Your settings for cookies and pixels on

Select which cookies and pixels we are allowed to use. Please note that some cookies are necessary for technical reasons and must be enabled in order to maintain the functionality of our website. If you would like to benefit from every service on our website, please consider that you need to choose every cookie category. For more information, please refer to our Privacy Policy.

    • Maintain the stability of the website.
    • Save your log-in data.
    • Allow to improve the user experience.
    • They provide advertisements that are relevant to your interests.
    • They allow you to share interesting content directly with your social media network.

You can change your cookie and pixel settings on at any time via our data privacy.


Show Details
Select all Confirm selection

IPCC Application & Optimisation Studies

Central Eyre Iron Project (CEIP)

Client Iron Road Limited, South Australia
Location Australia
Expertise In-pit crushing and conveying (IPCC), continuous mining equipment, truck/excavator, conveyor, mine plan

Iron Road Limited (IRD) is developing the Central Eyre Iron Project (CEIP), Australia’s largest magnetite project located on the Eyre Peninsula in South Australia, with a planned total mining capacity of more than 300 Mtpa from a max.  600 m deep pit to ultimately gain an indicative 24 Mtpa of high quality iron concentrate over 25+ years. 

In light of the vast total material movement requirements and the significant final depth of the pit, IRD contracted the Thiess-RWE Joint Venture* (TRWE) to evaluate the application of low cost, sustainable mining solutions in 2014/2015.  Experienced TRWE mining personnel were embedded within Iron Road to bring world class mine planning and mining operations expertise, including extensive involvement in the successful application of in-pit crushing and conveying (IPCC) processes.  The results of the TRWE work included a hybrid IPCC/truck-excavator mining operation, which credibly demonstrated significant improvements in material movement efficiencies and contributed to a Project Optimization Study which in turn supported the previous Definitive Feasibility Study (DFS).

In 2017 TRWE concluded a review of the CEIP mine plan with a special focus on opportunities relating to early ore access and mine establishment costs, whilst leveraging efficiencies offered by the application and flexibility of proven, continuous mining systems.  TRWE’s preliminary assessment indicates that the revised mine schedule and cost structures could potentially deliver a significant CEIP NPV improvement.

* The Thiess-RWE Joint Venture combines RWE’s world-leading technical and operational expertise in open-cast continuous mining systems with Thiess’ proven performance in delivery of large scale mine infrastructure and full-service contract mining around the world.  The joint venture provides the full suite of in-house mine planning, engineering, operations and maintenance services.

Our Services

  • Development of an IPCC application concept
  • Elaboration of hybrid IPCC mine and dump layouts, including conveyor routes and selection of continuous mining equipment as well as truck/excavator fleets 
  • Completion of preliminary opex and capex comparisons between the recommended hybrid IPCC proposal and a pure truck/excavator base case.
  • Validation of the technical feasibility of a hybrid IPCC/truck-excavator mining operation in detail:
    – Phase 1: analysis and comparison of several alternative mine development options and equipment system layouts to select the preferred hybrid IPCC solution
    – Phase 2: completion of detailed mine planning, engineering and project cost estimating to demonstrate project improvement by application of IPCC technology
  • Review of the CEIP mine plan with a focus on upfront capital efficiencies that further enhance Central Eyre Iron Project (CEIP) value.

Related Projects

Bankable Feasibility Lignite Deposit


Read on

Bankable Feasibility Study


Read on

Feasibility Study For IPCC Coal Mine


Read on

Scoping study for a coal deposit in Australia


Read on

Pre-Feasibility IPCC system


Read more