Problem definition

Waste processing in the 21st century is increasingly more characterized by efforts to protect the environment and ensure sustainable development - a sign of circular economy which aims to combine the environmental benefits with socioeconomic positive impact. The simulation focuses on the total amount of waste created by manufacturers and inhabitants of Prague. The waste is then processed in one of 4 ways - recycling, incineration, landfilling or other disposal. Among variables which have an impact on the system are primary resources used for manufacturing, population of the city and an average consumption per capita. Simulation will run in months and waste is measured in tonnes. The purpose of this simulation is to predict waste creation and waste processing for year 2020 based on the data from 2019.

Method

For the purpose specified in the problem definition was chosen Vensim PLE modelling software due to the dynamic nature of this system.

Model

Variables

Waste

Represents total volume of created waste. Starting value is 0

Creation

Volume of created waste in a month. Creation = Municipal waste + Manufacturing waste

Processed

Total volume of processed waste. Consists of recycling, incineration, landfilling and other disposal. Processed = Creation

Recycling

Total volume of processed waste by recycling. Recycling = Creation * Recycling rate

Recycling rate

How many per cent of total waste is being recycled. Recycling rate = 0,845 ^[1]

Incineration

Total volume of processed waste by incineration. Incineration = Creation * Incineration rate

Incineration rate

How many per cent of total waste is being incinerated. Incineration rate = 0,035 ^[1]

Landfilling

Total volume of processed waste by landfilling. Stock pile = Creation * Landfilling rate

Landfilling rate

How many per cent of total waste is being landfilled. Landfilling rate = 0,095 ^[1]

Recycled

Volume of recycled waste in a month. Starting value is 355 793 (average for one month in Prague in 2019) ^[2]. Recycled = (Creation * Recycling rate) - Recycled

Manufacturing material

Volume of used material in manufacturing during month which consists from primary resources and secondary (recycled waste). Material = Recycled + Primary resources

Other disposal

Other disposal represents total volume of other uses of waste than recycling, incineration and landfilling. Other disposal = Creation* Other disposal rate

Other disposal rate

How many per cent of total waste is being disposed in other ways. Other disposal rate = 0,025 ^[1]

Primary resources

Primary resources represents the resources that are used in manufacturing which were not recycled. Primary resources = RANDOM NORMAL (974240, 2000000, 1487120, 100000, 0)

Manufacturing waste

Waste created by manufacturing. Manufacturing waste = Manufacturing materials * Waste creation rate

Waste creation rate

Represents how many per cent of waste is created from manufacturing. Waste creation rate = 0,2

Municipal waste

Municipal waste = Population * Average consumption per capita

Population

Population = 1 331 464 ^[3]

Average consumption per capita

Municipal waste in Prague was 721 000 tonnes in 2019 ^[2]. Municipal waste divided by total population of Prague is 0.548 tonnes per capita in a year (2019)^[2]. 0,548/12 = 0,04566 tonnes of created municipal waste per capita in one month. Average consumption per capita in a month = 0,04566

Results

The numbers in the simulation are based on the newest available data (from 2019). Because of the nature of the data which are presented in years I divided the numbers by 12 to get the "average month" in 2019 to simulate evolvement in 2020 by adjusting the population. From the simulation was created estimation for year 2020 (which has not been documented yet). The goal was to simulate 12 months in 2020 (12 steps).

Conclusion

Code

References