in offshore environments. For example, IEC 61400-3 provides guidelines for the design and analysis of wind turbines, taking into account factors such as wind conditions, wave loads, and soil conditions.In addition to the IEC standards, there are also specific guidelines and standards that focus on the unique challenges of offshore wind projects. For example, the Carbon Trust's Offshore Wind Accelerator (OWA) program has developed a set of guidelines for the design andinstallation of offshore wind foundations. These guidelines take into account factors such as seabed conditions, water depth, and turbine size to ensure the safe and cost-effective installation of foundations.Furthermore, there are guidelines that address the environmental impact of offshore wind projects. The Joint Nature Conservation Committee (JNCC) in the UK, for instance, has developed guidelines for the assessment and monitoring of the potential impacts of offshore wind farms on marine wildlife. These guidelines help developers and operators minimize the negative effects on marine ecosystems and ensure compliance with environmental regulations.中文回答:海上风电是一种快速增长的可再生能源,由于其具有更高的风速和更大的风机容量的潜力,海上风电场变得越来越受欢迎。
海上风电场施工与运维通航安全管理技术要求1范围本文件规定了海上风电场施工与运维过程的基本要求、人员管理、船舶管理、施工与运维过程安全管理等要求。
本文件适用于风电场施工或运维企业在海上风电场开展施工或运维活动的安全管理。
2规范性引用文件下列文件中的内容通过文中的规范性引用而构成本文件必不可少的条款。
其中,注日期的引用文件,仅该日期对应的版本适用于本文件;不注日期的引用文件,其最新版本(包括所有的修改单)适用于本文件。
GB/T11651个体防护装备选用规范GB/T35204风力发电机组安全手册GB/T37820.3船舶与海上技术船舶安全标志、安全相关标志、安全提示和安全标记的设计、位置和使用第3部分:使用原则NB/T10910海上风电场工程安全标识设置设计规范NB/T10208陆上风电场工程施工安全技术规范3术语和定义下列术语和定义适用于本文件。
3.1海上风电场在沿海海域开发建设的可将风能捕获、转换成电能,并通过输电线路送入电网的场所。
3.2海上风电场施工施工管理人员、船员、特种作业人员及其他施工人员等在施工海域进行的海上风电场的建设、安装、调试等作业。
3.3海上风电场运维施工管理人员、船员、特种作业人员及其他施工人员等在施工海域进行的海上风电场的维护、保养等作业。
3.4施工船舶在海上风电场区域范围内从事施工与运维工程作业的船舶。
4基本要求4.1制度建设4.1.1风电企业应建立船舶调度制度,合理编排船舶出海计划,掌握出海船舶、人员动态。
4.1.2风电企业应建立海上紧急情况报告制度,当海上发生紧急情况时,人员能就近向海事管理机构、海上搜救中心、岸基管理部门报告。
4.1.3风电企业应履行安全生产责任,制定海上交通安全专项制度。
4.1.4风电企业应制定海上风电施工及运维期的海洋环境保护方案,规范船舶、人员行为,明确船舶污染物收集、处置要求,严禁违规排放船舶污染物。
4.1.5风电企业宜进一步制定和完善双重预防机制相关制度,包含:——风险分级管控制度;——隐患排查治理制度;——全员安全生产责任制;——风险告知和隐患公告制度;——应急管理规定;——持续改进管理规定;——双重预防机制建设考核奖惩制度。
Instruction Manual NEMO500Version1.1 TM1. I ntroduction:This manual contains installation and safety information for the Nemo500 Wind turbine. The information in this manual is believed to be accurate and reliable; however,The Distributor assumes no responsibility for inaccuracies or omissions. Our company reserves the right to make changes to this product specification, or its manual, without prior notice. Therefore, check the Shoot Power Website for updates as necessary.The wind turbine, like other sources of electrical power, must be installed following the guidelines established by state and local regulations. Consult a local electrician or local planning and zoning offices for detailed information about your area.For your ease write the serial number of your wind turbine on the front of this manual. Store your manual and receipt together. You will need this information in the event of a warranty claim.CONGRATULATIONS!You will find your new wind turbine easy to install. However, it is important that you read this manual thoroughly prior to installation to assure proper performance and safety.If you have any questions after reading the manual, please contact the Distributor.2TABLE OF CONTENTS3. WIRING AND INSTALLATION PROCEDURES3.1 System wiring diagrams4.LOCATION SELECTION5. TOWER6.1 SINGLE WIND GENERATOR6.2CONTROLLER WIRING6.3 INSTALLATION OPERATION6.4 ATTACHING TO POLE6.5 STEP-BY-STEP INSTRUCTION7. WARRANTY POLICY7.1 ELEVATION8. SPECIFICATIONS 4 4 4 456 6789 10 1111 12 15 15 161. PRECAUTIONSThe wind turbine has been designed with your safety in mind. However,there are inherent dangers involved with any electrical and/or mechanicalequipment. Safety must be your primary concern as you plan the location,installation and operation of the turbine. At all times be aware of electrical,mechanical and rotor blade hazards.1.1 MECHANICAL HAZARDRotating