Tag Archives: Honeymoon

Boss looks for opex, production boost at Honeymoon uranium project with NIMCIX transition

Boss Resources has announced plans to evaluate the replacement of the existing solvent extraction (SX) columns on the Honeymoon uranium mine site, in South Australia, with new NIMCIX columns.

Initial results from test work indicate the potential for this to increase production profile and reduce operating costs for the project, Boss said.

The NIMCIX contactor is a continuous ion exchange (IX) column developed by Mintek (then the National Institute for Metallurgy – NIM) during the uranium boom of the 1970s and 1980s. A notable breakthrough, it enabled uranium to be recovered from unclarified solutions, according to Mintek.

Following a January 2020 feasibility study on Honeymoon, the company has embarked on technical optimisation studies which included completing NIMCIX IX process detail design and testing. In August, cost saving results from a GR Engineering review relating to reduced site power demand and transmission line upgrade costs were announced.

These savings, along with the NIMCIX results have incentivised Boss to initiate an Enhanced Feasibility Study (EFS) to incorporate the potentially significant enhancements identified, it said.

Boss’s restart and expansion plans have been split into separate stages, of which Stage 1 and 2 are presented as the base case for the Honeymoon feasibility study, showing that production can recommence within a 12-month period. Stage 1 development focused on the restart of the existing SX plant, which has a nameplate capacity of 880,000 lb/y U3O8-equivalent. Stage 2 is an expansion strategy that will increase production to 2 Mlb/y U3O8-equivalent and involves the construction of a new IX circuit.

Additional work has now been completed by Boss, ANSTO and GR Engineering examining the potential to replace the existing SX columns on site with new NIMCIX columns.

Boss said: “The results show that it is entirely possible to eliminate the envisaged Stage 1 and incorporate a NIMCIX system with the following stipulations:

  • “The flow rate through the new NIMCIX columns must be equivalent to or higher than the SX system;
  • “The lead time to commissioning should not be significantly impacted;
  • “The overall project capital expenditure intensity should not be impacted; and
  • “As much of the current SX structural and process infrastructure as possible to be re-used.”

The conclusion of this review is that these criteria are achievable and highlighted the potential for lower unit operating cost and higher production rates over the life of mine, according to Boss.

Additional potential benefits of the conversion include:

  • Significantly higher throughput through the plant during Stage 1 and beyond;
  • Improved safety outcomes through the elimination of combustible solvents in process;
  • Improved environmental outcomes through elimination of the potential for organic entrainment to the wellfield; and
  • Simplification of the process through standardisation of uranium extraction technology.

“The company now plans to incorporate both the IX Process Optimisations announced previously and the pure NIMCIX adoption into an EFS level estimate for the Honeymoon uranium project restart to assess the economic impacts of these changes,” it said.

It has re-engaged GR Engineering Services as the engineering and lead study consultant for its EFS leveraging on the recently completed feasibility study completed in January 2020.

“Through the EFS, Boss aspires to increase the ramp up production schedule and nameplate capacity of Honeymoon through the adoption of a wholly IX (NIMCIX) system with the first stage of production ramp up delivered within the original 12-month delivery timeline from an investment decision,” it said.

GR Engineering comes up with cost savings at Boss’ Honeymoon uranium project

GR Engineering Services has reviewed the latest technical optimisation studies related to the restart of the Honeymoon uranium mine, in South Australia, and come up with capital expenditure savings of $6.3 million for owner Boss Resources.

Following the release of the feasibility study in January 2020, Boss embarked on technical optimisation studies which included completion of an identified ion exchange (IX) process detail design and testing, undertaken with the Australian Nuclear Science and Technology Organisation (ANSTO).

The January feasibility study highlighted a capital expenditure of $63.2 million (excluding offsite power provider upgrades) to build the two-stage mine. Stage 1 consisted of refurbishing the existing solvent extraction plant with process improvement to a capacity of 880,000 Ib/y of U308 equivalent, while Stage 2 involved adding an IX circuit to achieve annual production of 2 Mlb/y. This also estimated an average all-in cost of $32.3/lb U308 over the life of mine.

The IX process optimisation program with ANSTO aimed to remove the requirement for solution heating in the elution of uranium from the IX resin. Power input to the elution process necessitated upgrades to the transmission line to service Honeymoon with grid power from Broken Hill, 80 km southeast of the mine.

Boss devised a series of tests in consultation with ANSTO to study the effect of ambient temperature on both the conversion and elution performance, with the conversion work indicating an ambient temperature process could achieve the required conversion performance within the timeframe in the process design.

Furthermore, a 45% reduction in reagent concentration in the conversion process had a negligible effect on conversion performance and offered significant reagent savings, Boss noted.

Test work on the elution process was also successful, the company said. “While there is a small difference in the eluant requirement to achieve complete elution of the resin, there is sufficient capacity in the elution circuit as designed to achieve this without impacting the downstream processes, while facilitating significant energy savings,” it explained.

The remainder of the program aimed to provide additional information to allow detailed equipment design for IX adsorption and elution processes. As a result of this work, Boss made additional changes to the resin sulphation and regeneration processes, which could represent additional cost savings.

