A PRODUCTION SCALE BUILD AND DESIGN OF TRASH SKIMMER
The waste problems, especially for water waste problem, in Indonesia are serious problems. It is reported that the waste production of Citarum watershed may reach 15,838 tons per day with 15.38% of the production are plastic waste. To reduce that waste production, a device in the form of a boat w...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/83612 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The waste problems, especially for water waste problem, in Indonesia are serious
problems. It is reported that the waste production of Citarum watershed may reach
15,838 tons per day with 15.38% of the production are plastic waste. To reduce that
waste production, a device in the form of a boat which is called Trash Skimmer will
be designed. From the previous research, a laboratory scaled of Trash Skimmer has
been created so that in this research, a production scaled one will be created. In this
production scale design, Trash Skimmer will be controlled wirelessly through use
of 433 MHz RF wave which is transmitted from transmitter circuit to driver /
receiver circuit of Trash Skimmer. The command control of Trash Skimmer that
based on the A/D readings of horizontal axis and vertical axis of a joystick and
based on the combination of the six buttons will be created. In addition, for
controlling the movement of the boat through the propellers, an open looped control
system that is based on fuzzy inference system will be created. In this research, the
production scale of Trash Skimmer has been built where the transmitter and receiver
circuited has been built using printed circuit board (PCB). From the result of the RF
communication testing, it is showed that the communication of Trash Skimmer can
reach distance of 100 m with a data validity that can reach more than 99%.
Furthermore, the Trash Skimmer motion system based on fuzzy inference system
with a continuous and varying control surface compared with a system based on
classical logic has also been obtained.
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