blades present the most serious hazard. The rotor blades are made of very strong thermoplastic. At the tip, the blades may be moving at velocities over 275 miles per hour (440 km/hr). At this speed, the tip of a blade is nearly invisible and can cause serious injury. Under no circumstances should you install the turbine where a person could come in contact with moving rotor blades. DO NOT INSTALL THE TURBINEWHERE ANYONE CAN APPROACH THE PATH OF THE BLADES.1.2 ELECTRICAL HAZARDS*Observe all manufacturers' safety procedures when working around batteries andother electrical equipment.The wind turbine is equipped with sophisticated electronics designed to provide protection from high surge electrical dangers. The internal electronics of the wind turbine prevents open circuit voltages from rising above 20 volts for 12-volt systems. Please note that the inherent personal dangers from electrical current still exist, therefore caution should always be used when connecting this and other electrical devices.Heat in wiring systems is often a result of too much current flowing through anundersized wire or through a bad connection.Batteries can deliver a dangerous amount of current. If a short occurs in the wiringfrom the batteries, a fire can result. In order to avoid this threat, a properly sized fuseor circuit breaker is required in the lines connecting to the battery.1.3 INSTALLATION PRECAUTIONS:Installation procedures should be performed at ground level.Make sure that all batteries are disconnected throughout the installation process.Never install the AWS Wind Turbine upside down.Choose a day when the wind is calm.Connect the 2 wires coming from the Wind Turbine to the control switch panel. Then, connect control panel output wires to the battery bank.From Wind turbine and swtich panel has two wires(Black = Negative (-)Red = positive (+)) ensuring they do not made a mistake.1.4 OPERATION PRECAUTIONSCheck support structures, blades, and electrical systems regularly. The rotor blades are very strong; however, if they come in contact with a solid object, they can break. When performing periodic inspections, or if you must approach the path of the blades, disconnect the power leads from the battery and tie the wind turbine output leadstogether to stop /slow down the blades from rotating.Note: There is a short break-in period with new wind turbines. The bearings in both theturbine yaw and the turbine rotor will require approximately 60-100 hours of operation in normal wind speeds (approximately 18 – 20 mph, 8 – 9 m/s) before they are running at peak efficiency. During this break-in period, the turbine operation might appear sluggish.2. PACKAGE CONTENTSROTOR BLADES ARE SHARP. PLEASE HANDLE WITH CARE. USE CHART BELOW TO COMPARE PARTS.1. N ose Cone2. S crew Socket Head3. N ut-Jam-SAE 5/8-184. B lade5. H UB6. N ut-Nylock-SAE 6-327. S crew Socket head 10-24 x 1-1/2”8. F ace Assembly 10. Rotor11. O-Ring12. Body Assembly13. Snap Ring- 32 MM External 14. Yaw Shaft Assembly15. Internal MPPT Controller 16. Power Meter box63. WIRING AND INSTALLATION PROCEDURESYour Wind Turbine is shipped partially assembled. Please completely readall procedures before beginning installation. NOTE: Do not install the blade/hub until the turbine is mounted on the tower4mm hex key wrench (included)5mm hex key wrench (included)8mm hex key wrench (included)Power cables (not included):#12 AWG (American Wire Gage) stranded.Batteries (not included)Steel Pipe: 1 1/2", Schedule 40 steel pipe (Actual OD 1.875 inches, 48mm) (not included)Torque wrench with 4mm, 5mm, and 8mm hex drives (not included)Soldering iron or propane torch (not included)Rosin core solder (not included)Electrical tape or 1/4” (6-7mm) heat shrink (not included)Wire strippers (not included)Wire crimpers (not included)NOTE: Do not connect to the battery.Precheckand negative wires. With the wiresmore difficult to rotate. With the wires disconnected, it should spin freely.Every time connect