Manganese nodule

White House Elevates Battery-Grade Nickel to ‘Critical’ Status in 100-day Supply Chain Review, Notes Huge Potential of Seafloor Resources

Retrieved on: 
Wednesday, June 16, 2021
Natural Resources, Other Natural Resources, Mining, Minerals, Public policy, Government, Other Policy Issues, Physical sciences, Chemistry, Natural sciences, Chemical elements, Dietary minerals, Native element minerals, Transition metals, Ferromagnetic materials, Manganese nodule, Polymetal, Manganese, Nickel, Natural Resources, Other Natural Resources, Mining, Minerals, Public policy, Government, Other Policy Issues, Physical sciences, Chemistry, Natural sciences, Chemical elements, Dietary minerals, Native element minerals, Transition metals, Ferromagnetic materials, Manganese nodule, Polymetal, Manganese, Nickel, Natural Resources, Other Natural Resources, Mining, Minerals, Public policy, Government, Other Policy Issues, Physical sciences, Chemistry, Natural sciences, Chemical elements, Dietary minerals, Native element minerals, Transition metals, Ferromagnetic materials, Manganese nodule, Polymetal, Manganese, Nickel, Natural Resources, Other Natural Resources, Mining, Minerals, Public policy, Government, Other Policy Issues, Loans, Corporate finance, Small business financing, Business loan

The Biden Administration has rightly recognized that a stable and secure battery supply chain is paramount to maintaining American economic prosperity and national security.

Key Points: 
  • The Biden Administration has rightly recognized that a stable and secure battery supply chain is paramount to maintaining American economic prosperity and national security.
  • We have an abundant, viable and low-cost solution which can fulfill U.S. needs for critical battery metals like nickel, without which true mineral independence cannot be achieved.
  • Polymetallic nodules contain rich concentrations of nickel and cobalt, as well as copper and manganese, and are effectively a battery in a rock.
  • However, China has yet to corner the market in seafloor resources like polymetallic nodules.

SOAC Files Registration Statement on S-4 in Connection with Proposed Combination with DeepGreen Metals, Explorer of the World's Largest Undeveloped Resource of Battery Metals for EVs

Retrieved on: 
Thursday, April 15, 2021
Mining, Minerals, Natural Resources, SEC filings, Shareholders, U.S. Securities and Exchange Commission, Proxy statement, Statements, Registration statement, Manganese nodule, Prospectus, Polymetal, Forward-looking statement, State-of-the-Art Car, Corporate finance, DeepGreen, Sustainable Opportunities Acquisition Corporation

DeepGreen is exploring a new, scalable source of battery metals in the form of polymetallic nodules which are found in the Clarion Clipperton Zone of the Pacific Ocean.

Key Points: 
  • DeepGreen is exploring a new, scalable source of battery metals in the form of polymetallic nodules which are found in the Clarion Clipperton Zone of the Pacific Ocean.
  • Once the registration statement has been declared effective by the SEC, the final definitive proxy statement/prospectus will be mailed to shareholders of SOAC prior to its shareholder vote on the proposed transaction.
  • In connection with the proposed Business Combination, SOAC has filed with the U.S. Securities and Exchange Commission\xe2\x80\x99s (\xe2\x80\x9cSEC\xe2\x80\x9d) a Registration Statement on Form S-4, including a preliminary proxy statement/prospectus.
  • SOAC and DeepGreen caution readers not to place undue reliance upon any forward-looking statements, which speak only as of the date made.

DeepGreen / SOAC Advance Deep-Sea Environmental Study in Effort to Develop World’s Largest Known Supply of Battery Metals

Retrieved on: 
Thursday, April 1, 2021
Science, Other Science, Research, Natural Resources, Environment, Steel, Mining, Minerals, Manufacturing, Physical sciences, Physical geography, Natural sciences, Underwater mining, Metals, Oceanography, Fisheries science, Manganese nodule, Polymetal, Dietary minerals, Seabed, Energy transition

An autonomous Saildrone will also collect information on water chemistry and marine biomass as it tracks the ship throughout the expedition.

