Graphene Techologies

The Graphene Opportunity by The
Numbers

$4.84B Estimated Graphene Market Size by 2028*
43.64 % Estimated CAGR from 2023-2028*

The Graphene market is ready for explosive growth:
Blue Water Petroleum is perfectly situated to serve this massive growth market with production capabilities of up to 20 tons of graphene.

*https://www.mordorintelligence.com/industry-reports/graphene-market

Graphene – The Material for The
Future

Graphene is a super-material that is harder than diamonds, 300 times stronger than steel, and a better conductor of electricity than copper.
These unique properties have the potential to disrupt and transform multiple industries, and demand is growing.

Global market potential for our Graphene Modifier based on 4.1 billion MT of Portland global cement production - US $ 60-100 billion

• Chinese potential market – US $ 36-60 billion
• Nigerian potential market – US $ 1-1.5 billion
• German potential market – € 500 – 800 million

• European potential market - € 2.5 - € 4.25 billion

On top of this you can count on carbon credits as a part of the profit

Our Graphene Patents

Method for obtaining expanded graphite

Method for obtaining carbon nanomaterials

Plant for the preparation of a carbon nanomaterial suspension

Continuous synthesis installation of carbon nanomaterials

Reactor for the production of carbon nanomaterials by hydrocarbon gas pyrolysis

Method for obtaining carbon nanomaterials from vegetable raw materials

Installation to obtain carbon nanomaterials

A method of producing a composition for a protective and decorative

coating on a building material

A method of preparing a complex additive for building blends

Sensor for detecting gas and measuring its concentration

Carbon fiber material production reactor

Line for the production of carbon fiber nanomaterials by hydrocarbon pyrolysis

Plant for the continuous synthesis of carbon fiber nanomaterials by hydrocarbon pyrolysis

Graphene Modifier for Various Concrete Production

The Graphene Modifier V2 as a multifunctional additive, it improves the overall characteristics of Portland cement-based products. As a modi er-activator, it enables the creation of composite binder compositions with unparalleled characteristics. Proper proportions improve properties such as strength, acid resistance, and fire resistance. Depending on the application area and mixture location, the dosage of the modifier is determined so that the final product possesses the desired properties (compressive strength, exural strength, water resistance, frost resistance, thaw resistance, acid resistance, high thermal resistance, and a linear thermal expansion coefficient of over 2000°C).

Consumption:
• 3-5 kg per 1 MT of Portland Cements

Effects:

• 20% - 45% Reduction of Portland Cement Consumption

• The same level of CO2 emissions

• 2-4 times faster/shorter achieving concrete strength standards

• Less weight of concrete
• Higher level of waterproof
• Up to 30% concrete production costs savings

End products using the modifier have the following advantages:

High strength (composite cement-based up to 150 MPa)
Improved workability
Low hydration temperature
Strength gain up to 60% of the concrete class within the first day
Water resistance and seawater durability
High chemical resistance
High resistance to chlorides, sulfates, and acids
Frost resistance of 500 cycles or more
Thaw resistance
High heat resistance (over 2000°C) / conventional concrete is 300-400°C
Increased service life of structures
Low environmental impact
Crack prevention
Reduced construction costs

Graphene Modifier SV-2 to be used in the road construction

Consumption:

0.75 – 2.25 kg per 1 m3 of construction soil, which is good for 4-5 m2 of new road.

Effects:

• Up to 3-4 times faster road construction period.
• Minimum 2 times cheaper construction costs.
• No negative environmental impact compared with classical ways of road construction costs.

Much more reliable (long live) roads. Much less further maintenance costs.

Producing Hydrogen from Water Using Graphene-Covered Non-Ferrous Metals

Hydrogen production from water is a critical area of research, especially in the context of sustainable energy solutions. One innovative approach involves using graphene-covered non-ferrous metals, which can enhance the efficiency of hydrogen generation through various methods, including electrolysis and photochemical reactions.

By leveraging the unique properties of graphene and non-ferrous metals, we can unlock new possibilities in hydrogen production, contributing to a sustainable energy landscape.

Nanotech Bio-fertilizer for Sustainable Yield

SilicoFarmGraphTM 200 SC

Foliar bio-fertilizer based on nanosilica (200mg/L) Stimulates growth, strengthens plants, improves yield and resistance. Use on rice, corn, sorghum
Admitted to sustainable agriculture
1 L = up to 5 ha (standard dilution 200mg/L)
Made with green technology – Safe for humans and the environment

Agronomic Advantages

+ 20–30% yield: On rice/corn in poor soils
+ 40% NPK absorption efficiency: PGPR stimulus and rhizosphere

+ 50% root biomass: Natural auxin enhancement
– 30% leaf diseases: Wall reinforcement, immune response
+ 20% water efficiency: Stomata increase + silicon