Updated on 2024/04/19

写真a

 
SUGANO, Soma
 
Affiliation
Faculty of Science and Engineering, Waseda Research Institute for Science and Engineering
Job title
Junior Researcher(Assistant Professor)
Degree
Doctor of Engineering ( 2023.03 Waseda University )

Research Experience

  • 2023.04
    -
    Now

    Keio University, Shonan Fujisawa Campus   Part-time lecturer

  • 2023.04
    -
    Now

    Waseda Research Institute for Science and Engineering   Junior Researcher (Assistant Professor)

  • 2020.04
    -
    2023.03

    Japan Society for the Promotion of Science

  • 2022.05
    -
    2022.10

    Delft University of Technology   Visiting PhD

Education Background

  • 2020.04
    -
    2023.03

    早稲田大学大学院   創造理工学部研究科   建築学専攻 博士後期課程  

  • 2018.04
    -
    2020.03

    早稲田大学大学院   創造理工学部研究科   建築学専攻 修士課程  

  • 2014.04
    -
    2018.03

    Waseda University   School of Creative Science and Engineering  

Professional Memberships

  • 2022
    -
    Now

    ISIAQ (International Society of Indoor Air Quality and Climate)

  • 2021
    -
    Now

    ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning Engineers)

  • 2018
    -
    Now

    空気調和・衛生工学会

  • 2018
    -
    Now

    日本建築学会

Research Areas

  • Architectural environment and building equipment / Agricultural environmental engineering and agricultural information engineering

Research Interests

  • 建築環境学

  • 室内環境

  • 施設園芸

Awards

  • 第 44 回東北建築賞「作品賞」

    2024.03   日本建築学会東北支部   盛岡の家

    Winner: 中川純, 池原靖史, 菅野颯馬, 永井拓生

  • Top Downloaded Article, JAPAN ARCHITECTURAL REVIEW

    2023.03   WILEY  

    Winner: Soma Sugano

     View Summary

    Spectral irradiance simulation for evaluating light environments for indoor plants

  • 若手優秀発表賞

    2022.09   日本建築学会  

    Winner: 菅野颯馬

  • JIA 環境建築賞

    2021   日本建築家協会   みやこ下地島空港ターミナル

    Winner: 株式会社 日建設計, 早稲田大学

  • 修士論文 早苗賞

    2020.03   早稲田大学大学院 創造理工学研究科  

    Winner: 菅野颯馬

  • 優秀講演奨励賞

    2018.10   空気調和・衛生工学会  

    Winner: 菅野颯馬

  • エネマネハウス2017 優秀賞

    2017.12   経済産業省  

    Winner: 早稲田大学・芝浦工業大学

▼display all

 

Papers

  • Effects of a Gas-phase Air Cleaner in Removing Human Bioeffluents and Improving Perceived Air Quality

    Nami Akamatsu, Soma Sugano, Kanta Amada, Naho Tomita, Hidetaka Iwaizumi, Yuki Takeda, Pawel Wargocki, Bjarne W. Olesen, Shin-ichi Tanabe

    Building and Environment     111540 - 111540  2024.04  [Refereed]

    DOI

  • DEVELOPMENT OF DEFINITIONS AND EVALUATION METHODS OF NET ZERO ENERGY / EMISSION GREENHOUSE AND FARM

    Soma SUGANO, Yutaro OGAWA, Masahisa ISHII, Shin-ichi TANABE

    AIJ Journal of Technology and Design   30 ( 74 ) 251 - 256  2024.02  [Refereed]

    Authorship:Lead author

    DOI

  • EFFECTS OF ARTIFICIAL WINDOW IN AN ENCLOSED PERSONALIZED WORK ENVIRONMENT ON USERS’ PSYCHOLOGY AND PRODUCTIVITY

    Miku TAZAKI, Soma SUGANO, Jun KOIKE, Kaho KODAMA, Shin-ichi TANABE

    Journal of Environmental Engineering (Transactions of AIJ)   88 ( 813 ) 838 - 849  2023.11  [Refereed]