Key Points: 
  • An autonomous Saildrone will also collect information on water chemistry and marine biomass as it tracks the ship throughout the expedition.
  • Other organizations involved in the current research include Pelagic Research Services, LLC, Gravity Marine, and UTEC Services.
  • This is a challenging mission to prepare for given the number of studies and the complexity of the equipment required, said DeepGreen Environment Manager Dr. Michael Clarke.
  • DeepGreen Metals Inc. is a Canadian developer of lower-impact battery metals from seafloor polymetallic nodules, on a dual mission: (1) supply metals for the clean energy transition with the least possible negative environmental and social impact and (2) accelerate the transition to a circular metal economy.

Massive Deposit of Battery-Grade Nickel on Deep-Sea Floor Gets Confidence Boost With New Data

Retrieved on: 
Thursday, January 28, 2021
Physical sciences, Chemistry, Natural sciences, Chemical elements, Dietary minerals, Transition metals, Ferromagnetic materials, Reducing agents, Manganese nodule, Polymetal, Nodule, Nickel

According to some academic forecasts, nickel demand for batteries is projected to jump thirty-fold in the coming three decades.

Key Points: 
  • According to some academic forecasts, nickel demand for batteries is projected to jump thirty-fold in the coming three decades.
  • In addition, the company reported a notable uplift in grades of manganese (2.2% higher), cobalt (5.4% higher) and nickel (6.1% higher).
  • "Unlike mineral exploration on land, resource confidence in polymetallic nodules is unusually high due to the two-dimensional nature of the resource.
  • The polymetallic nodule fields in the CCZ of the Pacific represent the largest known, undeveloped nickel resource on the planet.

EV Batteries Made From Deep-Sea Rocks Dramatically Reduce Carbon

Retrieved on: 
Monday, September 21, 2020
Chemistry, Physical sciences, Chemical elements, Metals, Polymetal, Manganese nodule, Carbon sequestration, Carbon

"We wanted to assess how metal production using either land ores or polymetallic nodules can contribute to climate change.

Key Points: 
  • "We wanted to assess how metal production using either land ores or polymetallic nodules can contribute to climate change.
  • The study found that producing battery metals from nodules can reduce active human emissions of CO2e by 70-75%, stored carbon at risk by 94% and disruption of carbon sequestration services by 88%.
  • The researchers found that polymetallic nodules could deliver metals for one billion EV batteries with up to 11.6 Gt less of CO2e compared to terrestrial sources.
  • We are working on taking carbon out of the atmosphere, not adding it," said Gerard Barron, Chairman and CEO of DeepGreen Metals.

DeepGreen Teams Up With Leading Research Institutions to Understand and Minimise Impacts of Collecting Minerals for Electric Vehicles and Clean Energy From the Deep Sea

Retrieved on: 
Tuesday, August 25, 2020
Mining, Underwater mining, Metals, Polymetal, Manganese nodule, International Seabed Authority, Tailings dam, Tailings

"This is a collaboration of the best minds in ocean science coming together to answer manyimportant questions about deep-sea ecosystem function and connectivity throughout the watercolumn," said DeepGreen Chief Ocean Scientist, Dr.Greg Stone.

Key Points: 
  • "This is a collaboration of the best minds in ocean science coming together to answer manyimportant questions about deep-sea ecosystem function and connectivity throughout the watercolumn," said DeepGreen Chief Ocean Scientist, Dr.Greg Stone.
  • "The program will enableDeepGreen to put forward a rigorous, peer-reviewed environmental impact statement to the International Seabed Authority, setting a high bar for this new industry."
  • "We are pleased to take part in this important, wide-reaching and collaborative effort to studythe impacts of collecting polymetallic nodules.
  • DeepGreen has developed a process for producing metals from polymetallic nodules with near-zero solid waste, eliminating the need for tailings dams on land.

