VANCOUVER, British Columbia, Jan. 22, 2018 (GLOBE NEWSWIRE) -- HUDSON RESOURCES INC. (the “Company”) – (TSX-V:HUD) (OTC:HUDRF)
is pleased to announce that it has now completed initial research and development activities and has confirmed that the White
Mountain anorthosite (calcium feldspar) can be used to make a CO2 free, heat-resistant, acid-resistant, white cement.
Hudson believes this cement has numerous potential applications including white or coloured architectural concrete, fibre
reinforced cement, refractory castable pieces, fire-proof building materials, and hazardous waste containment.
Hudson has been working with researchers at The University of British Columbia’s Ceramics and Refractories
Research and Testing Laboratory (UBCeram) for the past year using the White Mountain anorthosite to create Chemically Bonded
Anorthosite Cements (CBAC), Concretes and Composites. Hudson has branded the new anorthosite concrete as AnoCrete.
In the spring of 2016, based on research from existing phosphate cements, Hudson discovered that by adding
phosphoric acid to its crushed anorthosite, a cementitious material could be created at room temperature. In comparison, Ordinary
Portland Cement (OPC) requires the high temperature processing of limestone which releases a significant amount of CO2
into the atmosphere.
According to the Cement Sustainability Initiative, the cement industry causes five percent of global man-made
CO2 emissions annually. Every tonne of Portland cement produced contributes 0.9 tonnes of CO2 to the
environment. The CO2 emissions generated in the production of Hudson’s anorthosite cement are limited to the
contribution from the production of the anorthosite (mainly crushing and transportation of ore) and the production of phosphoric
acid (estimated as low, neutral or in some cases negative when using modern technologies -https://www.researchgate.net/publication/235704822).
The main objective of Hudson’s research to date has been to develop a sustainable, low to zero CO2
cement with superior appearance (white colour) and heat and acid resistance in comparison to OPC. The research has achieved
excellent results in a very short period of time. Initial research was completed at McGill University in Montreal. In the summer of
2017, UBCeram, in conjunction with Hudson, was awarded a Natural Sciences and Engineering Research Council of Canada (NSERC) grant
to conduct research and define a path to commercialization.
Testing to date has successfully demonstrated that AnoCrete exceeds the OPC minimum ASTM C150 compressive
strength of 28MPa after 28 days. The properties of AnoCrete are effected by ambient heat, the amount of added phosphoric acid and
the particle size of the anorthosite. Additional research is ongoing to perfect the mix and determine how various additives can be
used to improve performance characteristics.
UBCeram research has identified a number of key properties which support Anocrete being a premium product,
including:
- Low to net zero CO2 emission
- High whiteness
- High durability (insoluble in water and acidic solutions, resistant to sulphate solutions)
- Potential to produce a lightweight cement
- Strength comparable to OPC
- High heat resistance (up to 1200°C before it started to turn into glass).
- Alkali, thermal shock, and abrasion resistant
James Tuer, Hudson’s President, stated, “We are very excited about the prospects of developing an
environmentally sustainable white cement. This process only works because of the unique nature of the White Mountain anorthosite.
We envision a number of applications where AnoCrete can outperform existing white cements where an environmentally sustainable
cement is desired, a bright white colour is preferred, or where high temperature and acid resistance is needed. We are continuing
to work with UBCeram this year to advance this exciting new product line.”
Hudson believes AnoCrete may be used in the following applications;
- Structural cements such as white architectural cement concrete, heat-reflecting cement for warm climates, marine cement,
borehole sealant for deep oil and gas wells, and premixed just-add-water cement for homeowners
- Cost effective, hard and chemically resistant ceramic components such as countertops and tiles
- High temperature materials such as monolithic and castable refractories for the metal industry, insulating firebricks and
foams, fireproof panels
- Lightweight acid resistant composite materials compatible with E-glass and steel fibres
- Encapsulation of nuclear waste including Caesium, Strontium, Barium and Technetium
- Stabilization of hazardous waste such as mine tailings, municipal solid waste, industrial sludge, contaminated soils, and
smelter slags
These applications are all high value cements in comparison with OPC. For example, white cement commands a
significant premium over grey OPC. Increases in carbon taxes (Canada recently announced a carbon tax of $50 per tonne by 2022) can
be expected to significantly increase OPC prices. Hudson believes that AnoCrete can be more than price competitive with these
OPC-based high value cements while having a net zero CO2 impact.
This development further diversifies the White Mountain anorthosite’s potential revenue streams. Hudson now
envisages the anorthosite product being used in the manufacture of structural E-Glass fibre, as a filler and extender in paints and
plastics, as a primary feed material in the production of alumina and as a source of CO2 free white cement.
Hudson is currently completing the construction of the White Mountain project on the west coast of Greenland
with production forecast for the second half of 2018. Through it’s wholly-owned subsidiary, Hudson Greenland A/S, Hudson owns 100
percent of the White Mountain project. The company was granted a 50-year mining license in 2016. Photos of the 2017 construction
activities have been updated on Hudson’s website: hudsonresources.ca/gallery.asp
ON BEHALF OF THE BOARD OF DIRECTORS
“James
Tuer”
James Tuer, President
For further information:
James Tuer, President
Ph: 604-628-5002 or 604-688-3415
tuer@hudsonresources.ca
Forward-Looking Statements
This news release includes certain forward-looking statements or information. All statements other than
statements of historical fact included in this news release, including, without limitation, statements regarding the use of
proceeds from the private placement, and other future plans and objectives of the Company are forward-looking statements that
involve various risks and uncertainties. There can be no assurance that such statements will prove to be accurate and actual
results and future events could differ materially from those anticipated in such statements. Important factors that could
cause actual results to differ materially from the Company's plans or expectations include market prices, general economic, market
or business conditions, regulatory changes, timeliness of government or regulatory approvals and other risks detailed herein and
from time to time in the filings made by the Company with securities regulators. The Company expressly disclaims any
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