the DCOUTPUT's wires (RED= Positive, BLACK = Negative)directly to the set of posts of thelighten to indicate that the controller is running properly.EVEN A SECOND, OR ELSE WILL DAMAGE THE WIND GENERATOR'S CONTROLLER AND VOID YOUR WARRANTY.4. LOCATION SELECTIONTo ensure good performance from the Wind Generator, it is important thatcare is taken in the site of the machine. Buildings, trees and rocky outcrops etc. disrupt the smooth flow of wind creating a “Wind Shear” with the wind velocity nearer the ground being slower than that higher up. Turbulence isalso created by these obstructions. Turbulence is detrimental as the swirlingair causes the Wind Generator to yaw continually thus stressing the mechanical parts and greatly increasing wear and tear.Sharp edgesCreate turbulence2H20HTurbulent airflow created by obstructions (Ad. P. Gipe, 93) Therefore, as a general rule the Wind Generator should be mounted twice as high as any such obstructions. The power obtained from the wind is proportional the cube of the wind speed, and the wind speed increases with height from the ground. A 26% increase in wind speed from a higher tower will yield a 100% increase in power from the wind generator. A little more money spent on a higher tower will harvest the same power as 2 machines! Preference should be given to the prevailing wind direction, but it should be noted that tall features behind the Wind Generator can also slow down the wind flow through the Wind Generator.7The Wind Generator should be mounted on a tower a minimum of 25'(8 meters) above any surrounding objects within a 500' (150m) radius.If this is not possible, then place it as high as you can. If this is a rooftop installation, it is important there are no objects around the structure that may block the wind.5. TOWERGreat care should be taken in the selection and preparation of the wind generator's tower, as this is the most difficult and crucial aspect of the entire installation. If you select a tower from another source or build your own, you are responsible for assuring the tower is suitable. As with all towers, you must first evaluate your site to determine the appropriate tower height, available space and reasonable cost.The following list considerations must be consulted:Number of Wind GeneratorsBudgetType: guyed, freestanding or rooftopSite: hills, trees, buildingsEase of useNote: Guyed And Freestanding Towers Are The Most Common Way To Install A Wind Generator. These Towers Are Available In All Shapes, Sizes And Costs. Caution: Do Not Install The Wind Generator Where The Path Of TheBlades Can Be Reached During Normal Operation! Never ApproachThe Wind Generator During Operation!Usually, the higher tower is erected, the greater the output, but also the greater cost and effort of the installation. If purchasing a taller tower will provide significantly more power it might offset the additional cost and effort. It's very important to mount the wind generator in the best winds while being balanced by the cost and effort of the installation.This Wind Generator is designed to use steel pipe 1.875 inch (48mm) outside diameter, equivalent to 1 ½ inch SCH 40 pipe, which can be usedin some tower applications. If larger pipe is used for your tower, makesure that the 1.875 inch pipe is at least 22 inch long or will damage the blades. Refer to SPHERE OF OPERATION (Minimum Safe Pole Length Above Obstructions).CAUTION: SAFETY, ENGINEERING AND LOCAL CODES MUST BE ADDRESSED BEFORE ATTEMPTING ANY INSTALLATION.NOTE: The yaw wires can support loads up to a total of 155 lbs. (70kg). If the wire weight is higher, you must install a strain relief to minimize the stress put on the hanging wires.NOTE: Towers must be capable of withstanding 155 lb. (70kg) of load in the horizontal direction at the Wind Generator.86.1. Single wind generatorGenerator Mode Lamp Status CauseNormal mode Stop mode Solid GreenFlashing redCharging wind speed3.13m/s to 9m/sRotor ro ta ting at lowspin or