SBIR-STTR Award

Profitable Recycling of Silicon Solar Cells and Modules
Award last edited on: 2/27/2019

Sponsored Program
SBIR
Awarding Agency
NSF
Total Award Amount
$957,880
Award Phase
2
Solicitation Topic Code
PH
Principal Investigator
Coby Tao

Company Information

TG Companies LLC

16038 East Tumbleweed Drive
Fountain Hills, AZ 85268
   (817) 965-1286
   N/A
   www.tg-companies.com
Location: Single
Congr. District: 06
County: Maricopa

Phase I

Contract Number: 1720800
Start Date: 6/1/2017    Completed: 5/31/2018
Phase I year
2017
Phase I Amount
$225,000
The broader impact/commercial potential of this Small Business Innovation Research (SBIR) Phase I project is to make the solar industry even more sustainable by reducting long term potential environmental impact. With the rapid deployment of solar modules, recycling of end-of-life modules will become a necessity in 15 years. The International Renewable Energy Agency (IRENA) estimates that end-of-life modules will appear in large quantities by the early 2030's and by 2050 they will total 78 million tonnes. Today most end-of-life modules end up in landfills. More importantly, this project will develop a technology to enable a profitable recycling business without any government support, financial and/or legislative. IRENA predicts a new industry worth $15 billion by 2050 from recycling 78 million tonnes of modules. By recovering all the valuable components in modules, our technology has the potential to generate $60 billion in revenue from 78 million tonnes of modules. The proposed project develops sustainable recycling processes and related equipment for silicon solar cells and modules. The focus of the project is to recover all the valuable, toxic, and bulky components in cells and modules including solar-grade silicon, silver, lead, copper, tin, aluminum, and glass. It will be demonstrated that the recovered silicon meets the specifications of solar-grade silicon and the recovered metals are over 99% pure. The target for solar-grade silicon recovery is 85% and the target for metal recovery, especially silver, is over 90%. The chemicals for recycling will be carefully chosen so their wastes neutralize each other for a minimal environmental impact.

Phase II

Contract Number: 1831148
Start Date: 9/15/2018    Completed: 8/31/2020
Phase II year
2018
Phase II Amount
$732,880
The broader impact/commercial potential of this Small Business Innovation Research (SBIR) project is to make the 'green' solar industry truly green. As the deployment of solar modules expands rapidly, so will module wastes. The International Renewable Energy Agency (IRENA) estimates that module wastes will appear in large quantities by early 2030's and by 2050 they will total 78 million tonnes. Today most module wastes end up in landfills. This SBIR project will develop a technology to maximize the revenue from module recycling. It has the potential to enable a profitable recycling business without any government subsidy. By recovering all the valuable components in modules, our technology has the potential to generate up to $60 billion in revenue from 78 million tonnes of modules.The proposed project develops sustainable recycling processes and related equipment for silicon solar cells and modules. The goal of the project is to separate and recover all the valuable, toxic, and bulky components in cells and modules including solar-grade silicon, silver, lead, copper, aluminum, tin, and glass. The target for solar-grade silicon recovery is 85% and the target for metal recovery, especially silver, is over 90%. The revenue from recycling, based on today's prices for solar-grade silicon and silver, is $15/module by our technology, as compared to $3.50/module by today's technology. The primary work of this project will be developing a prototype for silicon solar cell recycling and optimizing the process for a production environment. The target throughput of the prototype is up to 50 kg of solar cell wastes per day.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.