Metallurgical Engineering Services are used by the mining industry to provide the knowledge, information, and data necessary to provide a viable processing solution. These services can be used at all stages of a project’s life-cycle, from prospecting and exploration, project development, operations, to closure and reclamation. Prospectors, mineral exploration startups, junior mining companies, and large multinational mining companies, rely on metallurgical services that include testing, consulting, and engineering.

Metallurgical Consulting

Consulting services are an important source of knowledge and experience, and are provided by metallurgical consulting firms, engineering firms, metallurgical testing laboratories, independent consultants, and academics. Often these services are used to provide expertise, when a person, team, or company lack in-house knowledge or need a second opinion. There are many different reasons to seek consulting services, a few of the common reasons are discussed below.

Prospectors and smaller startups sometimes need help:

Larger companies are more likely to have in-house resources to solve problems independently, in comparison to smaller companies. However, they may seek consulting when:

Consulting services often provide the knowledge and experience needed in a project, but don’t directly generate the data required. The data is generated through metallurgical testing or operating statistics.

Metallurgical Testing

Testing services are the primary source of data used to select and design a metallurgical process. The primary providers for these services are assay laboratories, metallurgical testing laboratories, and engineering firms. When starting with new samples, it is important to first determine if the sample is valuable. If the sample contains valuable material, then additional testing may be warranted.

There are many different tests that can help determine if a material can be processed economically including composition and mineralogy, comminution, load permeability and strength and stability, beneficiation, slurry rheology, and environmental testing.

Do I have a valuable material?

At the beginning of the project, it is important to determine if a material contains a value of interest (usually a metal or a mineral). Characterizing the value of the material early in the testing process can save time and money. An experienced prospector or geologist may be able to visibly identify important minerals in a sample with the naked eye. However, if the material is too fine in nature an assay, hand lens, or microscope might be required.

Once a valuable material has been identified, samples of the material are taken and assayed. If the samples contain significant concentrations of valuable metal(s), they may be selected for further testing. A material with significant concentrations of a metal(s) may not actually contain values that can be extracted, therefore, it is important to determine if a material can be processed economically.

Can my material be processed economically?

There are many factors that influence a material’s amenability to metallurgical processing such as metal prices, mineralogy, and location. These factors help a metallurgist select appropriate metallurgical tests. Often a basic metallurgical testing scope, that is specific to the target metal(s), will be proposed by the metallurgical lab or consultant. For example, if an ore contains gold and silver a common scope may include gravity, flotation, and cyanide bottle roll testing.

Once metallurgical tests have been completed, the data (often including recoveries and reagent consumptions) are used to determine the next course of action. If a material is not amenable to processing, diagnostic testing or a different testing method may be considered. If a material is amenable to processing, the testing scope often expands and may lead to multiple testing programs with many different types of tests. Many of the common tests and their purposes are discussed in the sections below.

Composition and Mineralogy

The composition and mineralogy of a sample directly affect which processes can be used to extract the metal(s) of interest. For example, an oxide sample is often more amenable to leaching than a sulfide sample.

Composition of a sample is determined through assaying. Although assay programs vary they should include an assay of the target metal. For example, a gold testing program should include fire assays. Identifying the remaining elements contained in a sample is important as they also affect processing. For example, high concentrations of copper when considering cyanide leaching could increase cyanide consumptions significantly, resulting in higher costs. Assay labs often offer a multielement assay package that provides composition data for around 50 elements. Carbon and sulfur assays are also commonly recommended.

The mineralogy of a sample is often determined through an ore petrography study. If samples are particularly hard to process, a sample may require a more detailed study such as mineral liberation analysis (MLA) or QEMSCAN analysis. These processes are more expensive but provide quantitative information about many different mineralogical characteristics, including mineral identification and grain size.

Comminution Testing

Comminution is the process by which a material’s average particle size is decreased. Harder and stronger materials will require more energy to process than softer materials. It is important to characterize a sample’s properties that will affect comminution, as they have a significant financial impact on equipment selection and future maintenance costs. There are many different comminution tests to consider including:

Not all tests are needed or required. Heap leaching projects may only require crushing and will not require tests focused on fine grinding.

Load Permeability and Agglomeration Strength and Stability Testing

Heap leaching projects must consider the effect that stacking the material will have on permeability and the stability of the ore. A heap must be permeable so that the leaching solution can encounter all the ore, otherwise some material can remain unprocessed and will lead to lower than expected recoveries. If an ore is shown not to be permeable, it can be agglomerated with cement or a polymer to increase the strength and stability of the material. This is particularly important when considering a heap with a finer feed size. Agglomeration strength and stability testing is used to determine the concentration of reagent (cement or polymer) that must be added to generate useable agglomerates. It is often a good idea when considering a finer feed size, to run agglomeration strength and stability tests before proceeding with the column leach test, as a flooded leach column (due to low permeability) may need to be taken down, agglomerated, and restarted.

Beneficiation Testing

Beneficiation is any process that increases the value of the sample. Some examples of beneficiation tests include flotation, gravity, leaching, electrowinning, and smelting. Flotation and gravity processing increase the value of the ore by decreasing the amount of waste contained in the concentrated material. Leaching processes directly remove target metals from the ore and concentrate it into a solution. Electrowinning uses electricity to drive an electrochemical reaction that deposits metal from a solution to a conductive material. Smelting uses heat and a reduction reaction to separate the metal from impurities. A list of common beneficiation testing services for flotation, gravity, and leaching, are shown below. Electrowinning and smelting tests can also be conducted at a metallurgical testing laboratory.


Slurry Rheology Testing

Slurry rheology testing generates the data needed to understand the flow properties of a slurry produced during processing. During test programs, it is common to retain slurries generated from large tests for slurry rheology testing. It is important to understand the characteristics of the slurry as they will affect the ability to move a slurry and the energy costs associated with a mass-based unit operation.

Environmental Testing

Environmental testing is used to determine the impact that the tailings will have on environment. The data generated from these tests can be used to design the appropriate disposal site. Common environmental tests include:

Engineering

Engineering services are needed to design, build, execute, and maintain a project. Data generated from metallurgical testing are used to generate models that evaluate different process options. Once a process is selected, the mine and processing facility can be designed. Equipment will be selected using the data generated from testing and data modeling. Once the mine and processing facility have been designed the project will then require permitting. Once permitted, the site can be constructed, and processing can begin. Once the mine is operational, engineering services will be needed to keep the processing facility running properly. Often during operation, unexpected problems are encountered that may require consulting, metallurgical testing, and engineering to solve.

10 Companies That Provide Consulting Services

  1. Global Resource Engineering
  2. SRK
  3. Resource Development Inc
  4. Golder
  5. AMEC
  6. Samuel Engineering
  7. Bechtel
  8. Jacobs Engineering
  9. Lycopodium
  10. Ausenco


10 Companies That Provide Metallurgical Testing Services

  1. BaseMetLab
  2. Core
  3. SGS
  4. Hazen Research
  5. RDI
  6. Amdel
  7. ALS Metallurgy
  8. FLSmidth
  9. XPS
  10. Mintek


10 Companies That Provide Engineering Services

  1. Global Resource Engineering
  2. SRK
  3. Hatch
  4. Golder
  5. AMEC
  6. Samuel Engineering
  7. Bechtel
  8. Jacobs Engineering
  9. Lycopodium
  10. Ausenco
  11. MDM Engineering