Designed for performance. Built for the planet.
Ecommerce Inserts
For electronics, cosmetics, glassware, luxury packaging
- Precision molding for tight tolerances
- Shock absorption without plastic foams
- Premium, uncoated natural finish
Food‑Grade Tableware
Plates, bowls, cups
- Certified food‑safe & compostable
- Grease & cut‑resistant
- Heat‑resistant for hot servings
- Custom coatings available
Food Packaging Materials
Clamshells, trays, meal boxes
- Hygienic, leak‑resistant designs
- Export‑ready, stackable SKUs
- Brandable surfaces & embossing
Future Innovations
Bioplastic films, medical packaging, e‑commerce mailers
- Material blends for barrier needs
- Bio‑resins R&D partnerships
- Scale‑up pilots available
Tech plus sustainability, without compromise
We use advanced molding processes and strict quality control to ensure bio‑packaging is as reliable as traditional plastic — without the environmental cost.
- Food‑safe, export‑compliant, aligned with BPI, EN13432, ISO.
- Built for scale: consistent SKUs, reliable lead times, B2B pricing.
- Engineering support for custom molds and co‑development.
- Proven performance — products tested for real world use: heat, grease, stacking strength, and shipping protection.
- Material expertise — from traditional molded pulp to cutting-edge mycelium and seaweed coatings.
- End-of-life clarity — we don't greenwash; we give customers the exact disposal path and certification support.
- Scalable supply — we help transition from pilot to volume without surprises on lead times or quality.
- Partnership approach — collaborative product development, private-labeling and white-label programs tailored to brand needs.
Traditional Plastic vs. Agravera Bio‑Packaging
Lower is better for the first three metrics. Illustrative values for comparison.
Wide applications, proven impact
Impact you can measure
Bagasse Lifecycle: field → compost
- SugarcaneHarvest & juice extraction
- BagasseFibrous by‑product
- PackagingMolding & finishing
- UseFood & product protection
- CompostReturn to soil
Impact Metrics (per 1 tonne of plastic replaced with alternative)
| Alternative | GWP (tCO₂e / t) used (range) | CO₂ saved per t replaced (range) vs baseline 6.05 tCO₂e/t | Energy use (MJ / t) used (range) | Energy saved per t replaced (MJ) (range) | Energy saved ≈ kWh / barrels oil eq |
|---|---|---|---|---|---|
| PLA (typical range) | 1.7 – 3.0 tCO₂e / t | 3.05 – 4.35 tCO₂e saved per t | 27,000 – 54,000 MJ / t | 16,000 – 43,000 MJ saved per t | ≈ 4,444 – 11,944 kWh ≈ 2.6 – 7.0 BOE |
| PHA (example mid) | ~3.61 tCO₂e / t | ~2.44 tCO₂e saved per t | ~44,000 MJ / t | ~26,000 MJ saved per t | ≈ 7,222 kWh ≈ 4.25 BOE |
| Molded pulp / bagasse (pulp-moulded) | ~0.6 – 2.0 tCO₂e / t | ~4.07 – 5.45 tCO₂e saved per t | ~35,000 – 49,000 MJ / t | ~21,000 – 35,000 MJ saved per t | ≈ 5,833 – 9,722 kWh ≈ 3.4 – 5.7 BOE |
| Mycelium (pilot / lab reported) | ~0.37 – 3.0 tCO₂e / t | ~3.05 – 5.68 tCO₂e saved per t | ~10,000 – 60,000 MJ / t | ~10,000 – 60,000 MJ saved per t | ≈ 2,778 – 16,667 kWh ≈ 1.6 – 9.8 BOE |
Sources: ScienceDirect, natureworksllc.com, PubMed Central, ResearchGate, BioResources, SpringerLink, lianindustrial.com, American Chemical Society Publications, Design Life-Cycle
Reimagining how everyday products are made, used and returned to the planet
At Agravera, we're reimagining how everyday products are made, used and returned to the planet. We design and manufacture high-performance, truly sustainable packaging and tableware — from protective e-commerce inserts to hot-food takeaway, elegant event tableware and compostable bio-films — using agricultural residues, next-generation biomaterials and proven manufacturing processes. Our work isn't about replacing plastics with something that “feels” green — it's about delivering real technical performance, supply reliability, and a clear end-of-life pathway so brands and consumers can scale better choices without compromise.
