Turning Urine into a Sustainable Plant Fuel

Turning Urine into a Sustainable Plant Fuel

Sub : Sci

Sec: Msc

Why in News

• A new electrochemical process, recently published in Nature Catalysis, has demonstrated an innovative method to extract urea from urine and convert it into per carbamide, a crystalline peroxide derivative. This breakthrough not only enhances wastewater treatment but also transforms urine into a valuable agricultural resource, aligning with sustainability goals.

Details:

• Urine is often referred to as “liquid gold” because it is rich in essential plant nutrients—phosphorus, potassium, and nitrogen.
• Researchers have developed an innovative electrochemical technique to extract urea from urine in solid form using a low-energy, environmentally friendly process.
• This method converts urea into per carbamide, a crystalline peroxide derivative with high purity.

Pee-Cycling: A Sustainable Solution

• An adult produces around 450-680 litres of urine annually, containing approximately 4 kg of nitrogen and 0.3 kg of phosphorus—sufficient to grow wheat for daily bread consumption for a year.
• The challenge in utilizing urine as a fertilizer lies in its complex composition, especially due to salts that interfere with urea extraction.

Urea Extraction:

• Urea consists of nitrogen, oxygen, and hydrogen and tends to form hydrogen bonds with other molecules.
• When urea interacts with hydrogen peroxide, it forms per carbamide, a solid crystalline compound.
• Per carbamide Properties:
  • Steadily releases active oxygen, making it useful for oxidation reactions.
  • Enhances the recovery of urea from urine, making it more accessible for agricultural use.
• When used as a fertilizer, per carbamide releases nitrogen slowly, promoting root respiration and crop growth.
• This innovation provides a missing link in the nitrogen cycle, efficiently recycling human-generated nitrogen back into the ecosystem.

Electrochemical Technique:

• Researchers developed an in-situ electrochemical process using graphitic carbon-based catalysts to convert urine-derived urea into per carbamide.
• This process achieved almost 100% purity, effectively extracting per carbamide from both human and animal urine.
• Initially, researchers aimed to stabilize hydrogen peroxide in liquid form. They realized that using urea from urine as a binding agent could serve dual purposes—stabilizing hydrogen peroxide while also addressing urine treatment and nitrogen cycling.
• This led to the development of activated graphitic carbon catalysts that enhance chemical reactions leading to per carbamide formation.

Chemical Pathways for Urea Conversion:

• Pathway I: Urea reacts directly with hydrogen peroxide in the presence of a catalyst, promoting effective bonding.
• Pathway II: Urea binds with hydroperoxyl (-OOH) intermediates, facilitating a reaction that forms per carbamide.
• The activated graphitic carbon catalyst was optimized to enhance both pathways, ensuring maximum yield.
• The extracted per carbamide combines urea’s nitrogen-rich benefits with the oxidative properties of hydrogen peroxide, making it a promising sustainable resource.