Now, more than 50% of the world's population lives in cities, and this number will rise to 75% by 2050. Although the world's cities account for only 2% of the global land area, their greenhouse gas emissions are as high as an astonishing 70%, and they share the responsibility of global climate change. These facts make it a requirement to develop sustainable solutions for cities, and put forward various requirements for future cities. Some of these requirements include energy-saving and efficient street and traffic lighting, water and wastewater management, and reducing carbon dioxide emissions from motor vehicles. Flagship cases that have made great achievements in becoming smart cities include Barcelona, Singapore, Stockholm and Seoul.
In Seoul, waste management is one of the key areas to use innovative technologies to deal with global climate change. The large amount of garbage produced in the capital of South Korea, the overflow of garbage bins, littering and other problems have caused frequent complaints from residents. To solve these problems, the city has installed sensor devices based on the Internet of Things in hundreds of garbage bins around the city, enabling garbage collectors in the city to remotely monitor the filling level of each garbage bin. Ultrasonic sensors detect any kind of garbage and transmit the collected data to the intelligent garbage management platform through wireless mobile network, which helps the operation manager to know the best time for garbage collection and even recommend the best collection route.
The software visualizes the capacity of each trash can in the traffic light system: green indicates that there is still enough space in the trash can, and red indicates that the operation manager needs to collect it. Besides helping to optimize the collection route, the software also uses historical data to predict the collection time.
What sounds unreal has become a reality in many intelligent waste management projects around the world. But what are the benefits of silo level sensor? Stay tuned, because next, we will explain the top 5 reasons why every city should install smart sensors in dumpsters.
1.The material level sensor can realize intelligent and data-driven decision.
Traditionally, garbage collection is inefficient, aiming at every dustbin, but we don't know whether the dustbin is full or empty. Regular inspection of waste containers can also be difficult due to remote or inaccessible locations.
The bin level sensor enables users to know the filling level of each waste container in real time, so that they can take data-driven actions in advance. In addition to the real-time monitoring platform, garbage collectors can also plan how to carry out garbage collection in advance, only aiming at the positions of full garbage bins.
2.Garbage can sensor reduces carbon dioxide emissions and pollution.
At present, garbage collection is a topic of serious pollution. It needs an army of sanitation drivers who run a fleet of trucks with low mileage and large emissions. The typical waste collection service is inefficient because it enables the collection company to make more profits.
Ultrasonic dumpster level sensor provides a way to reduce the time of truck driving on the road, which means less fuel consumption and less greenhouse gas emissions. Fewer trucks blocking roads also means less noise, less air pollution and less road wear.
3.Garbage level sensors reduce operational costs
Managing waste can take a huge bite of the municipal budget. For cities in less affluent countries, trash collection often represents the largest single budgetary item. Moreover, the global cost of managing garbage is increasing, most severely affecting cities in low-income countries. It is often coupled with an even greater dilemma of shrinking budgets with its citizens demanding the same or better municipal services.
Bin fill-level sensors provide remedies for the budget concerns by reducing waste collection costs by up to 50% when used together with a fill-level monitoring platform. This is possible because fewer collections mean less money spent on driver hours, fuel and truck maintenance.
4.Bin sensors help cities eliminate overflowing trash bins
Without an efficient method of trash collection, at its worst, the growing public is exposed to the breeding ground of bacteria, insect, and vermin due to accumulated trash, which also promotes the spread of air and water-borne diseases. And at the minimum, it is a public nuisance and eyesore especially for those metropolitan areas that are heavily dependent on tourism to generate revenues to municipals service.
Bin level sensors along with real-time fill-level information collected through monitoring platform substantially reduce the overflow of garbage by informing operators of such instances before they occur.
5.Bin level sensors are easy to install and maintain
Installing ultrasonic fill-level sensors in trash bins is quick and easy. They can be generally attached to any type of waste container in any type of climate conditions and require no maintenance during their lifetime. Under normal conditions, the battery life is expected to last over 10 years.
Post time: Jun-18-2022