    DOI

    Scopus

  • Measuring Average Solar Radiation in a Greenhouse

      54 ( 2 ) 43 - 47  2023.06  [Refereed]

    DOI

  • Subject experiment on physiological effect and eye movement in rooms with windows and potted plants

    Soma SUGANO, Miku TAZAKI, Mayumi OHBA, Shusuke TAKAHASHI, Shin-ichi TANABE

    Journal of Environmental Engineering (Transactions of AIJ)   88 ( 807 ) 375 - 386  2023.05  [Refereed]

    Authorship:Lead author

    DOI

  • EFFECTS OF APPLYING ALCOHOL TO DIFFERENT WOODEN SURFACES ON VOC EMISSIONS AND PERCEIVED AIR QUALITY EVALUATION

    Marina INASAKA, Nami AKAMATSU, Souma SUGANO, Kousuke IKEUCHI, Shusuke TAKAHASHI, Miku TAZAKI, Hyuntae KIMU, Shin-ichi TANABE

    Journal of Environmental Engineering (Transactions of AIJ)   87 ( 802 ) 846 - 854  2022.12  [Refereed]

    DOI

    Scopus

  • Impact of Carpets on Indoor Air Quality

    Seyyed Abbas Noorian najafabadi, Soma Sugano, Philomena Bluyssen

    Applied Sciences   12 ( 24 ) 12989 - 12989  2022.12  [Refereed]

     View Summary

    Interest in having a healthy and well-being environment has increased the awareness to improve indoor air quality (IAQ). Building materials influence the contribution of indoor air pollution, so understanding their behaviour on IAQ is essential. Among building materials, carpets cover surfaces of indoor environments and significantly impact IAQ due to their large surface area and multi-layers of materials components. This review aimed to consolidate what is known about how carpet impacts indoor volatile organic compounds (VOCs) concentrations and particulate matter (PM) distributions. The results showed that carpets are not only a source of primary emission but also can ad/absorb VOCs and emit VOCs through secondary emission, sink effects, and transformation reactions. The material composition of each carpet layer, environmental parameters (e.g., humidity, temperature, air velocity), and chamber size influence a carpets’ behaviour. Previous studies on the resuspension of PM from carpets mainly focused on the effects of human activities and humidity. Further studies are needed to enhance knowledge related to carpet behaviours in the indoor environment and on how the common materials of carpets should be designed and sustained to reduce exposure to harmful pollutants indoors while maintaining its benefits.

    DOI

    Scopus

    5
    Citation
    (Scopus)

  • Characteristics of eye movements while viewing indoor plants and improvements in occupants' cognitive functions

    Sugano, S., Tazaki, M., Arai, H., Matsuo, K., Tanabe, S.-I.

    Japan Architectural Review   5 ( 4 )  2022.10  [Refereed]

    Authorship:Lead author

    DOI

    Scopus

  • PSYCHOLOGICAL AND PHYSIOLOGICAL EFFECTS OF BIOPHILIA THROUGH URBAN OFFICE BUILDING WINDOWS,都市型オフィスにおける窓面を通じたバイオフィリアによる心理・生理的効果

    Ito, H., Sugano, S., Liu, J., Miyasaka, Y., Shinohara, N., Yamada, S., Nitta, R., Ohba, M., Takahashi, S., Tazaki, M., Tanabe, S.-I.

    Journal of Environmental Engineering (Japan)   87 ( 794 ) 241 - 251  2022  [Refereed]

     View Summary

    In this study, we conducted subject experiments to determine an effective biophilic design for urban offices to improve the health and comfort of workers. This experiment showed that indoor environment satisfaction, the impression of a workspace, ease of work, and self-estimated productivity were improved when subjects could see greenery through the window with a balanced amount of sunlight through the green. Additionally, cognitive function in subjects was restored during the break period of the short-term memory test, resulting in higher test scores.