Boss commissioned GR Engineering to evaluate the cost implications of the above work on the feasibility study results, initially on a +/- 25% basis, with initial results confirming a capital expenditure reduction of $6.3 million owing to the reduction in heating and insulation requirements for the elution circuit and reagent make up systems, and the reduced transmission line upgrade costs.

Additionally, the engineering company identified the reduction in electricity costs alone represented an operating cost saving of $2.4 million/y, equating to $1.22/lb U308 equivalent.

GR Engineering is now undertaking an evaluation of the operating cost implications of these changes in Stage 2 operations over the life of the overall operation considered in the feasibility study.

“Boss designed the feasibility study to fast-track production from Honeymoon’s existing solvent extraction plant within a 12-month period, following a decision to mine, to capitalise on any improved market fundamentals,” the company said.

It plans to increase production to 2 Mlb/y U308 equivalent through the addition of the IX plant, which will take around 20 months to design, construct and commission.

Boss Resources Managing Director and CEO, Duncan Craib, said: “Boss continues to work on opportunities to optimise Honeymoon as a first-mover uranium restart operation – this outstanding IX test work result is one example.

“We will continue working towards net present value accretive technical advancements and revising estimates contained within the January 2020 feasibility study, strengthening Honeymoon’s potential to be one of the lowest cost uranium producers globally.”

Following these initial results, Boss plans to incorporate these optimisations into a revised feasibility study level estimate for the Honeymoon restart which will also incorporate other initiatives including the conversion of the current solvent extraction infrastructure to a NIMCIX IX system, Boss said.

In parallel, Boss’s exploration team is completing a comprehensive desktop review of the extensive historical exploration database information to define new uranium exploration targets.

“With financial support from the South Australian government to utilise innovative uranium geophysical exploration techniques, exploration is focusing on expansions to known uranium discoveries to increase Honeymoon’s production profile distal to existing JORC mineral resources (total 71.6 Mlb U308),” the company said.

It is envisaged that these new mineralised target areas will form the basis of a study to assess and define Stage 3 production ramp up to produce more than 3 Mlb/y U308 equivalent, Boss said.

GR Engineering back for Boss Resources Honeymoon uranium project DFS

Boss Resources says it has appointed GR Engineering Services Limited (GRES) as the engineering and lead study consultant for its Honeymoon uranium project definitive feasibility study (DFS).

GRES will quickly ramp up the DFS work programs, due to the significant package of advanced technical work Boss has completed since it obtained the Honeymoon uranium project in South Australia from Uranium One (Australia) in December 2015 and, specifically, since the completion of the prefeasibility study in 2017, Boss said.

Honeymoon is a former-operating mine fully permitted to produce 3.2 MIb/y of uranium for export (one of only four mines in Australia). Based on previous studies, it is expected to require $58 million to ramp up output to 2 Mlb/y, according to Boss. It comes with a 63.3 MIb U3O8 JORC resource.

Work completed to date at Honeymoon includes:

  • A scoping study in 2016 for the recommissioning and expansion of the Honeymoon project;
  • Prefeasibility Study in 2017 that further refined the proposed strategy;
  • Field leach trial (FLT) that demonstrated Boss Resources’ improved leaching approach and validated its proposed ion exchange (IX) process;
  • Test work that optimised the process through improved resin elution and precipitation optionality
  • Trade-off studies that identified the preferred IX equipment (NIMCIX selected) and further optimised the flowsheet by simplifying the process steps;
  • An assessment of the drying and packing facility to provide upgrade options available to Boss to meet the planned production profile, and;
  • A preliminary assessment of the work required for the existing plant and infrastructure to meet operation requirements of Stage 1 production.

The DFS is due for completion in November 2019, according to Boss.

Boss Resources Managing Director, Duncan Craib, said: “GRES is a leading engineering and consultancy firm that has delivered multiple mining projects of significant size and scale, both domestically and overseas.”

The appointment continues Boss’ relationship with GRES, which completed the Honeymoon scoping study in September 2016 and the prefeasibility study in May 2017.

The scope for the DFS is based on two stages. Stage 1 includes re-commissioning of the existing SX facility and infrastructure including the various modifications required to improve performance, rectify problems identified during previous operations and make preparation for Stage 2 expansion.

Stage 2 includes supplementing the existing SX facility using a parallel IX process along with the expanded yellowcake drying and packaging capacity and modified raffinate/ground water treatment plant all to produce 2 Mlb/y of U3O8 equivalent.

The company said: “Boss will produce a combined DFS for the Stage 1 – Recommissioning, and Stage 2 – IX upgrade to achieve 2Mlb per annum U308. The DFS will improve on the work done in the prefeasibility study and deliver a Class 3 cost estimate with appropriate detail to achieve an accuracy of ±15%.”

The DFS will report on the design of the leach patterns for the wellfields and associated production scheduling based on these patterns and summarise the test work carried out to date, Boss added. It will also provide updated mineral resource and report on progress made against the updated permits.

The preliminary schedule for the DFS indicates wellfield design will be completed by the end of July, with ion exchange and uranium precipitation piloting due to be finalised by the end of August. Stage 1 reporting is due to be completed at the end of September, followed by Stage 2 at the end of October and the final report by mid-November.