Research field (6):
Earth resource engineering, energy science
, Control and systems engineering
, Transfer phenomena and unit operations
, Thermal engineering
, Mechanics and mechatronics
, Robotics and intelligent systems
Research keywords (1):
Dynamics, Robotics, Energy saving, Air conditioning, Environmental engineering
Research theme for competitive and other funds (6):
エゼクター式吸収器によるハイブリッド吸収ヒートポンプの高効率化に関する研究
ハイブリッド空調システムの動特性の究明と高効率運転に関する研究
太陽熱駆動エジェクター式ヒートポンプの数理モデル構築と最適設計・制御に関する研究
Optimum design of latent heat recovery heat exchangers
Study on the advanced tubes of absorber for absorption refrigerator
デシカント空調システムの性能評価
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Papers (194):
Arnas Lubis, Niccolo Giannetti, Muhammad I. Alhamid, Kiyoshi Saito, Hajime Yabase. Dynamic analysis of single-double-effect absorption chiller with variable thermal conductance during partial-load operation. Applied Thermal Engineering. 2023. 218
Mark Anthony Redo, Niccolo Giannetti, Hiroaki Yoshimura, Kiyoshi Saito, Manabu Watanabe. Development and validation of a variational formulation of Two-Phase flow distribution. International Journal of Multiphase Flow. 2022. 155. 104190-104190
Niccolo Giannetti, Shun Matsui, Ryohei Mori, Jongsoo Jeong, Hifni Mukhtar Ariyadi, Yoichi Miyaoka, Eisuke Togashi, Kiyoshi Saito. Emulator-type load-based tests for dynamic performance characterization of air conditioners. Energy and Buildings. 2022. 273. 112411-112411
Mrinal Bhowmik, Siddharth Rath, Richard Jayson Varela, P. Muthukumar, R. Anandalakshmi, Kiyoshi Saito. Performance assessment of integrated liquid desiccant dehumidification with vapor-compression system for energy-efficient air conditioning applications. Applied Thermal Engineering. 2022. 119118-119118
Richard Jayson Varela, Niccolo Giannetti, Kiyoshi Saito, Xinming Wang, Hiroshi Nakayama. Experimental performance of a three-fluid desiccant contactor using a novel ionic liquid. Applied Thermal Engineering. 2022. 210. 118343-118343
Basics and Applications of Thermally Driven Cycle Technologies(No.7)Basic Cycle Configuration and Driving Theory of Absorption Cycle. 2017. 92. 1080. 704-708
Basics and Applications of Thermally Driven Cycle Technologies(No.5)Heat and Mass Transfer to Liquids. 2017. 92. 1078. 578-581
A study on partial load characteristic of heat pump system with frost on heat exchanger. 2017. C331-1-4
Simple expressions of the heat and mass transfer coefficients for horizontal-tube falling film absorbers. 2017. B141-1-6
Two-phase Flow Distribution at Wider Flow Range within the Vertical Header of Microchannel Heat Exchanger. 2017. A224-1-5