To accelerate the transition from linear, fossil-based packaging to a resilient, circular ecosystem built on renewable feedstocks, low-impact manufacturing and practical end-of-life solutions.
We help brands reduce persistent waste, lower greenhouse gas exposure, and tell a transparent, verifiable sustainability story to their customers.
Mission
To replace single-use plastics with high-performance, compostable packaging that protects products and the planet.
Vision
A circular packaging ecosystem where agricultural by-products power global supply chains without environmental compromise.
Innovative products for sustainable packaging solutions
E-commerce protective inserts & cushions
Molded pulp (recycled paper / agri-pulp): cost-efficient, protective, recyclable/compostable. Mycelium-based structural inserts: premium EPS alternatives — lightweight, insulating, compostable.
Use cases: electronics, fragile consumer goods, premium gift packaging.
Food packaging (takeaway, meal trays & clamshells)
Bagasse (sugarcane fiber) molded containers — high heat tolerance and stiffness, ideal for hot and greasy meals when paired with compostable linings. Molded fiber options for cold and ambient applications.
Use cases: QSR, cloud kitchens, catering and meal delivery.
Tableware & eventware
Areca / palm leaf pressed plates & platters — naturally grease-resistant and home-compostable, premium finish for hospitality. Bamboo and wheat-straw fiber tableware for a premium, renewable aesthetic.
Use cases: events, hospitality, corporate gifting.
Bio-films & barrier solutions
PLA & CPLA films for clear clamshells and liners (industrial-compostable). PHA films and bio-blend laminates for improved biodegradability in diverse environments. Seaweed/alginate-derived coatings for paper and fiber — enabling home-compostable liquid/grease resistance without plastic.
Use cases: windowed packaging, sauces, single-serve sachets, and film applications.
Short primer on our sustainable materials
Bagasse (sugarcane fiber)
agri-residue, excellent for molded containers.
Areca / palm leaf
fall-of-tree leaves pressed into premium tableware.
Molded pulp / recycled fiber
scalable and economical for inserts and trays.
Mycelium composites
grown, shaped, and low-energy; ideal EPS replacements.
PLA / CPLA
bio-based polymers for clear packaging and linings; CPLA used when heat resistance is required.
PHA
a next-generation biopolymer with strong biodegradation across environments.
Starch-based & bio-blends (PBS/PBAT)
cost-effective and flexible film options.
Cellulose (regenerated) films
compostable clarity for premium presentation.
Seaweed & algae-derived coatings (Notpla-style)
home-compostable barrier coatings for fiber packaging.
Edible & active coatings (e.g., chitosan/protein films)
for shelf-life and specialty applications.
We design every product to balance performance with realistic disposal pathways
Technical Performance
- High-temperature needs → CPLA or heat-treated formulations for hot foodservice
- Grease and liquid resistance → compostable linings (PLA / PHA) or seaweed coatings
- Protective inserts → molded pulp or mycelium depending on price/performance/brand values
Clear Disposal Guidance
Every SKU ships with precise disposal guidance:
Agravera's approach to sustainability is rigorous and measurable
- We prioritise waste feedstocks (bagasse, wheat-straw, other agri residues) and low-impact biomaterials to reduce land use and avoid food competition.
- We work with partners to measure cradle-to-gate impacts (GHG, energy, water) and provide per-item and per-tonne impact data for customers.
- We optimize manufacturing energy, pursue renewable energy sources, and continuously reduce drying and processing footprints — especially for energy-sensitive processes such as PHA and mycelium drying.
We blend R&D with production expertise
Lab testing for food safety and temperature limits, pilot runs for novel biomaterials (mycelium, seaweed coatings), and on-site QA to meet regulatory food-contact requirements. Our product development roadmap includes active packaging trials (antimicrobial/edible coatings) and advanced barrier films that are both high performance and home-compostable.
We engineer appropriate linings to match product requirements
PLA, CPLA, PHA, seaweed-based coatings, water-borne bio coatings, and edible/active coatings — to match product requirements (grease barrier, liquid resistance, heat tolerance), while always prioritising compostability and recyclability where possible.