New Report Highlights Deep Sea Nodule Mining Danger to Pacific Ocean and Island Nations

Retrieved on: 
Thursday, May 21, 2020
Underwater mining, Manganese nodule, Deep sea mining, Natural Resources, Polymetal, Primary sector of the economy, Economic sectors, Sea, Mining, Nodule, International Seabed Authority

The report, Predicting the impacts of mining deep sea polymetallic nodules in the Pacific Ocean , and commissioned by MiningWatch Canada and the Deep Sea Mining Campaign, also notes that there is little to no social licence to mine deep sea nodules and refutes Canadian company DeepGreen Metals claims that there will be economic gains for Pacific island economies.

Key Points: 
  • The report, Predicting the impacts of mining deep sea polymetallic nodules in the Pacific Ocean , and commissioned by MiningWatch Canada and the Deep Sea Mining Campaign, also notes that there is little to no social licence to mine deep sea nodules and refutes Canadian company DeepGreen Metals claims that there will be economic gains for Pacific island economies.
  • In fact, the best available research clearly indicates that the mining of deep sea nodules will place Pacific island states at great risk.
  • The stakes are extremely high with Pacific economies, cultures, livelihoods, fisheries, food security, tourism, and iconic marine species all under threat from deep sea nodule mining.
  • It raises the question of whether deep sea mining has any place in this modern age of a sustainable blue economy, concluded Rogers.

Global Deep Sea Mining Technologies, Equipment and Mineral Targets Report 2019

Retrieved on: 
Tuesday, September 10, 2019
Weapons, Naval warfare, Underwater mining, Deep sea mining, Oceans, Physical geography, Mining, Sea, Naval mine, Manganese nodule

DUBLIN, Sept. 10, 2019 /PRNewswire/ -- The "Deep Sea Mining Technologies, Equipment and Mineral Targets" report has been added to ResearchAndMarkets.com's offering.

Key Points: 
  • DUBLIN, Sept. 10, 2019 /PRNewswire/ -- The "Deep Sea Mining Technologies, Equipment and Mineral Targets" report has been added to ResearchAndMarkets.com's offering.
  • Deep sea mining is defined as a mineral retrieval process (mining) that takes place on the ocean floor.
  • Deep sea mining is also alternatively known as ocean floor mining, ocean bed mining, sea floor mining or seabed mining.
  • Since deep water mining is a relatively new industry, there is no standard definition that segregates deep-sea mining from shallow sea mining.

CRU: Buried Treasure or Damp Squib - Undersea Mining's Challenges and Opportunities

Retrieved on: 
Tuesday, August 6, 2019
Underwater mining, Manganese nodule, Polymetal, Deep sea mining, Mining, Human activities, Humans, Chemical substances

However, many operational and processing challenges remain before undersea mining can begin.

Key Points: 
  • However, many operational and processing challenges remain before undersea mining can begin.
  • These elements are the most common constituents of polymetallic nodules which make up the largest and most feasible undersea deposits currently being explored.
  • This report focuses on polymetallic nodule mining as it is currently believed to be the most feasible form of undersea mining in development.
  • Despite only achieving large-scale prominence in the past decade, the concept of undersea mining has been explored for nearly half a century.

CRU: Buried Treasure or Damp Squib - Undersea Mining's Challenges and Opportunities

Retrieved on: 
Tuesday, August 6, 2019
Underwater mining, Manganese nodule, Polymetal, Deep sea mining, Mining, Human activities, Humans, Chemical substances

However, many operational and processing challenges remain before undersea mining can begin.

Key Points: 
  • However, many operational and processing challenges remain before undersea mining can begin.
  • These elements are the most common constituents of polymetallic nodules which make up the largest and most feasible undersea deposits currently being explored.
  • This report focuses on polymetallic nodule mining as it is currently believed to be the most feasible form of undersea mining in development.
  • Despite only achieving large-scale prominence in the past decade, the concept of undersea mining has been explored for nearly half a century.