Siemens Wind Power / HSE Service By: Jesper.Haaning@siemens.com Skilled? Risk prevention! Maritime prepared? Safe? Offshore Wind Turbine service For internal use only / Siemens Protection AG 2008. notice All / Copyright rights reserved. notice
Siemens Wind Power priority: First priority: Safety Second priority: High availability Page 2
Safety management: Identify hazard Eliminate risk Reduce risk Protect against hazards according to residual risk Never compromise on safety Defining company flight height and never step down! ISO certified management & environmental systems ( Expect OSHA 18001 certification ultimo 2010 ) Page 3
Safety strategy Proactive Protective Reporting, monitoring & evaluation Reactive Health, Safety & Environment Plan (HSE Plan) Page 4
Proactively: Incorporating safety into the design of turbines Work instructions manuals Risk assessment Safe Method Statements - Approved Written Procedures Training : SWP technical level structure SWP training matrix SWP Basic safety training SWP Offshore training Low Voltage Live work electrical training SWP Advanced rescue training SWP Structure of refresher training Company standards: Lifting, Manual handling, Work at heights, Environment ect. Procedures & Instructions Emergency response plans & Rescue equipment Vetting & audit program for suppliers and contractors HSE plan for the individual site Safety meetings, safety walks and safety campaigns Page 5
Protective: Thorough testing of, selection of, and development of Personal Protective Equipment (PPE). PPE & Personal fall Protection Equipment (PFPE) Company standards Procedures for use of equipment &PPE Instructions for use of equipment & PPE Online Material Safety Data Sheets (MSDS / COSH) Page 6
Reporting, monitoring & evaluation : It is the company's policy to report all deviations from planed procedures within the categories: Dangerous situations / Unsafe acts Near miss First aid Medical treatment Restricted work cases Lost time cases Environmental incidents -into SWP HSE Crises Management Database: KRIMA KRIMA constantly monitored and evaluated Page 7
Reactive: KRIMA evaluation appropriate adjustments of: Design Procedures Training Instructions & manuals Equipment Emergency response plans & procedures Procedures for Stop work, Safety alerts and Safety stand down Disciplinary actions Page 8
Taking the safe system of work at sea! Taking your Safe System of Work at sea sets a different scope of challenges: Environment: Distance: Logistics: Page 9 Water (Salt!) Waves Current Tide Wind Lightning Temperatures Transportation Rescue response time Coordination Monitoring of environment Communication Training Planning Appropriate equipment Rescue preparedness Well fare Emergency Response plans
How does Siemens Wind Power confront this during service? Environment: Distance: Logistics: Water (Salt!) Waves Current Tide Wind Lightning Temperatures Transportation Rescue response time Coordination Monitoring of environment Communication Training Planning Appropriate equipment Rescue preparedness Well fare Emergency Response plans Page 10
Effect of your effort: Availability: In an onshore environment the availability is primarily affected by: Design Logistics In an offshore environment a third factor has a major impact on availability: Your ability to access the offshore wind turbines Key issues for success: Ability to manage a Safe system of work in a maritime envoirment. Maritime sustainable turbine design. Adoption of maritime solutions of safe and effective transport & access. Page 11
Is it working? Siemens Wind Power / Service Development in Accident Frequency Rate (AFR) From FY2008 to FY2010 the reduction in AFR is: 40% Based on SWP statistics, the offshore AFR is aligned with the onshore AFR, and do not exceed the total service AFR. This indicate that SWP successfully has migrated the Safe system of work from onshore service to offshore service. Page 12
Thank you for Your attention! Questions welcomed! Page 13