    DOI

    Scopus

    5
    Citation
    (Scopus)

  • Spectral irradiance simulation for evaluating light environments for indoor plants

    Soma Sugano, Ryo Nitta, Kan Shindo, Akihisa Nomoto, Shu Yoda, Tamaho Shigemura, Masahisa Ishii, Shin-ichi Tanabe

    JAPAN ARCHITECTURAL REVIEW   4 ( 4 ) 649 - 659  2021.09  [Refereed]

    Authorship:Lead author

    DOI

    Scopus

  • SPECTRAL IRRADIANCE SIMULATION FOR EVALUATING LIGHT ENVIRONMENTS FOR INDOOR PLANTS

    Soma SUGANO, Ryo NITTA, Kan SHINDO, Akihisa NOMOTO, Shu YODA, Tamaho SHIGEMURA, Masahisa ISHII, Shin-ichi TANABE

    Journal of Environmental Engineering (Transactions of AIJ)   86 ( 781 ) 337 - 346  2021  [Refereed]

    Authorship:Lead author

     View Summary

    Ornamental plants are frequently used in office workplaces to improve the well-being and productivity of employees. Additionally, the WELL Building Standard includes definitions for precondition and optimization features related to biophilia. Hence, there is a growing interest in biophilic design and indoor greenery. However, the growth of indoor plants may become stunted due to unfavorable lighting conditions. Therefore, a method for evaluating the light environments required for indoor plants to thrive is needed.

     The purpose of this study is to apply a spectral irradiance simulation to develop a method for evaluating the appropriate light environment for indoor plants based on plant physiology. We used field measurements to verify the accuracy of the spectral irradiance simulations, which were performed by Adaptive Lightning for Alertness (ALFA), a circadian lighting design software. After verification, we calculated the photosynthetic photon flux density (PPFD), which is strongly correlated to photosynthesis, from the measured and predicted values of spectral irradiance. Based on knowledge of the relationship between PPFD and the light saturation and light compensation points of plants, we evaluated the suitability of the light environment in the building for plant growth.

     The measurements were performed on a sunny day (October 5, 2019). The spectral irradiance was measured in the horizontal and vertical planes at desk and overhead heights (FL+800, 2000 mm) in a university classroom. In the simulation, measurement-based lighting distribution characteristics, spectral distribution, as well as the reflectance of each material were provided as input, and the spectral irradiance was calculated in a 3D model of the classroom. The accuracy of the simulation was verified by comparing the predicted and measured spectral irradiances both inside and outside the classroom.

     The results demonstrate that the ALFA sky model produced errors when predicting the spectral irradiance in wavelength ranges that simulate the Fraunhofer line of sunlight (380–400 nm) and the absorption bands of H2O and O2 molecules in the atmosphere (approximately 680, 730 and 750 nm). In the 405–710 nm wavelength range, the measured and calculated spectral irradiance were almost the same. At indoor measurement points where the influence of direct solar radiation and light luminaire were significant, the spectral irradiance was predicted with a high degree of accuracy. Errors in this study were mainly caused by errors in the spectral transmittance of the glass models, as well as input errors in the spectral reflectance of the ground surface and the surrounding buildings.

     By calculating the PPFD from the measured and simulated spectral irradiance values, it was possible to evaluate the light environment, in an indoor space based on knowledge of plant physiology such as light saturation and light compensation points of plants. This method can be applied to the planning of supplementary lighting for plants and the planning of indoor plant placement that makes effective use of daylight.

    DOI CiNii

  • Development and verification on zero energy cool tree which providing cool comfort on hot summer outdoor,暑熱屋外に涼感を提供するゼロエネルギー・クールツリーの開発

    Miyasaka, Y., Mizuide, K., Sugano, S., Tabata, Y., Furukawa, R., Nomoto, A., Takahashi, Y., Horikawa, S., Tanabe, S.-I.

    AIJ Journal of Technology and Design   26 ( 63 ) 619 - 624  2020  [Refereed]

     View Summary

    Since the 2020 Tokyo Olympic and Paralympic Games will be held during the hot summer, promotion of outdoor heat is an urgent issue as one of environmental measures. “Cool Tree” as a cool spot to create a beautiful shade of lumber with laminated wood, operating with zero energy using only solar energy, with the concept of “design like Japan”, “complete off-grid system” and “ultimate recycling ecology” was developed, and field measurements were carried out.

