🌍 A Truly Universal Feedstock Solution

Whether it’s waste, renewables, contaminated land, or even discarded fashion — ESPU converts it all into valuable fuels, hydrogen, and materials.

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🔥 1. Tires – Rolling Waste Into Profits

• 🛢️ Fuel oil – high-BTU pyrolytic oil
• 💨 Hydrogen – extracted from cracked gases
• 🖤 Carbon black – premium rCB for inks, rubber, plastics
• 🧲 Steel wire – recovered from tire structure
• 🌱 Sulfur crystals – from vulcanization agents
• ♻️ Zinc oxide – optional recovery from additives
• 🌫️ CO₂ – captured, not released

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🛍️ 2. Waste Plastics – From Trash to Transport Fuels

• 🚗 Petrol, diesel, kerosene
• 🕯️ Waxes for industrial use
• 💨 Hydrogen – cracked from light gases
• 🖤 Carbon black – for rubber and pigment markets
• ♻️ CO₂, sulfur, nitrogen – recovered and repurposed

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🧯 3. Waste Oils – Refining the Unrefinable

• 🛢️ Diesel & base oils – clean, distillate fractions
• 💨 Hydrogen – from hydrocarbon chains
• 🧪 Additive metals – moly, zinc, calcium
• 🌫️ CO₂ and sulfur captured efficiently

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🌿 4. Organics & Green Waste – The Biofuel Backbone

• 🔋 Bio-oils and syngas – from cellulose and sugars
• 💨 Hydrogen – from water-gas shift and cracking
• 🖤 Biochar – for soil, filtration, or fuel
• 🧪 Potassium nitrate – fertilizer from nitrogen recovery

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🚮 5. RDF / MSW – Urban Waste Becomes Clean Energy

• ⛽ Mixed transport fuels – diesel, kerosene, petrol
• 💨 Hydrogen & carbon black
• ♻️ CO₂, sulfur, nitrogen recovery
• 🔄 Nothing to landfill

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💻 6. E-Waste – Mining Metals Without a Pickaxe

• 🔩 Copper, gold, silver, palladium
• 🛢️ Oils & gases – from plastic resins
• 🖤 Carbon char – absorbs residues
• 🧲 Rare earths – from hard drives, speakers
• 💨 Hydrogen + CO₂ recovery

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🧵 7. Textiles – Fashion Waste Turned Fuel

• 🛢️ Fuel oils – from synthetic fibers
• 💨 Hydrogen – from polyesters and blends
• 🖤 Carbon black
• 🪙 Zippers & buttons – recovered metal
• 🧪 Dyes and fire retardants – scrubbed clean

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🌞 8. Solar Panels – Clean Tech with a Dirty End? Not Anymore.

• 🛢️ Oil & hydrogen – from plastic encapsulants
• 🧲 Silver, aluminum, tin, copper
• 🪞 Glass and silicon – cleaned and recovered
• ♻️ No hazardous waste left behind

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🌬️ 9. Wind Turbine Blades – Fiberglass Reimagined

• 🛢️ Resin oils and hydrogen
• 🧱 Glass fiber – separated for reuse
• 🖤 Char – can be used or upgraded
• 🧲 Embedded metals – from turbine internals

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🏭 10. Contaminated Soils – Cleaning While Recovering

• 🛢️ Oil & hydrogen – from spilled hydrocarbons
• 🧱 Clean soil and stones – returned or reused
• 🧲 Heavy metals – recovered from residues
• 🌫️ CO₂ captured, not vented

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🔋 11. Black Mass (from Batteries) – Power to the People, Again

• 💨 Hydrogen
• 🖤 Graphite (carbon black grade)
• 🔋 Lithium, cobalt, nickel – for new batteries
• ♻️ CO₂ managed and recovered

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🔥 12. Methane / Natural Gas – Hydrogen with Zero CO₂

• 💨 High-purity hydrogen (99%)
• 🖤 Carbon black
• ❌ No CO₂ emissions

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💎 Why It Matters

• ✅ Handles nearly every waste stream
• 🌱 Low-carbon, high-yield hydrogen
• 🔁 Closed-loop, zero-landfill
• 📦 Recovers fuels, fertilizers, metals, glass, and more
• 🌐 Modular & scalable for cities, industries, and remote sites

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🌟 The ESPU isn’t just a pyrolysis system – it’s a full-spectrum waste-to-value refinery