|Michigan Tech's Open Sustainability Technology Lab.
Wanted: Students to make a distributed future with solar-powered open-source 3-D printing and recycling.
The Pearce Research Group at Michigan Tech in Open Sustainability Technology focuses on open and applied sustainability, which is the application of science and innovation to ensure a better quality of life for all, now and into the future, in a just and equitable manner, whilst living within the limits of supporting ecosystems.
Specifically we are interested in exploring the way solar photovoltaic technology can sustainably power our society and how open-source hardware like open source appropriate technologies (or OSAT) and RepRap 3-D printing can drive decentralized local production and manufacturing (and maybe even social change). See Advancing Open, Sustainable Technology with 3D Printing
We have a strong open access policy.
- Category:MOST methods - Exactly how we do what we do - including detailed instructions for our open-source 3D printers and scientific equipment • Want to build a MOST RepRap? - Start here! • Delta Build Overview:MOST • Athena Build Overview • MOST metal 3-D printer
- Category: MOST literature reviews - For background reading
- Michigan Tech Open Sustainability Technology Sharing Award
Pearce Publications: Energy Conservation • Energy Policy • Industrial Symbiosis • Life Cycle Analysis • Materials Science • Open Source • Photovoltaic Systems • Solar Cells • Sustainable Development • Sustainability Education
Current Research Projects[edit | edit source]
|Photovoltaic Materials, Electronic Device Physics, and Solar Photovoltaic Systems Projects||Open Source Distributed Manufacturing|
|Solar photovoltaic (PV) technology provides the lowest cost electricity available in most markets. As installed costs continue to decline, antiquated polluting fossil-fued-based grid electricity prices continue to escalate, PV growth will continue to grow to dominate the energy industry of the future because it simply has a lower levelized cost.||Open source hardware (OSH) consists of physical objects designed and offered in the same manner as free and open-source software (FOSS). MOST is working on open-source scientific hardware for Open source labs using Arduino microcontrollers and RepRaps in addition to our standard work in OSAT.|
We intend to further reduce the costs by developing an ultra-high efficiency indium gallium nitride (InGaN) solar cell.  The band gap of InGaN can be tuned from 0.7eV-3.4eV by adjusting the ratio of indium and gallium in the film so a multi-layered cell covers the entire range of the solar spectrum. Thus, a well-designed InGaN solar cell can absorb and convert a much higher fraction of the sun’s light energy into electricity. In addition to band gap engineering, PV device performance can be improved by engineering the microstructure of the material to increase the optical path length and provide light trapping. For this purpose, nano-columns are candidates for the ideal microstructure as it has been shown that when their diameters are optimized, resonant behavior is observed.
|We are on the front lines of a 3D Revolution and made Open Source.com's list of "5 favorite 3D printing projects"
Joshua Pearce Explains the 3D Printing Revolution on Japan's Corbett Report
|Open source 3-D printers (RepRaps), enable 3D printing of open source appropriate technologies, which are easily and economically made from readily available resources by local communities to meet their needs. This project is developing solar powered self-replicating open-source 3-D printers - capable of making primary components of solar photovoltaic systems from recycled waste. The project investigates the technical and economic viability and environmental impact. Here is the plan. How would global society change if everyone had access to abundant low-cost renewable energy via solar electricity, open source 3D designs and an affordable open source 3-D printer like the RepRap?|