    DOI CiNii

    Scopus

  • Renovating a house to aim for net-zero energy, thermal comfort, energy self-consumption and behavioural adaptation: A method proposed for ENEMANE HOUSE 2017

    Oki, R., Tsuneoka, Y., Yamaguchi, S., Sugano, S., Watanabe, N., Akimoto, T., Hayashi, Y., Wakao, S., Tanabe, S.-I.

    Energy and Buildings   201  2019.10  [Refereed]

    DOI

    Scopus

    10
    Citation
    (Scopus)

  • Proposal of renovation to zero energy house (ZEH) from an existing industrialized house

    Nakagawa, J., Yamaguchi, S., Sugano, S., Maruyama, Y., Yamashina, D., Watanabe, N., Tanabe, S.-I., Hayashi, Y., Tsuneoka, Y., Oki, R., Nomoto, A., Araki, N., Ikehara, Y., Kobayashi, T., Akimoto, T., Wakao, S.

    AIJ Journal of Technology and Design   25 ( 59 ) 239 - 242  2019  [Refereed]

     View Summary

    Saving energy in the residential is required under the influence of global warming and electricity shortage caused by natural disaster in Japan. For the purpose of promoting zero energy house, “ENEMANE HOUSE 2017”, a competition of Zero-Energy House was held. This paper shows the overview of the building and equipment planning, and also the evaluation of thermal environment and energy in the zero energy house which the consortium of Waseda University and Shibaura Institute of Technology proposed in the competition. This zero energy house demonstrates a method of renovation of housing using low-insulated outer wall of an existing industrialized house. The aim of the facility planning was not only the compatibility of energy-saving and comfort but also the increase in self-consumption of surplus power.

    DOI CiNii

    Scopus

    1
    Citation
    (Scopus)

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Works

  • 界築の家

    中川純, 池原靖史, 菅野颯馬, 永井拓生  Architectural work 

    2023.11
    -
     

Presentations

  • Concepts of net Zero Energy Building and House in Japan

    Soma Sugano  [Invited]

    Indonesia’s Ministry of Public Works and Public Housing Webinar “Green Housing and Sustainable Settlements” 

    Presentation date: 2023.11

  • Impact of carpets on perceived indoor air quality

    Seyyed Abbas Noorian Najafabadi, Soma Sugano, Philomena M. Bluyssen

    The 11th International Conference on Indoor Air Quality, Ventilation & Energy Conservation in Buildings (IAQVEC2023) 

    Presentation date: 2023.06

  • Effects of Applying Alcohol to Wood on Acetaldehyde emission

    Kosuke Ikeuchi, Nami Akamatsu, Marina Inasaka, Soma Sugano, Hyuntae Kim, Shin-ichi Tanabe

    Indoor Air 2022, Kuopio, Finland 

    Presentation date: 2022.06

  • Thermal Measurement in Insulation-Retrofitted, Downsized House in Cold Region of Japan

    Haruka Arai, Kanako Fujii, Soma Sugano, Yuta Fukawa, Jun Nakagawa, Shin-ichi Tanabe

    Indoor Air 2022, Kuopio, Finland 

    Presentation date: 2022.06

  • Adaptive Thermal Comfort Survey in Japanese Apartment

    Kazuya Matsuo, Soma Sugano, Jungmin Kim, Miki Takaki, Shusuke Takahashi, Toru Shiba, Shin-ichi Tanabe

    Indoor Air 2022, Kuopio, Finland 

    Presentation date: 2022.06

  • Gender Differences in Psychological Responses and Eye Movements for Biophilic Rooms

    Miku Tazaki, Soma Sugano, Ryo Nitta, Mayumi Ohba, Shusuke Takahashi, Shin-ichi Tanabe

    Indoor Air 2022, Kuopio, Finland 

    Presentation date: 2022.06

  • Effects of Indoor Plants on Occupants’ Cognitive Functions: A Systematic Review