stopRotor ro ta ting at lowspin or stopFlashing red andgreen lightalternativelyThe alternatortemperatureexceeded 90C ortemperature sensordamageRotor rotating at0-1000rpmNormal mode Flashing green Charging windspeed to 9m/s to16m/sRotor rotating at1000rpm to 1500rpmSystem returns tonormal mode if thebattery voltagedrops below 13.1V,24V system 26.2VNormal ModeBattery fully charged(voltage exceeds 14.1V)or 24V system 28.2VNormallyNormallyOperationSystem returns to normal mode if the control temperature drops below 60CStop mode Solid red Rotor ro ta ting at lowspin or stopThe output is reach peakpower.It will stop 30minsand restart again9106.2 CONTROLLER WIRINGDo not make a wrong positive and negative connections to the power meter box or the battery bank.The wrong positive and negative connection or positive and negative in short circuit condition will damage the power meter box or wind turbine controller, the warranty will not cover.Black is for negative.When the green light is on or flashing, it is normal charging.Please connect with power meter box in any time, without power meter box positive and negative direct short circuit easily damaged internal controller in wind condition, the warranty will not covered.The power meter box main function is display and break the wind turbine, theMPPT controller in the wind turbine body.B”+” is battery”+”B”-” is battery”-”Wind”+” is Wind turbine”+” ; Wind”-” is Wind turbine”-” ;ImportantUse bolt driver to remove the 4pcs screws on the backside of the meter box and open it, then install the cables from the wind turbine and battery to the power meter box board as the following photo:For more information about some very economical tower kits for thewind generator, please refer or purchase them from your dealer or distributor.6.3 INSTALLATION OPERATIONChoose a calm day and have someone available to help during the installation process.NOTE: THE BLADE EDGES ARE SHARP. PLEASE HANDLE IT CAREFULLY. NOTE: DO NOT install the blade assembly until the body is mounted onthe tower.CAUTION: ALL BATTERIES MUST DISCONNECTED THROUGHOUTTHE INSTALLATION PROCESS!CAUTION: DO NOT INSTALL THE WIND GENERATOR WHERE THEPATH OF THE BLADES CAN BE REACHED DURING NORMAL OPERATION! NEVER APPROACH THE WIND GENERATOR DURING OPERATION!USE COMMON SENSE AND PLEASE BE CAREFUL!6.4 Attaching to poleRight Right WrongFigure 3 Proper Blade-to-Tower Clearances6.5 Step-by-step instructionsoutline of the Marine grade Nemo500 wind turbine installation process. This consolidated reference should only be used as an outline during installation. Refer to the appropriate sections for further details.1).Ensure the voltage systems of the wind generator and the battery bank are the same. Prepare the appropriate wires.2).Run the wire through the pipe and drag the wires near to the batteries(Do not connect to the battery), strip the insulation back from each set of wires.b a t t e r y3).Connect the Wind Generator to the wires and insulate the connections using either heat shrink tubing or a quality electrical tape.4).Once the yaw shaft is on the tower, firmly tighten the yaw clamp screws with the 4mm hex key to 3-5 foot pounds(4.0-6.5Nm). Be sure that it is securely attached to the mounts.Slide the yaw shaft all the way down over the end of pole being careful not to pinch the yaw wires. Be sure to leave enough slack in the wires so that if necessary, the Wind Generator can be removed.5) Prepare a grounding cable from yaw shaft screw, secure the grounding cable against the pipe with insulation tape for grounding the windgenerator by the pipe.6).Place one of the blades on the hub socket and insert one of the M6-15socket head cap screws. Place a plastic disk on the end of the screw, then place self-locking nut (M6) and tighten it with the 5mm hex key to 8-107). Remove the M16 nut from the rotor shaft. Slide the blades assembly ontothe blades assembly. Holding the blades assembly and tightening the M16nut lightly with the 8mm hex