
Revolutionizing Energy:
Solutions That Make SENSE
At Ramcharan, we're not just creating products but crafting a sustainable future. Our innovative approach tackles end-of-life challenges head-on, offering smart, efficient, and environmentally responsible solutions.
List of Associations
The Challenge
The Challenge We Face
In today's world, synthetic additives used in pharmaceuticals, dyes, tannery chemicals, and lithium-based rechargeables pose significant end-of-life challenges. Current disposal methods like incineration, landfills, and water dumping are harmful to life and the environment, causing long-term effects such as:

Stunted plant growth

Birth Defects

Increased cancer risks

It's time to prioritize solutions that address these end-of-life issues without compromising product quality or technological advancement.
Our Innovative Approach
Rethinking Battery Technology

14x faster recharging than regular LithiumIon batteries

3x more storage capacity

Uses colloidal silicate banded with high surface area additives

Printed on stable & strong metal for efficient electricity transmission
We've developed an energy charge and storage device that outperforms conventional sources:

Conventional LithiumIon
Mined In China
Limited Recharging Cycles
Standard Storage Capacity
Problematic Disposal
Entity1
The Entity 1 Advantage
We've developed an energy charge and storage device that outperforms conventional sources:

Entity 1 Solution
Uses Refined, Recycled Materials
14x Faster Recharging
3x More Storage
ZeroResidue EndOfLife Treatment

Cryogenic grinding
Result
Zero residues from destroyed materials, leaving no additional weight on Earth in gas, solid, or gel form.

Plasma pyrolysis
The END
EndofLife Treatment: Zero Residue
Our groundbreaking process combines:1. Cryogenic grinding
2. Plasma pyrolysis
Waste Management & Energy Production
Introducing W2H2: Waste to Hydrogen
Our integrated closed-loop system transforms waste into valuable hydrogen through Entity 1's proprietary process, addressing waste management and clean energy production challenges.

The Process
The Process: From Waste to Wonder

Step 1: Collection
-
Unsegregated waste dropped into a collection silo at the ETP (Effluent Treatment Plant)

Step 2: Segregation
-
Solid waste is sorted using electronic, molecular, and magnetic sieves
-
Separated into relevant silos for sorting and sale
-
Waste categories: Wood, Metal, Plastic, Construction waste

Step 3: Cryogenic Grinding
-
Reduces particle size uniformly
-
Ensures even heat distribution in the waste

Step 4: Cryogenic Cold Plasma Pyrolysis
-
Converts waste into pure hydrogen
-
No production of ammonia, hydrogen sulfide, or lower chain hydrocarbons

The Process: From Waste to Wonder
The Process
Hydrogen Storage Solution
Hydrogen Storage Solution
Our innovative solid-state Boron based H₂ storage offers:

8% storage volume percentage

Composite, lightweight cylinders

Easy H₂ release

Non - hazardous and non - flammable

Highly safe and easy to synthesize

ABOUT
Our Vision: Transforming Industries
Energy Sector
-
Build Mega Watt Power Storage & Charging units at 60% of current cost
-
Utilize natural resources efficiently
-
Avoid harmful mining techniques
Effluent Treatment
-
Develop affordable, easy, and serviceable products
-
Target a US $1 billion market in India
-
Potentially reduce illness rates and imported drug costs