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1440 Barberry Dr.
Currently in Australia plastic and related waste materials either are burned, go to landfill or are exported to China for recycling.
There are now technologies to convert these waste materials to crude oil leading to either plastics remanufacturing or oil. There is a need for government incentives in both China and India who are large consumers of plastics and their waste generation. Otherwise the new technologies can not take root as feasible alternatives to other waste handling technological practices.
The U.K. is one such place or destination for establishing this technological wonder. We hope to report on this in countries like India, China, the Philippines and Australia.
One problem we are facing and currently communicating to SUAKCREM of Silliman University, the Philippine Islands (PI) is the ongoing pollution of "microplastics" in the food chain which recently was detected with SUAKCREM in a fish food called "danggit" used for mini-salted fish "crisps" eaten commonly with breakfast eggs in the Filipino diet. This is alarming to Filipino scientists where plastic unrecycled is common in the Philippine waters. This just as importantly called to question the investigation (e. g. Friendly Aquaponics, Honoka'a, Hawaii USA) of combining aquaculture, or raising fish in captivity and hydroponics, or raising vegetables and other crops in liquid medium which benefits and improves both in the process which should be touted as the new tomorrow for fish raising even in backyard settings to avoid contaminated, tested fish species currently in Philippine waters.
Another problem we are facing at "SkyeBlue" is the recycling of animal waste to field application for cropping to complete the cycle of nutrient and waste management. Currently in urban-rich land are monopolistic hog farm operations that cannot handle the heavy animal pig litter waste output. A possible waste treatment plant would be enabled and have capacity handle: a) NH4Cl upon treatment of NH4 [also as volatile NH3) with chlorination (Cl2)], b) the microbial remediation of pesticide cpds., c) the microbial remediation of antibiotic residues, both posing a public health risk and d) the natural silt rich in potassium and phophates, all for reapplication onto farm lands for corn, wheat, soybeans and cotton, as examples.
(c) D. A. Flores. SKYE BLUE INTERNET. Port Coquitlam. BC. Canada V3B 1G3.
Last update of this entry: August 01, 2021