    Soma Sugano, Miku Tazaki, Haruka Arai, Kazuya Matsuo, Shin-ichi Tanabe

    Indoor Air 2022, Kuopio, Finland 

    Presentation date: 2022.06

  • The impact of multisensory biophilic design on environmental satisfaction and well-being of occupants in open-air airport lounge

    Ryo Nitta, Soma Sugano, Kan Shindo, Takuya Asagawa, Naoyuki Harada, Osamu Nagase, Shin-ichi Tanabe

    Healthy Buildings 2022, Online 

    Presentation date: 2022.01

  • Evaluation of Plant Photosynthesis and Photomorphogenesis in 3D Greenhouse Model Using Spectral Irradiance Simulation

    Soma Sugano, Kan Shindo, Ryo Nitta, Masahisa Ishii, Shin-ichi Tanabe

    Indoor Air 2020, Online 

    Presentation date: 2020.11

  • Proposal and Evaluation of an Equipment Operating Method Using Solar Radiation Prediction in a Zero Energy House

    Reina Oki, Yugo Tsuneoka, Shingo Yamaguchi, Soma Sugano, Jun Nakagawa, Naoya Watanabe, Tatsuhiro Kobayashi, Shin-ichi Tanabe, Takashi Akimoto, Yasuhiro Hayashi, Shinji Wakao

    CLIMA 2019 

    Presentation date: 2019.05

  • A Renovation Proposal for Zero-Energy Houses: Outline of Building Planning and Evaluation of Thermal Environment

    Soma Sugano, Shingo Yamaguchi, Yugo Tsuneoka, ReinaOki, Jun Nakagawa, Naoya Watanabe, Tatsuhiro. Kobayashi, Shin-ichi. Tanabe, Takashi Akimoto

    CLIMA 2019 

    Presentation date: 2019.05

▼display all

Research Projects

  • 施設園芸のゼロ・エネルギー化に向けた建築と設備の設計要件に関する研究

    日本学術振興会  科学研究費助成事業

    Project Year :

    2023.08
    -
    2025.03
     

    菅野 颯馬

  • 建築の形態を考慮した居住者の環境適応の評価に関する研究

    日本学術振興会  科学研究費助成事業 特別研究員奨励費

    Project Year :

    2020.04
    -
    2023.03
     

    菅野 颯馬

     View Summary

    2021年度は主に以下の研究課題に取り組んだ。
    1) 大阪市の集合住宅における室内環境と居住者の適応行動の調査: 住宅における温熱環境と居住者の環境適応行動の実態把握を目的とし、大阪市の集合住宅で実測調査を継続した。本年度は居住者に活動量計の装着を依頼し、環境と温冷感、適応行動、活動量が紐づいたデータの収集を行った。居住者の個人属性や建築の断熱性能、居住者の行動を考慮した住宅の熱的快適域の考察を進めた。
    2) 窓や屋内植物が在室者の心理に与える影響に関する被験者実験: 2020年度に実施した研究の成果を英文の論文としてまとめた。本実験では窓の存在や屋内緑化が人間の心理や生理に与える影響を被験者実験により検証した。外部の自然を建築内に導入することが困難な都市部の建築を想定し、窓の設置や屋内緑化を計画した際の効果に関する知見を得ることを目的とした。在室者の空間の認知プロセスを視線計測により定量化し、心理申告との相関を分析した。
    3) 建築環境を模擬したグロースチャンバーでの観葉植物の生育実験: 建築環境を想定し、照明時間と光強度を変更したチャンバーで3種類の観葉植物を生育させ、成長量や光合成能力の差を分析した。植物と人間が共存する建築環境の計画法に関する知見を得ることを目的とした。実験は2021年6月に完了しており成果を取りまとめている。
    4) 視線計測を用いた観葉植物による認知機能改善効果の研究:植物などを設置した座席で、創造性とワーキングメモリを要求する2種類のタスクを行わせた際の被験者の眼球運動を計測し、植物による認知機能の改善効果との関係を考察する。実験は2021年12月に完了しており成果をとりまとめている。

