AEP Elical recently supported AEMO, Australia’s Energy Market Operator, with an assessment of the reliability of the coal fired power stations in the National Electricity Market (NEM).
AEP Elical undertook the Olympic Dam BFX project Asset Integrity & Maintenance Strategy study as planning component of the proposed $2.75 billion Brownfields Expansion.
AEP Elical was chosen to provide an expert independent review into the Power Station Control System at a mine site which utilised cutting-edge renewable technology.
This project included the upgrade of the lead smelting facility and introduction of the advanced metal recovery facility at Nyrstar's Port Pirie operations.
AEP Elical completed a High Voltage (HV) power supply concept design study which focused on the HV infrastructure as part of the QCoal Byerwen Project feasibility study.
AEP Elical was chosen to provide an expert independent review into the Power Station Control System at a mine site which utilised cutting-edge renewable technology.
AEP Elical was engaged to perform electrical safety review and basic electrical field checks across the site to evaluate and report on site management and control for effective current safe systems on work.
AEP Elical was engaged to undertake a structural inspection and condition report on the copper smelter crushing plant, a concept design to improve access to the bosh tank and a preliminary inspection of one of the two cooling towers.
AEP Elical was engaged to perform a structural and mechanical review of the headframe for the R62 Winder to determine the capacity of the headframe to withstand induced strains as a result of differential movement between the supporting legs.
AEP Elical was engaged to undertake a study to assess the requirements to increase battery backup capacity of uninterruptible power supplies associated with building safety services in the copper and uranium solvent extraction plants.
AEP Elical was engaged to investigate the tertiary crushed ore reclaim and feed arrangement and an alternate (bypass) system and to provide a concept design for an interim feed arrangement.