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Design Engineer’s Scope of Work

Initial Definitive Study Planning and Implementation

Fully develop and detail the scope and implementation methodology of the definitive study and submit to the owner for approval Specific deliverables to be submitted as part of this initial phase are to include:

• Study scope of work and specific study deliverables list.

• Study resourcing plan.

• Study schedule.

• Study budget.

• Study procedures.

Feasibility Studies

Carry out a number of feasibility studies leading to specific recommendations in order to confirm and validate the optimal plant design and configuration Studies to

be undertaken will include but will not be limited to:

• Plant throughput.

• Plant location.

• Onsite production of additives.

• Availability of local supplies of materials.

The following requirements are divided into the different engineering disciplines and their relevant activities, such as process engineering, control systems engineer-ing, mechanical engineerengineer-ing, civil, structural architectural and environmental engi-neering, and electrical engineering.

Maintainability and Safety in Engineering Design, c  Springer 2009

Process Engineering

Testwork Review of all testwork completed to date together with a review of the

proposed future testwork program The results of any additional testwork under-taken are also to be incorporated into the design The contractor is also expected

to participate in any additional testwork program undertaken by way of attendance during testing and logging of results to ensure timely and accurate incorporation of data from testwork into the process design.

Process design Process engineering deliverables generally issued for detail design:

• Process description and block flow diagrams.

• Process design criteria.

• PFDs for normal, start-up, shutdown & upset conditions.

• Heat and material balances for normal, start-up, shutdown and non-steady-state

conditions.

• Dynamic mass-balance simulation model.

• Plant water balance (including tailings & evaporation ponds).

• Process and utility P&IDs.

• Consumption, waste and emission summary.

• Utility summary.

• Process/utility integration and optimisation study for normal operation, start-up,

shutdown and upset process conditions.

• Preliminary Hazop reviews.

Plant layout

• Dimensional site plan.

• Unit plot plans.

• General arrangement plans, elevations and sections.

Piping

• Piping design criteria.

• Pipe and valve specifications.

• Line and valve lists.

• Site plan review for critical and expensive pipe routings, access arrangements

and process requirements.

• Preliminary MTOs in sufficient detail for estimate purposes.

Control Systems Engineering

• Control system, operating philosophy & strategy.

• Advanced controls—where applicable.

• Applicable codes & standards.

• DCS specifications.

• Instrumentation list.

• Inline instrument data sheets.

• Control and automation plan.

• Process package plant control philosophy.

• Emergency shutdown philosophy.

• Fire and gas detection philosophy.

• Plant communications philosophy.

• CCTV & UHF radio requirements.

• Instrument air and UPS requirements.

• Standard installation details.

• Specifications for general instruments, control valves and safety systems.

• Control room layout.

Mechanical Engineering

• Mechanical design criteria.

• Full equipment list.

• Technical specifications.

• Technical data sheets.

• Reliability and maintainability analysis.

• Maintenance spares list.

Civil, Structural and Architectural Engineering

• Civil, structural and architectural design criteria.

• Coordination and integration of geotechnical investigations and topographic

sur-veys.

• Preliminary designs for:

– Buildings; descriptions and conceptual designs for any required buildings and structures.

– Water supply systems and dams.

– Standard steelwork connection details.

– Underground drainage:

· sanitary.

· contaminated storm water.

• Roads and site earthworks.

• Pipe racks—loads and congestion.

• Foundations—design requirements.

Electrical Engineering

• Electrical design criteria.

• Electrical equipment list.

• Electrical load list.

• Motor list.

• Technical specifications and data sheets.

• Preliminary design of all facilities downstream of the main power transformers

through to main users including all transformers, sub-stations and MCCs.

• Voltage selection for high-KW motors.

• Emergency power supply requirements.

• Plant lighting design.

• Preliminary data and communication equipment requirements.

• Optimisation study on number and size of generating units.

• Power generation control philosophy.

• Load cycle strategy for various plant operating modes.

• Load sharing study between diesel and steam turbines.

• SLDs for each unit.

• Overall SLD for total power supply system.

• GAs for electrical equipment/sub-stations.

• Standard installation drawings.

• Standard schematic and termination drawings.

• Grounding/earthing system preliminary design.

• Cable ladder route layout drawings.

• MTOs for estimate purposes.

Loss Prevention

• Fire protection, and safety equipment requirements review.

• Plant layout review—spacing of equipment.

• Emergency shutdown plan.

• Area classification (schedule and layout drawings).

• Design of fire and gas detection systems.

• Design of fire protection system.

• Spill control/containment strategy.

• Noise control.

• Ventilation.

Environmental and Permitting

Liase, interface and support the nominated environmental consultant with the eval-uation and assessment of impacts as required, including:

• Ambient air quality/source.

• Waste water discharge.

• Fugitive emissions.

• Noise regulations.

• Visual impacts.

• Product transportation issues.

• Permitting/statutory requirements.

Mining

Liase, interface and support the nominated mining consultant as required on activi-ties that will include as a minimum:

• Geotechnical investigations.

• Pit optimisations.

• Preparation of pit designs and ore reserve statements.

• Mine scheduling.

• Preparation of waste dump and haul road designs.

• Pit permeability investigations.

• Determination of materials handling properties.

• Preparation of a detailed report.

Constructability and Logistics

Constructability and logistical study addressing the following:

• Identification of delivery routes and lifting/rigging of heavy equipment.

• Site access for construction equipment.

• Scope for modularisation and offsite assembly.

• Strategy for minimising double handling of equipment and different bulk

mate-rials.

• Strategy for minimising clashes onsite.

• Plan for incorporation of locally based contractors as appropriate.