DESIGN AND IMPLEMENTATION OF PLANT GROWTH CHAMBER SYSTEM WITH BROAD SPECTRUM AND HIGH INTENSITY LIGHTING: CHILI CULTIVATIONS CASE STUDY
ABSTRACT DESIGN AND IMPLEMENTATION OF PLANT GROWTH CHAMBER SYSTEM WITH BROAD SPECTRUM AND HIGH INTENSITY LIGHTING: CHILI CULTIVATIONS CASE STUDY By Muhammad Arbi Minanda NIM: 23220344 (Master’s Program in Electrical Engineering) The plant growth chamber is a chamber that is isolated from the...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/67315 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | ABSTRACT
DESIGN AND IMPLEMENTATION OF PLANT GROWTH
CHAMBER SYSTEM WITH BROAD SPECTRUM AND HIGH
INTENSITY LIGHTING: CHILI CULTIVATIONS CASE STUDY
By
Muhammad Arbi Minanda
NIM: 23220344
(Master’s Program in Electrical Engineering)
The plant growth chamber is a chamber that is isolated from the surrounding
environment with the microclimate inside can be controlled so the plant growth can
be monitored and controlled at the same time. Inside plant growth chamber,
microclimate parameters such as temperature, humidity and light intensity can be
controlled at an optimal range for plant growth. Previously, researchers from STEI,
SITH, and PT. East West Seed Indonesia (Ewindo) has observed the growth of chili
cultivations in parallel using the same chili seeds at 2 different locations. At the
first location on ITB Ganesha, chili seeds were grown in a plant growth chamber
(made by STEI researchers) by SITH ITB researchers, while at the second location
in Ewindo Purwakarta, chili seeds were grown in a screenhouse under sunlight.
From the measurement results, it appears that the height and number of leaves of
chili cultivations in the Ewindo Purwakarta screenhouse is much better than that
chili cultivations in SITH plant growth chamber. From this experiment, a
conclusion was derived that the growth of chili cultivations would be better if they
received high-intensity sunlight spectrum lighting, which was followed up in this
thesis research. Based on this background, a solution was designed and
implemented in the form of a plant growth chamber system with broad spectrum
and high intensity lighting. After comparing number of lighting sources (lamps), it
has been selected the Horticultural typed LED (Light Emitting Diode) components
which have a broad light spectrum from 400 - 780 nm. Then the broad-spectrum
LED light is set to have the high intensity of about tens of thousands of lux, which
required for optimal chili cultivations growth while minimizing the heat dissipation
generated so that the microclimate conditions in the growth chamber can still be
controlled. The system has succeeded in monitoring and controlling microclimate
parameters on a regular basis, observing visually plant growth conditions in it, and
can be accessed by onsite users, as well as remote users through gateways, cloud
servers, and mobile or website applications. The system successfully controls the
microclimate in the temperature range of 5-50oC (lights off) and 10-50oC (lights
on), humidity 40-90%RH, and light intensity up to 15,000 lux.
Keywords: Plant Growth Chamber, Sensor, Actuator, Light Intensity, Gateway. |
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