Let’s Conquer E-Waste!


90% of Americans own a cellphone, yet only about 20% of unwanted cell phones are recycled each year!


  • ecoATM is a self-serve kiosk buying back electronics from consumers using patented, advanced machine vision, electronic diagnostics, and artificial intelligence to evaluate products

The Simple Three Step Process

  • Recycling your old phones, MP3 players and tablets doesn’t have to be a hassle. We want to make ecoATM the most convenient way for you to leave a positive impact on the planet while also putting a little cash in your pocket.


  • Place your device in the ecoATM test station.


  • The ecoATM will examine your device and then search for the highest price we can find in a network of buyers.
  • The kiosk prices each individual device based on model, condition and the current value on the market.


  • If you agree to sell it, you will receive cash on the spot.
  • Get green for getting green!

Sources: https://www.ecoatm.com/how-it-works/ 



  • ecoATM company
  • Electronic companies/investors
  • Community


  • Attract more investors and pair up with electronic companies who will be able to reuse and recycle the devices
  • Increase advertising budget and make consumers aware of the technology by increasing the number of ecoATMs situated in malls and various locations
  • Develop strong partnerships with leading organizations to further change and advance solutions to the e-waste challenge


UNI: AV2698

Hyperloop who? Introducing T-Flight

Environmentally Inefficient travel options such as buses, trains, and airplanes not only end up leaving a large environmental footprint but are not doing enough to address the problem of sustainability. For a city, such as Dubai, the daily turnover of aircraft is over 1,000, which means over 1,000 aircraft are burning fossil fuel to move passengers and cargo from one place to another. A more environmentally sustainable solution to this problem needs to be found, that addresses the use of fossil fuel, the emissions, all the while maintaining the benefit of traveling long distances in a brief time.

#Energy #Transport

Using the concept similar to that of the Hyperloop; using frictionless technology to achieve fast speeds over a long distance, the Chinese concept of T-Flight achieves speeds of over 2,300 mph, overshadowing the “mediocre” speeds of 745 mph of the Hyperloop. It proposes to make travel more convenient, affordable, and accessible to a larger audience. One of the future problems that scientist predict that aircraft will face is increased turbulence due to global warming. T-Flight hopes to eradicate most of these issues.

Being powered by renewables, T-Flight promises to bring a cleaner and more efficient solution to long-distance travel compared to the traditional air travel.

The stakeholders that will be using the technology would be the intercity transit, national transit, and cross-country transit departments.

T-Flight is a project of CASIC which has 150,000 employees, support of the Chinese Government, and some deep pockets.

The deployment of this technology will begin with research. Already 200 patents for T-Flight have been registered, and the final research is said to complete by 2020. This will be followed by the construction of a national network of tunnels where speeds of 1200 mph can be achieved starting 2027, connecting major cities within China, followed by Stage 3 of constructing 2300 mph tunnels for cross-country travel.

The next stage is to build a national network of 1,200-miles-per-hour hyper loops across China beginning in 2027. This Phase 2 network would in theory link cities like Shanghai, Chengdu, and Beijing. The final stage: Mach-3 flying trains around the world.

The interconnection of cities is vital. However, the fact that the technology can be small-sized to intercity at relatively slower speeds (Much lower: 50 mph), shows that the future towards sustainable transport not just cross cities or across countries, but within cities is taking a huge leap forward. Underground inter-city and cross cities connection is the final goal of the T-flight. Something every commuter can look forward to.

China’s looking to one-up Elon Musk’s hyperloop
#china #technology #transit #transportation #innovation #hyperloop #hypersonic


The great pacific garbage patch

Sustainability issue:  The great pacific garbage patch is a water and waste pollution issue. This patch of marine debris located in the pacific ocean has been stuck there for years due to the pacific vortex which keeps it circling the waters

  • Instead of chasing after the waste, the “Ocean CleanUp” will instead deploy barriers that use the same water currents that makes the waste stuck in place, to collect that same exact waste.
  • Sea life will not be impacted as only lighter than water plastic objects will get caught in the net.
  • Over 10 years, these nets can clean up half of this waste.

Organizational stakeholders: International Coastal Cleanup, Trash Free Seas, Greenpeace International

3 steps to deploy technology: – Introducing the idea to the organizational stakeholders who can fund it, soliciting help and materials from individuals if this is to be done from volunteer work (already being done), sensitizing populations so they are more willing to help when it comes to waters that we all share and that do not affect their immediate lives.

Article: http://magicseaweed.com/news/the-great-pacific-garbage-patch-solution/7615

AI driven health app Your.MD aims to bring better health information to consumers


your-mdSustainability Problem: Safety and Health – Lack of affordable, accessible, and trustworthy health information

Technology: Your.MD is an app that describes itself as a “Personal Health Assistant” that provides users with more relevant and “trustworthy” health information from end to end. The app integrates with Facebook Messenger, WeChat, Slack and other messenging apps to help users better understand the problems and solutions for their personal health questions as well as connect them to services as needed in a seamless experience. Artificial intelligence facilitates a smarter and more personalized experience based on reliable data.

