Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B
Food scarcity has been a progressive imminent problem globally for many decades. Although enough food is produced for every one of the world’s population at the moment, the world will face food scarcity in the future. While the world’s population is on a steady rise, on the other hand, natural re...
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sg-ntu-dr.10356-693822023-07-07T16:35:35Z Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B Nyein, Phyo Pyae Pyae Tse Man Siu School of Electrical and Electronic Engineering DRNTU::Engineering Food scarcity has been a progressive imminent problem globally for many decades. Although enough food is produced for every one of the world’s population at the moment, the world will face food scarcity in the future. While the world’s population is on a steady rise, on the other hand, natural resources are limited and has been used up throughout the human history. Effects of global warming has caused draughts, forest fires, storms and harsh weather conditions which in turn, distraught the food production across the globe. Moreover, gentrification, urbanization and industrialization resulted in loss of agricultural land and workforce. Food production depend on a number of elements; fertile land, water, light, favourable weather conditions, fertilizers, human resources. Modern farming technologies have been researched and experimented to increase food production and its heavy reliability on the land scarcity and weather conditions. A great number of researches have proved that light source is one of the major factors defining plant’s growth. A plant requires a light source to perform a process known as photosynthesis. A plant acquires its energy from photosynthesis. By controlling the light source, plants can be grown indoor, independent of weather conditions and land availability and moreover, the yield can be improved tremendously. In this project, the effect of light source and its wavelengths on plant’s growth will be discussed. Moreover, PPFD of the light source and the significance of PPFD in growing plants will be covered. PPFD calculations and study of LEDs and LED drivers are also explained in this report. This report will illustrate the system design of LEDs lighting for plant’s growth. Schematics and PCB designs will be disclosed in this report. Bachelor of Engineering 2016-12-20T07:44:28Z 2016-12-20T07:44:28Z 2016 Final Year Project (FYP) http://hdl.handle.net/10356/69382 en Nanyang Technological University 57 p. application/pdf |
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DRNTU::Engineering Nyein, Phyo Pyae Pyae Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B |
| description |
Food scarcity has been a progressive imminent problem globally for many decades.
Although enough food is produced for every one of the world’s population at the
moment, the world will face food scarcity in the future. While the world’s population
is on a steady rise, on the other hand, natural resources are limited and has been used
up throughout the human history. Effects of global warming has caused draughts,
forest fires, storms and harsh weather conditions which in turn, distraught the food
production across the globe. Moreover, gentrification, urbanization and
industrialization resulted in loss of agricultural land and workforce. Food production
depend on a number of elements; fertile land, water, light, favourable weather
conditions, fertilizers, human resources.
Modern farming technologies have been researched and experimented to increase
food production and its heavy reliability on the land scarcity and weather conditions.
A great number of researches have proved that light source is one of the major
factors defining plant’s growth. A plant requires a light source to perform a process
known as photosynthesis. A plant acquires its energy from photosynthesis. By
controlling the light source, plants can be grown indoor, independent of weather
conditions and land availability and moreover, the yield can be improved
tremendously.
In this project, the effect of light source and its wavelengths on plant’s growth will
be discussed. Moreover, PPFD of the light source and the significance of PPFD in
growing plants will be covered. PPFD calculations and study of LEDs and LED
drivers are also explained in this report. This report will illustrate the system design
of LEDs lighting for plant’s growth. Schematics and PCB designs will be disclosed
in this report. |
| author2 |
Tse Man Siu |
| author_facet |
Tse Man Siu Nyein, Phyo Pyae Pyae |
| format |
Final Year Project |
| author |
Nyein, Phyo Pyae Pyae |
| author_sort |
Nyein, Phyo Pyae Pyae |
| title |
Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B |
| title_short |
Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B |
| title_full |
Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B |
| title_fullStr |
Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B |
| title_full_unstemmed |
Indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - B |
| title_sort |
indoor lighting for aeroponic vegetable plant growth and air quality control in confined underground space - b |
| publishDate |
2016 |
| url |
http://hdl.handle.net/10356/69382 |
| _version_ |
1772826507421417472 |