Yes. We make several models of solar powered shredder. These devices allow you to shred mixed plastic types into small particles that can be ingested into LightManufacturing Solar Rotational Molding systems. This allows for closed-loop / local re-processing of waste materials. Shredded plastic is also dense and can be efficiently transported to larger facilities for re-processing.
Yes, Solar Rotational Molding can ingest / use beach-collected plastic waste with good results, particularly if the product design is tolerant of thick walls to make up for the reduced strength of environmentally-degraded plastics. With the use of a small percentage of ‘bonding’ resin (new plastic that is good at binding different plastics and contaminants together, plastic parts can be molded at 60% beach plastic waste or more. Landfill-sourced plastics can also be used, at even higher percentages if of known type (eg sorted polyethylene).
SRM™ (Solar Rotational Molding) is a patented process, with rights held by LightManufacturing Inc. who developed the technology. We build and sell complete SRM systems, and in some cases supply technology under license. SRM systems are not available in kit form, and they are not public domain (building SRM systems requires writted permission to use our technology). We work with NGOs and non-profits, as well as government entities and commercial partners. Contact Us with your project, we’d like to learn more.
LightManufacturing’s patented SRM (Solar Rotational Molding) process uses sun-tracking mirrors called heliostats, to concentrate solar energy on a rotational mold. We have developed a uniquely capable heliostat, called the H1. Heat from the sun directly warms the mold, melting the plastic. Because the process uses heat directly in the molding process, the system is highly efficient: 75% efficient as compared to typical photovoltaic efficiency of 15% or less. There’s no need to convert light into electricity, nor does energy have to be transported via expensive transmission lines to market.
Zero pollution is generated in SRM, and all fuel costs are eliminated.
Rotational molding is a globally-used technique for making large plastic objects. Over 3.6 billion pounds of plastic are rotationally molded each year. Unfortunately, the process is energy intensive and uses non-renewable energy sources like natural gas and kerosene. Over 18.4 trillion BTU of fossil fuel is consumed by the rotational molding process, generating over 2.15 billion pounds of greenhouse gasses annually.
Rotational molding is an excellent way to make large, life-improving products like water and septic tanks, boats, docks, toys, and much more. Solar Rotational Molding helps this global process cheaper to operate and much more sustainable.
Yes. Unlike inefficient solar-electric systems, our solar thermal systems capture and use over 75% of incident solar heat. Also, the purchase cost of our heliostats and molding systems is much less than the equipment needed for traditional gas-fired plastic molding. The result? Lower buy-in costs AND lower operating costs. Solar thermal plastic molding out-competes traditional processes without subsidies – a rarity in the clean-tech world. CapEx, OpEx, and Transport costs are all much less than traditional molding.
Solar Rotational Molding Systems install into areas as small as 60′ x 60′ (3600 ft2). However, most of this area is unmodified; it can be left as unimproved land, or even planted with low-height crops. Here is how the land is used:
- Heliostat array footprint @ 60′ x 10′ (600 ft2)
- Target enclosure footprint @ 20 ‘x 8′ (160 ft2)
- Raw materials, tools, and finished part storage (typical) 300 ft2
Total: 1060 ft2 So, just 30% of the 3600 ft2 total area is occupied by objects. The balance of the land remains unchanged. Compared with the concrete-slab required to support a traditional rotational molding operation, SRM offers a far less impactful solution. Large SRM systems scale as big as needed – 12 systems pack into a single acre of land.
Yes – electricity is used to position the heliostats, and electricity is used to drive the two motors in each molding armature. For small to midsized molds, these motors are 1/2 horsepower and require a total of @ 745 watts peak power. Our Solar Rotational Molding systems include photovoltaic panels, batteries, and charge controllers – you can install an SRM system anywhere. No grid-tie electricity is needed.
Because Solar Rotational Molding uses concentrated solar thermal energy, not solar electricity, it converts a very high percentage of available solar energy to useful heat. SRM achieves 75% typical efficiency, vs solar electric’s 15-20% efficiency. This efficiency, combined with LightManufacturing’s heat management, positioning, and process control software allow mirror arrays as small as 30 m2 to generate sufficient heat to mold objects 1x1xm.
A key difference between SRM and traditional rotational molding is that SRM heats the mold target by radiative heating (efficient, directly heats the metal) vs convective heating (gas burner heats air, which inefficiently heats the metal).
35 heliostat SRM systems routinely mold 2000L water tanks.
Solar Rotational Molding is convered by several US an international patents, and is available as complete working systems (not kits or DIY solutions).
Most people think of injection molding when they think of plastic manufacturing – this process is very capital intensive, and produces high volumes of relatively small, thin-walled objects – i.e. plastic cutlery, small toys, flashlight bodies, etc.
Rotational molding is best at making relatively large objects – from something 6″ across to very large objects such as 8′ diameter water tanks or 10′ long boats, with walls up to 1″ thick. These large, heavy objects do not pack efficiently, and shipping them is essentially to ‘ship air’. As a result, Rotational Molding is distributed across all markets – European Rotomolders making parts for Europe and for export, Asian rotomolders making parts for Asia and for export, etc. The distributed nature of rotational molding allows LightManufacturing’s SRM process to be deployed as needed in solar-rich regions.