Trends in the Development of Energy-saving Techniques for Protected Horticulture in Japan

In Japan, several protected horticultural farms depend on nonrenewable sources of energy, such as fossil fuels. However, widespread consumption of fossil fuels causes global warming, and fluctuations in fossil fuel prices may adversely affect farm management. Thus, new low-cost energy-saving techniq...

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Bibliographic Details
Published in:JARQ. Japan agricultural research quarterly 2022/07/01, Vol.56(3), pp.237-243
Main Authors: YAMANAKA, Ryosuke, KAWASHIMA, Hiroki
Format: Article
Language:English
Subjects:
local temperature heating
movable bench
multilayered thermal curtain
multivariable environmental control
ubiquitous environment control system
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Summary:In Japan, several protected horticultural farms depend on nonrenewable sources of energy, such as fossil fuels. However, widespread consumption of fossil fuels causes global warming, and fluctuations in fossil fuel prices may adversely affect farm management. Thus, new low-cost energy-saving techniques have been developed recently. For instance, a multilayered thermal curtain fabricated from nanofiber enhanced the thermal insulation of greenhouses, thereby reducing fossil fuel costs by approximately 35%-51%. Additionally, a local heating technique, which selectively heats areas surrounding the tomato shoot apexes and flower clusters using hanging warm air ducts, has been applied to reduce energy consumption in cherry tomato or tomato cultivation, reducing reduced fossil fuel costs by approximately 10% compared with the conventional method using ground-fixed warm air ducts. Furthermore, a low-cost multivariable environmental control system, “YoshiMax,” simultaneously controlled the ambient temperature and CO2 concentration in a greenhouse along with the frequency of fertigation in response to solar radiation; this improved plant growth and reduced CO2 and fertilization costs. These and other similar techniques are expected to enable sustainable agricultural management. To increase the efficiency of energy use, it is also effective to increase yield per energy input via high-density planting using a movable bench, etc.
ISSN:0021-3551
2185-8896
DOI:10.6090/jarq.56.237