Your.MD Scores $5M For Its AI-Driven Health Assistant

Stakeholders: Consumers, Doctors, Hospital Administration, Nutritionists, Pharmacies

Implementation: (1) Partner with Hospitals to work directly with patients on a pilot basis; make enhancements based on feedback from patients and doctors. (2) Integrate with health news sites and apps where consumers are already looking for better health information. (3) Integrate with other specialized health apps such as those that specialize in on-call personal doctor services to create a true “one-stop” experiences for all personal health needs.

class june 9, 2016 – uni mst2135

3D Printing – Less Waste and Energy Use/More Recycling Opportunities

Article: 3 Ways 3D Printing Will Save the Environment

Website: https://3dprint.com/271/3-ways-3d-printing-will-save-the-environment/

  • 3D printing could be a feasible solution to reduce waste in manufacturing.  This is a different type of manufacturing that adds materials to the product until completion, therefore creating less waste.  Less waste means less garbage sent to landfills and less overall pollution.
  • We could also expect a reduction in fossil fuel use as 3D printing becomes more standard and we become less reliant on traditional shipping methods.  Products will be printed within your home instead of delivered by truck.
  • 3D printing could allow for additional recycling opportunities.  For example, a used plastic bottle or other materials could be turned into filament for this printer.

Consumers are the primary stakeholders that must utilize this technology in order to see an impact.  Also, businesses within the manufacturing industry can take advantage of the cost savings from 3D printing.

The first three steps in deploying this product would be:

  1. Partner with manufacturers to implement 3D printing for its products.
  2. Identifying the most efficient ways of recycling using the 3D printer and how this can be done at home.
  3. Providing access to a low cost version of a 3D printer for home use that consumers can use on a daily basis.

Wave-powered electricity generation in Australia


1. Sustainability Problem

Energy: Growing cities can struggle to keep up with energy demand, and increasing demand is often met with unsustainable technologies such as electric generation from coal. Renewable means of generating electricity are needed.

2. Technology Article Summary

Australian wave energy project sets a new world record with 14, 000 operating hours

by Josh Marks
Published 6/9/2016 on inhabitat at http://inhabitat.com/australian-wave-energy-project-sets-world-record-with-14000-operating-hours/

  • The first array of wave power generators connected to an electricity grid was installed a year ago off Bondi Beach. This is the CETO 5 project operated by Carnegie Wave Energy.
  • The field provides renewable electricity and potable water to a naval base on Garden Island.
  • Carnegie are currently developing CETO 6, a unit with a target of four times the output of CETO 5 at 1MW. This model is intended to be used in commercial CETO projects.
  • The author identifies potential for this kind of zero-emission electricity generation to be expanded throughout the country, since 80% of the Australian population live along the coast.

3. Organizational Stakeholders

This technology, when commercialized, will be available to coastal areas around the world. Stakeholders will include:

  • Private energy companies/utilities operating in coastal areas
  • End users of energy
  • End users of desalinized water
  • Current users of coastal waters (for fishing, recreation, etc.)

4. Deployment

The next three stages in deploying this technology could be:

  • Carnegie: demonstrate performance of CETO-6 unit (project commissioning planned for 2017)
  • Energy companies: identify potential sites for installation and carry out geotechnical investigation
  • Energy companies: install pilot-scale CETO-6 arrays and connect into existing grid.

See also:

http://carnegiewave.com/projects/ceto-6/ for a technical description of the CETO-6 unit

http://carnegiewave.com/wp-content/uploads/2015/06/CP115-0020-0_PRS-CETO-6-Community-Information-Sheet_Web.pdf for information on the planned CETO-6 installation at Garden Island


EKOCenter: Deka Research & Coca Cola Initiative



Increasingly there is a shortage of fresh water to meet the needs of growing human population across our planet caused by rampant industrialization, wide spread pollution and unhindered commercialization of this once abundant, naturally clean resource.


  • Slingshot – a water purification unit developed by Deka Research (of Dean Kamen fame) uses a technology called vapor compression distillation.
  • Slingshot can purify 250,000 liters of water per year – no matter how dirty, and make it potable for satisfying the needs of 300 people.
  • Partnering with Coca Cola Company, developed a sustainable, entrepreneurial modular system called the EKOCenter integrated with Slingshot to distribute them around many developing locations around the world.


  • Disaster relief and emergency medical organizations like American Red Cross.
  • Companies like Coca Cola, Nestle, Pepsico that use significant amount of fresh water to make their products for consumers around the world.
  • Farmers
  • Governments


  1. Partner with governments and NGO’s in developing countries to identify, support entrepreneurs to invest and manage EKOCenter type systems
  2. Develop funding opportunities through organization sustainability commitments, government subsidies and micro-loans for entrepreneurs.
  3. Recommend an internship program with a partnership between Columbia University and Coca Cola to enable interested students to install EKOCenters in various countries/locations of their choice.