@article{oai:repository.naro.go.jp:00000263,
 author = {Ahn, Dong-Hyuk and 安, 東赫 and 岩崎, 泰永 and IWASAKI, Yasunaga and 東出, 忠桐 and HIGASHIDE, Tadahisa and 中野, 明正 and NAKANO, Akimasa},
 issue = {2},
 journal = {農研機構研究報告 野菜花き研究部門, Bulletin of the NARO, Vegetable and Floriculture Science},
 month = {Mar},
 note = {低温期の施設栽培においてバイオマス暖房機の導入を促進するため，木質ペレットとガス暖房機を併用したハイブリッド運転とガス暖房機のみの運転時のハウス内の気温や燃焼熱量を比較した．ハイブリッド運転では，木質ペレット暖房機からの熱供給量は安定しており，ガス暖房機からの熱供給の変動幅が小さくなった．ハイブリッド運転はガス暖房機のみの運転に比べて，室内気温の変動幅が小さく，設定温度に近い制御ができ，暖房によって供給された燃焼熱量と暖房負荷との差も小さくなった．このような，ハイブリッド制御によって，化石エネルギーの代替率は著しく向上すると同時に，省エネルギー化も期待できる．
To study the application of biomass heaters in greenhouses during the cooler season, we compared the temperature and combustion heat in a greenhouse while using a) a hybrid heating operation of combined wood pellet and gas heaters and b) only a gas heater.
With hybrid heating, the amount of heat from the wood pellet heater remained steady and the fluctuation of heat supplied by the gas heater was reduced. As a result of the hybrid operation, compared to operation of only the gas heater, the inside temperature fluctuated less, and it was possible to maintain the temperature close to the set level. The difference between the combustion heat supplied by the heating and the heating load was also small. Through use of the hybrid operation proposed in this experiment, the substitution rate of fossil energy can be decreased remarkably and energy conservation can be expected.},
 pages = {17--25},
 title = {木質ペレット暖房機とガス燃焼式温風暖房機のハイブリッド運転における低温期の熱供給特性},
 year = {2018},
 yomi = {アン, ドンヒョク and イワサキ, ヤスナガ and ヒガシデ, タダヒサ and ナカノ, アキマサ}
}