PUBLIC PROCUREMENT NEWS

  

Deep dive

31 May 2019

Trash tech: smart city and IoT infiltrate the industry

New emerging infrastructure and capabilities offered by Cyber-Physical Systems (CPS), Blockchain technology, and the Internet of Things (IoT) are expected to play a vital part in the paradigm shift towards reducing waste and extending product lifecycles within the circular Smart Cities of the future. The IoT concept predicts a world in which physical, digital, and virtual objects are interconnected in a network with the ability to share data. If used correctly, the IoT ecosystem could see improvements in safety, turnaround times and customisation. But perhaps most far-reaching impacts will involve large data systems that drive sustainability in logistics and supply chains, via increased transparency of the product lifecycle through data collection and analysis, helping cities manage resources and infrastructure more efficiently.


Fast forward to the future   

IoT has the potential to improve in all three main waste management practices: prevention (e.g. product design, awareness campaigns, legislation), end-of-pipe strategies (e.g. recycling, waste separation, incineration, proper landfill) and environmental restoration. Prevention offers the most effective method with the lowest impact control costs, while environmental restoration is the most expensive practice with the lowest effectiveness. Currently, data are collected everywhere by different organisations, but communication between sources and an integrated and connected (product lifecycle) data cloud that can be shared between them is lacking.


IoT hierarchy

IoT may involve three core layers: (1) collection of product lifecycle data to maximise use (2) new business models based on connected and involved citizens for sharing products and service information to avoid waste generation, and (3) an intelligent sensor-based infrastructure for on-time collection and separation of waste to assure effective waste recovery operations. The first two aim to prevent waste, the third to improve efficiency of collection and recovery.


Barcelona

Working to become the “smartest city on the planet” (Fortune 2014), Barcelona’s mantra is to be an “inclusive, self-sufficient smart city in a hyper-connected zero emissions Metropolitan area”. Their end-to-end Smart City strategy impacts almost every urban service via open data initiatives, smart lighting, e-mobility and energy (heating and cooling networks). For street lighting for example, which uses most of a city’s energy consumption, a highly efficient remotely managed system saves energy, optimises maintenance and provides a safe environment for citizens. A smart water irrigation hydric balance system enables watering and irrigation organisation through sensor and electrovalves. The projects delivered 43 million Euro of benefits between 2011-2014, with an expected cumulative 832 million Euro by 2025, saving 9,700 tonnes of CO2 equivalent and 600,000 liters of water each year in the long term through reduced lighting power consumption, reduced travel and office space while increasing attractiveness and liveability.  


Transportation efficiency

Transportation is one of the greatest contributors to worldwide greenhouse gas emissions, and one of the largest costs of waste management, IoT technology has great potential to improve its efficiency. Sensor-enabled and internet-connected garbage bins can collect information on fill level, temperature, location, or whatever data types the sensors gather and the sanitation department finds useful. With a user interface revealing the locations and fill levels of all bins, waste collectors can get an automated route planned for them that has prioritized areas in urgent need of cleanup and avoided disposal units that still have room. It is possible to track the location of waste containers, monitoring the level of garbage deposited, identify locations with the highest demand, suggest the shortest route for collection optimization of solid waste, or even interface with citizens to encourage disposal at times when the container can receive waste, which promotes citizenship and avoids significant problems resulting from the accumulation of garbage outside garbage collectors.


Focus on: Glasgow’s waste collection using GIS               

As well as optimising fleet logistics operations and reducing fuel consumption, the bins also record the number of times they’re emptied and how fast they fill up. Such data, when combined with statistics from other smart city systems, can facilitate more insightful, multi-pronged actions e.g. planning better distribution of garbage bins, zeroing in on problems like incorrect disposal practices) or reducing waste going to landfill.


Trash tracking

Sensor-based tracking technology has proven crucial for monitor recycling and recovery of e-waste after leaving of the Original Equipment Manufacturers (OEMs) hands. A project by Greenpeace for example GPS tracked broken television sets, revealing the illegal actions of UK formal recycling sectors in selling second-hand items to developing regions, violating EU regulations. The Basel Action Network (BAN) and MIT Senseable City Lab tracked certain electronics dropped in charities and recycling sites, showing the export of e-waste from the US abroad - mostly to Asia - while others have exposed informal facilities and dump sites.