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6th ELEMENT NEXT GENERATION BATTERIES
 Advanced NanoStructure Carbon-based batteries are the Future of Energy Storage

Batteries

BATTERIES

A TIMELY TECHNOLOGY

The process developed by 6th ELEMENT is an Advanced NanoStructure Carbon-based proprietary technology and despite recent advances with electrode materials and electrolytes, translations of new systems into practical applications are scarce and the existing commercialized battery technologies (NiMH, NiCd, NiZn, Li-Ion and Pb-acid) have not had any serious competition until now.

6th ELEMENT'S Energy Storage Devices (ESD's) have significant advantages on all former Batteries and Supercapacitor what are presently available on the market and that were developed combining best in class technologies by various companies.

 

6th ELEMENT'S also introduces a radical technological breakthrough change in the energy storage cells and strongly reduces the energy cost.

100% OF THE GRAPHENE IN OUR STORAGE DEVICES IS EXTRACTED THROUGH CARBON WASTE.

The main advantages of the 6th ELEMENT technology over other technologies are as follows:

  • The 6th ELEMENT process uses carbon waste as a source of raw material
  • Our process does not generate carbon dioxide emissions when processing the carbon waste
  • The graphite produced is of very high quality and is certified by very demanding customers
  • The 6th ELEMENT process is the cleanest graphite production process available
  • The 6th ELEMENT plant will be zero-effluent. Treats are captured and all process effluents are re-utilized.

 

The 6th ELEMENT process is the result of the application and optimization of a number of proven commercial technologies. It is backed by years of process development, trial and pilot plant programs and plant operations. All the required laboratory testing has been done to precisely evaluate the mass and energy balance. These tests were performed by renowned engineers and by researchers specialized in energy and material sciences.

6th ELEMENT has also completed the conceptual engineering work for a prototype production plant. This has allowed detailed estimation of the CAPEX and OPEX for its commercial plant.

Most of the steps of a feasibility study are completed, as follows:
1.    Proven, well-characterized resource
2.    Technological proof-of-concept at the laboratory scale
3.    Complete conceptual engineering for a Carbon-based ESD plant
4.    Detailed, independent OPEX and CAPEX estimates

 

 

Features

FEATURES

Rated voltage of ----V and capacitance of ---F

High performance module with low ESR

Designed with compact and ultra light-weight package

Long lifetimes with up to -----duty cycles

Passive cell balancing
 

 

Specifications

SPECIFICATIONS

Electrical 

  • Rated Voltage
  • Surge Voltage 
  • Rated Capacitance
  • Min. / Max. Capacitance, Initial 
  • Typical Capacitance, Initial
  • Rated (Max.) ESRDC, Initial
  • Typical ESRDC, Initial
  • Typical Leakage Current
  • Maximum Peak
  • Non-repetitive

Physical

  • Nominal Mass
  • Output Terminals
  • Protection Degree
  • Vibration
  • Shock

Power & Energy

  • Maximum Stored Energy
  • Gravimetric Specific Energy
  • Usable Specific Power
  • Impedance Match Specific Power

Safety

  • Certifications

 

Characteristics

CHARACTERISTICS


Temperature

  • Operating Temperature Range -40°C to +40°C
  • Storage Temperature Range (Stored without charge)
     

Life

  • Projected DC Life at Room Temperature
  • DC Life at High Temperature
  • Projected Cycle Life at Room


Temperature

  1. Shelf Life


UMU / Monitoring 

  • Cell Balancing
  • Over-Voltage Monitoring

 

 

Partners

PARTNERS

Coming Soon...

 

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