key. Finally, spin the blades slowly to be sure they turn freely.8mm Hex KeyCAUTION: DO NOT SCREW M16 NUT TOO TIGHTLY, OTHERWISE THE FACE BEARING WILL BE STUCK AND THE BLADES ROTATE DIFFICULTLY!9) Place the nose cone over the center line of the blades assembly and snap the nose cone into place. Carefully check it is secure by firmly pulling on and be sure all three edges are catch. Don't worry if the nose cone missing, it will not affect the performance of the wind generator.Nose Cone9)Before attaching the wiring to the battery, make sure that:a.All wires connect to the control box and battery ok.b.The stop switch is in the "Stop"position.Note: GroundingFor long-term operation and protecting the electronics, properly grounding is very important. Grounding procedures must be followed along with any local electrical codes.The negative wire of your system should be connected to a ground. This is usually done by connecting a wire from the negative battery terminal to a nearby ground rod. Wires with the same ratings as the positive andnegative wires must connect all system grounds.A ground electrode can be made for systems without an existing systemground from an 8 ft. (2.4 m) section of 3/4" (19 mm) galvanized pipe orconduit, or an 8 ft. (2.4 m) section of 5/8" (16 mm) iron or steel rod. Thisground electrode must be buried completely beneath the soil, at no more than 45 degrees from vertical, or horizontally at least 2 1/2 ft. (75 cm)beneath the surface. It is recommended that the ground electrode beinstalled as close as possible to the batteries for maximum lightningprotection. The base of the tower is also a good location for anappropriate surge arrestor.Caution: Improper Grounding Will Damage Your Wind GeneratorAnd Void Your Warranty.10)Carefully raise the tower and secure base and/or guy cables.Caution: Ensure That The Tower Is Vertical So That The WindGenerator Can Yaw (turn Into The Wind) Properly.CONGRATULATIONS! You have completed the installation process now.FEET1-500ftMETER 0-150m OUTPUT POWER 100%500-1,000ft1,000-2,000ft2,000-3,000ft3,000-4,000ft4,000-5,000ft 5,000-6,000ft6,000-7,000ft7,000-8,000ft8,000-9,000ft9,000-10,000ft 150-300m 300-600m 600-900m 900-1,200m 1,200-1,500m 1,500-1,800m 1,800-2,100m 2,100-2,400m 2,400-2,700m 2,700-3,000m 97%94%91%88%85%82%79%76%73%70%7.1 ELEVATIONAn important fact to keep in mind is elevation. The higher a Wind Generator is from sea level, the lower the air density. Air density is directlyproportional to the output of your Wind Generator. Here are somegeneral numbers to keep in mind when determine the maximum output that can be expected from a Wind Generator.7. Warranty policy proof of purchase is required(Receipt)Our company wind turbineour companyother obligations in connection to our company and it products. Any impliedOur company8. SPECIFICATIONSTMShoot Power Equipment Co., LtdMade In China。
中国船级社海上风电场设施检验指南2017生效日期:2017 年6 月1 日北京指导性文件GUIDANCENOTES GD10‐2017目录第 1 章通则 (1)第 1 节目的 (1)第 2 节适用范围和依据 (1)第 3 节定义和缩写 (1)第 4 节检验和证书 (2)第 5 节申请及责任 (5)第2 章海上风力发电机组 (7)第 1 节一般规定 (7)第 2 节风轮叶片 (7)第 3 节齿轮箱 (8)第 4 节发电机 (9)第 5 节变流器 (10)第 6 节变压器 (10)第7 节GIS (11)第8 节整机 (12)第9 节定期检验 (13)第3 章海上风力发电机组下部支撑结构及测风塔 (15)第 1 节结构 (15)第 2 节消防设备 (20)第 3 节逃生和救生设备 (20)第 4 节助航标志与信号设备 (20)第4 章海上升压站平台 (22)第 1 节结构 (22)第 2 节消防设备 (22)第 3 节电气和仪表设备 (25)第 4 节机械设备 (26)第 5 节逃生和救生设备 (28)第 6 节无线电通信设备 (29)第7 节助航标志与信号设备 (29)第8 节防污染 (30)第9 节起重设备 (30)第10 节直升机甲板设施 (32)第1章通则第1 节目的1.1.1 本指南是中国船级社(以下称本社)为海上风电场设施检验提供技术服务的指导性文件。
1.1.2 本指南的目的是指导本社检验人员对海上风电场设施进行检验,同时也为相关方提供参考。
第2 节适用范围和依据1.2.1 适用范围:本指南适用于由本社检验发证的中华人民共和国沿海水域的海上风电设施。
1.2.2 本指南规定的海上风电场设施是指海上风电场开发中涉及到的各种设施,包括海上风力风电机组及其支撑结构、升压站及测风塔等。
1.2.3 本指南不适用于浮式海上风电机组及浮式海上升压站。
1.2.4 法规、标准及指南(1)国务院第109 号《中华人民共和国船舶和海上设施检验条例》(1993)(2)国标《海上风力发电场设计规范》(2017)(3)中国船级社《海上风力发电机组规范》(2009 )(4)海事局《海上拖航法定检验技术规则》(1999 )(5)中国船级社《海上拖航指南》(2011)(6)中国船级社《在役导管架平台结构检验指南》(2014)(7)中国船级社《海上生产设施救生设备、无线电通信设备、航行信号设备法定检验指南》(2014)(8)中国船级社《海上生产设施防污染法定检验指南》(2014)第3 节定义和缩写1.3.1沿海水域:是指中华人民共和国沿海的港口、内水和领海以及国家管辖的一切其他海域。