|This project aims to improve efficiencies of commercial solar cells using resonant plasmonic nanostructures. We are using wide-angle, polarization–independent, broadband plasmonic perfect meta-absorbers capable of achieving absorption throughout the entire solar spectrum while reducing semiconductor absorber layer thicknesses, which reduces deposition time, material used, embodied energy, greenhouse gas emissions, and ultimately economic costs.||We are further developing our <$2000 open-source metal 3-D printer. The metal 3-D printer is controlled with an open-source micro-controller and is a combination of a low-cost commercial gas-metal MIG welder and a derivative of the Rostock, a deltabot RepRap. We provided everything you need to make your own as we are climbing the ladder of sophistication together to give everyone the ability to print useful objects in steel and aluminum.|
|An important factor in decreasing the costs of PV systems is implementing a proper system design which effectively utilizes the modules to their greatest efficiency. Here we are properly accounting for meteorological factors which affect the performance of PV modules, and to suggest best practices for reducing losses and increasing yields for PV systems. See: the OSOTF or some of our projects on snow and solar cells||A RecycleBot is a waste plastic extruder - that can take household polymer waste and turn it into valuable 3-D printer feedstock. This project focuses on designing, building and testing an extruder for the RepRap that uses polymer waste as a feedstock.|
Videos[edit | edit source]
|OS Lulzbot at MOST|
|OSE tour of MOST lab|
|The Wild West of Distributed Recycling|
|Michigan Tech Owning Open Hardware|
|Why do we make such a big deal about open source hardware? Watch this movie|
|Shenzhen - The Silicon Valley of Hardware (Full Documentary) - Future Cities - WIRED|
|طابعات ثلاثية الابعاد لطباعة الفولاذ - 4Tech|
|BBC Arabic visits MOST|
Group Links[edit | edit source]
References[edit | edit source]
- Rumpala, Y., 2016. A New Printing Revolution? 3D Printing as an Agent of Socio-Political Change. International Journal of Technoethics (IJT), 7(2), pp.105-123.
- K. Branker, M.J.M. Pathak, J.M. Pearce, A Review of Solar Photovoltaic Levelized Cost of Electricity, Renewable and Sustainable Energy Reviews, 15, pp.4470-4482 (2011). DOI and Open access
- D.V.P. McLaughlin & J.M. Pearce, "Progress in Indium Gallium Nitride Materials for Solar Photovoltaic Energy Conversion", Metallurgical and Materials Transactions A 44(4) pp. 1947-1954 (2013).
This category has the following 13 subcategories, out of 13 total.
- ► Athena RepRap (0)
- ► Jephias Gwamuri Thesis (8)
- ► Pearce publications (10)
Pages in category "MOST"
The following 92 pages are in this category, out of 92 total.
- 3-D printable categorized
- 3-D printing of solar photovoltaic materials
- 3D printable OSAT gallery 1
- 3D printable OSAT gallery 2
- 3D printable OSAT gallery 3
- 3D printable science equipment
- 3D printable science equipment page 2
- 3D printable science equipment page 3
- 3D printers education
- 3D printers for peace contest
- Michigan Tech Open Source Hardware Enterprise
- Mobile Solar Powered 3D Printer V2.0
- User:Bharath Lavu
- Blind Person's Assistant
- MOST application process
- MOST courses
- MOST deadlines
- MOST first day
- MOST guide to graduation
- MOST HS RepRap user experience
- MOST in the news
- MOST in the news page 1
- MOST last day
- MOST library
- MOST News
- MOST News Coverage 2015
- MOST News Coverage 2016
- MOST News Coverage 2017
- MOST News Coverage 2018
- MOST News Coverage 2019
- MOST open access policy
- MOST paper writing
- MOST RepRap Build
- MOST student useful links
- MOST tasks
- MSE 5621
Media in category "MOST"
The following 11 files are in this category, out of 11 total.
- 2012 case for OSAT.pdf ; 306 KB
- MOST pump01.png 980 × 683; 97 KB
- MOST pump02.png 980 × 683; 93 KB
- MOST pump03.png 980 × 683; 99 KB
- MOST pump04.png 980 × 683; 96 KB
- MOST pump05.png 980 × 683; 93 KB
- MOST pump06.png 980 × 683; 93 KB
- MOST pump07.png 980 × 683; 101 KB
- MOST pump08.png 980 × 683; 113 KB
- MOST pump09.png 980 × 683; 106 KB
- MTU-Plastic Bank Internships.pdf ; 494 KB