Join today and have your say! It’s FREE!

Become a member today, It's free!

We will not release or resell your information to third parties without your permission.
Please Try Again
{{ error }}
By providing my email, I consent to receiving investment related electronic messages from Stockhouse.

or

Sign In

Please Try Again
{{ error }}
Password Hint : {{passwordHint}}
Forgot Password?

or

Please Try Again {{ error }}

Send my password

SUCCESS
An email was sent with password retrieval instructions. Please go to the link in the email message to retrieve your password.

Become a member today, It's free!

We will not release or resell your information to third parties without your permission.
Quote  |  Bullboard  |  News  |  Opinion  |  Profile  |  Peers  |  Filings  |  Financials  |  Options  |  Price History  |  Ratios  |  Ownership  |  Insiders  |  Valuation

VanadiumCorp Resource Inc. V.VRB

Alternate Symbol(s):  VRBFF

VanadiumCorp Resource Inc. and its subsidiaries are engaged in the acquisition, exploration, and development of mineral properties in Canada with a primary focus on the Lac Dore and Iron-T Properties in Quebec that are prospective for vanadium, titanium, and iron. Additionally, the Company is engaged in research in novel hydrometallurgical processes for recovering vanadium, iron, and titanium products from vanadiferous feedstocks such as titanomagnetite concentrates and industrial waste streams.


TSXV:VRB - Post by User

Post by Visthefutureon Mar 03, 2023 7:15am
206 Views
Post# 35316867

Hope springs eternal

Hope springs eternal
The economic viability of extracting vanadium from magnetite in Canada would depend on various factors, such as the quality and quantity of the magnetite deposit, the cost of extraction, processing, and transportation, the market demand and price for vanadium, and the regulatory and environmental requirements.
 
Magnetite is a mineral that contains significant amounts of vanadium, which can be extracted through various processes, such as smelting, roasting, or leaching. The extraction process can be complex and expensive, and it requires significant capital investment and expertise.
 
In Canada, there are several known magnetite deposits that contain vanadium, such as the Lac Dore and Iron-T Vanadium deposits in Quebec, the Vanadium Ridge deposit in British Columbia, and the Titan deposit in Ontario. Some of these deposits have been explored and evaluated for their vanadium potential, but none of them are currently in production.
 
The economic viability of extracting vanadium from magnetite in Canada would depend on the specific characteristics of each deposit and the market conditions. The market demand for vanadium has been fluctuating in recent years, and the price of vanadium has been volatile. However, the growing demand for energy storage solutions, which rely on vanadium-based batteries, could drive the demand and price for vanadium in the future.
 
Overall, the economic viability of extracting vanadium from magnetite in Canada would require a thorough evaluation of the deposit's potential, the extraction and processing costs, the market demand and price for vanadium, and the regulatory and environmental requirements.

The Mine: magnetite is iron ore...

The time it takes to build an iron mine in Quebec, Canada, can vary depending on various factors such as the size of the mine, the complexity of the project, the environmental and regulatory requirements, and the market demand for iron ore.
 
Typically, the process of building a new mine can take several years, often ranging from three to ten years or more. The development of a new iron mine can involve various stages, such as exploration, feasibility studies, environmental assessments, permitting, financing, construction, and commissioning.
 
Exploration is the first stage of the mine development process, where geologists and engineers conduct surveys and sampling to determine the size and quality of the ore deposit. This process can take several months or years, depending on the size and complexity of the deposit.
 
The feasibility study is the next stage, where engineers and consultants evaluate the technical and economic viability of the project. This stage can take several months to a year or more, depending on the complexity of the project.
 
The environmental assessment and permitting process can also take several months or years, depending on the regulatory requirements and the complexity of the project.
 
The construction and commissioning of the mine can take several years, depending on the size and complexity of the project. The construction of the mine infrastructure, such as roads, rail, power, and water supply, can take several years, and the commissioning of the mine can take several months or years.
 
In summary, the time it takes to build an iron mine in Quebec, Canada, can vary depending on various factors, and it can take several years or more to complete the project.

the process plant

The time and amount of permitting required to build a hydrometallurgical production plant can vary depending on various factors such as the size of the plant, location, environmental regulations, and other regulatory requirements.
 
The process of building a new hydrometallurgical production plant can take several years, often ranging from three to five years or more. The development of a new plant can involve various stages, such as feasibility studies, environmental assessments, permitting, financing, construction, and commissioning.
 
The feasibility study is the first stage, where engineers and consultants evaluate the technical and economic viability of the project. This stage can take several months to a year or more, depending on the complexity of the project.
 
The environmental assessment and permitting process can also take several months or years, depending on the regulatory requirements and the complexity of the project. The permitting process can involve obtaining various permits such as air permits, water permits, waste permits, and other environmental permits.
 
In addition, hydrometallurgical production plants involve the use of chemicals, so there may be additional permits required for the handling, storage, and transportation of these chemicals. The regulations and permitting requirements can vary depending on the location of the plant and the type of chemicals used.
 
Overall, the time and amount of permitting required to build a hydrometallurgical production plant can be significant and can vary depending on the specific details of the project.

Flow Battery production

The time it takes to build a flow battery production plant in Quebec or anywhere else can vary depending on various factors such as the size of the plant, location, complexity of the manufacturing process, and other regulatory requirements.
 
Typically, the construction of a production plant can take several years, often ranging from two to four years or more. The development of a new plant can involve various stages, such as site selection, planning and design, procurement of equipment, construction, and commissioning.
 
The planning and design stage can take several months to a year or more, depending on the complexity of the project. During this stage, the plant layout and design are developed, and equipment and material requirements are identified.
 
Procurement of equipment can also take several months, depending on the lead times of the various components and systems required for the flow battery production plant. The construction phase can take a year or more, depending on the size and complexity of the plant.
 
Additionally, there may be various regulatory requirements, such as environmental permits and approvals, that need to be obtained before the construction and operation of the plant. The permitting process can take several months or years, depending on the specific regulatory requirements and the location of the plant.
 
Overall, the time it takes to build a flow battery production plant in Quebec can be significant and can depend on several factors, as mentioned above.
 

<< Previous
Bullboard Posts
Next >>