Manufacturing Technologies for Peaceful Planet

LIST OF MANUFACTURING OPPORTUNITIES

The prime focus of PLANET@PEACE being, promoting of decentralized small/medium sized manufacturing projects, in towns and smaller cities, we expect to come across prospects, who may be newcomers to the industry and manufacturing. For their easy understanding, we list below our expertise in 3 groups – Technologies for Foods, Technologies for Nonfoods, and Sourcing Clean Foods and Nonfoods.
All lists are partial and will be updated regularly.
If you have a project idea related to food, packaging and waste, but not listed below, please do not hesitate to contact us.
There is also a list of startups, based on patented technologies, seeking investors for joint ventures.

TECHNOLOGIES FOR FOODS

1.
Complete processing and packaging lines for liquid foods (water, milk, all types of beverages, broths, honey, condiments, etc.) in rigid or flexible packs, including aseptic processing, cold pasteurization, ultrafiltration, single monoblock to fill glass/PET/cans, hot filling, etc.
2.
Complete processing and packaging of solid foods (grains, pulses, nuts, spices, etc.) as whole foods or powders, in rigid and flexible packs, from 50 gms to 25 Kgs. Complete lines for confectionary, biscuits, fun cakes, fresh or dried pasta, pizza bases and pizza, Indian snack Paani Puri; Also, complete lines for cooked lentils, seafood, etc.
3.
Complete lines for processing and packing of Single Dose sachets, liquids and powders, for food, pharma, cosmetics, HORECA, etc. at output of 60 sachets/minute to 4,000sachets/minute, which is currently the world’s fastest line.
4.
Complete lines for processing and packaging fruits and vegetables, comprising cleaning, peeling, cutting, packaging and freezing, etc. for fresh cut, frozen products; aseptic production lines for fruit juices, purees, marmalades and concentrates in bulk and retail packs.
5.
Processing and packaging of dates, including production of date juice and date liquid sugar, and animal feed from production waste.
6.
Complete lines for processing coffee and tea, including roasting coffee beans, grinding for regular and caramelized filter coffee, spray dried and freeze-dried coffee, packaging in bags, bottles and capsules (metal, plastic and eco-friendly paper).

TECHNOLOGIES FOR NONFOODS, INCLUDING WASTE AND CLIMATE RELATED

1.
Complete lines for processing and packaging of personal care and homecare products, including solids like bar soaps.
2.
Complete projects for converting organic waste like food, manure, etc. into energy (electric and thermal) by biogas, compost, animal feed, etc.
3.
Complete projects for converting waste wood, agricultural waste, etc. into energy by syngas, biochar, and compost.
4.
Converting paper waste into recycled paper and value-added products like egg trays.
5.
Converting waste oils, weed oils, low grade sugar/starch into biofuels and biochemicals.
6.
Decentralized power generation for remote communities, by low footprint high intensity solar energy systems.

SOURCING OF CLEAN FOODS AND NONFOODS

1.
Sourcing top quality organic and natural foods of European origin.
2.
Sourcing plant based organic personal care and home care products.

TECHNOLOGIES SEEKING VENTURE FUNDS

1.
MINI GREEN ENERGY- The system to convert residual biomass for small scale and on-site green energy production. The waste is converted by pyrolysis to syngas and biochar, if necessary, the syngas will be converted to electricity by CHP, 25-50kW. Proprietary technology, feedstock flexible and can valorize most waste biomass. Inventors seek strategic manufacturing partners for the global market
2.
HIGHLY EFFICIENT ENGINE - A unique heat engine using an external heat source (450-900C) to generate electricity, based on a patented thermodynamic cycle. Viable heat sources include pyrolysis heat and syngas, biogas, concentrated solar thermal, industrial waste heat, etc. Ideal for decentralized 24/7 energy generation with or without grid access. Inventors seek partners for the global market.
3.
FUTURE OF SOLAR ENERGY - Vertical solar generators with cubed solar panels, cubes stackable up to 10 layers for highest electricity yield in industry/m2 footprint, 5-7MW in 1000m2. Ready for commercial manufacturing during 2025. Inventor seeking partners globally.
4.
PLANT BASED PROPYLENE GLYCOL- An innovative universal cost-effective bacterial fermentation method, suitable for C3 as well as C2 bio, chemicals. Special advantage for production of propylene glycol (1,2 PDO) or other C3 chemicals, derived from fermentable sugars of any generation including grain sugars (starch), to replace fossil derived versions, with low CAPEX and OPEX. Inventors seeking global partners for pilot and commercial production.