  • 波長別光環境を考慮した建築内植物の生育評価手法に関する研究

    早稲田大学理工学術院総合研究所  若手研究者支援事業「アーリーバード」

    Project Year :

    2020.05
    -
    2021.03
     

Misc

  • バイオフィリックデザインの現在と未来

    菅野颯馬, 田辺新一

    BELCA news   35 ( 184 ) 20 - 24  2023.07  [Invited]

    Authorship:Lead author

    Article, review, commentary, editorial, etc. (trade magazine, newspaper, online media)  

  • Impact of carpets on perceived indoor air quality

    Seyyed Abbas Noorian Najafabadi, Soma Sugano, Philomena M. Bluyssen

    E3S Web of Conferences   396   01094 - 01094  2023.06  [Refereed]

     View Summary

    Indoor air quality (IAQ) plays an important role in human health and well-being as people spend most of their time indoors. Among building materials, carpets covering high surface areas and having dense fibres have the potential to impact perceived IAQ. To explore the impact of carpets on perceived IAQ, it was studied whether low-emitting wool carpets can ‘clean’ the air. To assess the sorption effect of emissions of hardboard (as a permanent source) on carpet, untrained subjects were asked to assess a combination of low-odour emitting carpet and hardboard in one sample container and only hardboard in another sample container of test chamber. The results showed a slight (although not statistically relevant) difference in favour of the combination, indicating a slight adsorption effect.

    DOI

  • Insulation-Retrofitted, Downsized House in Preparation for Aging Society: Part 2: Reduction Type Classification and Indoor Environment and Utility Costs of Insulation-Retrofitted, Downsized Method

    平間香菜理, 新井遥, 深和佑太, 菅野颯馬, 飯原康介, 田崎未空, 中川純, 田辺新一

    日本建築学会大会学術講演梗概集・建築デザイン発表梗概集(CD-ROM)   2022  2022

    J-GLOBAL

  • Insulation-Retrofitted, Downsized House in Preparation for Aging Society: Part 1: Evaluation of Thermal Comfort in Midterm and Winter by Field Surveys

    新井遥, 平間香菜理, 深和佑太, 菅野颯馬, 飯原康介, 田崎未空, 中川純, 田辺新一

    日本建築学会大会学術講演梗概集・建築デザイン発表梗概集(CD-ROM)   2022  2022

    J-GLOBAL

  • Environmental Performance Verification at Open-air ZEB Airport Terminal Part 5:People flow survey and visualization using LiDAR

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.10   385 - 388  2021

    DOI

  • Environmental Performance Verification at Open-air ZEB Airport Terminal Part 4: Survey on Environmental Satisfaction and Biophilia

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.10   381 - 384  2021

    DOI

  • オープンエアZEB空港における環境性能検証 (第3報)温熱環境調査結果および Thermal Delight に関する考察

    新藤 幹, 新田 竜, 内田 橘花, 關 信怡, 田辺 新一, 稲坂 まりな, 菅野 颯馬, 落合 涼, 大庭 檀, 浅川 卓也, 永瀬 修, 原田 尚侑, 土田 えりか

    空気調和・衛生工学会大会 学術講演論文集   2021.10   377 - 380  2021

     View Summary

    本研究の目的は沖縄県宮古島に位置するオープンエア空港における利用者の熱的快適性の実態把握である。本報では、窓を開放することで周囲の豊かな自然環境を積極的に室内に取り込んでいる国内線出発ラウンジ棟を対象に行った実測調査の概要と利用者の熱的快適性および温熱環境について述べる。実測調査結果から自然換気と空調を併用した出発ラウンジ棟は一般的な空調空間より広範囲に快適であることが実測結果から示された。

    DOI

  • Study on Psychological and Physiological Effects of Urban Biophilia Buildings Part 4: Results of Subject Experiment in Sunny Weather

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.10   121 - 124  2021

    DOI

  • Study on Psychological and Physiological Effects on Urban Biophilia Buildings Part 3: Summary and Indoor Environment of Subject Experiment in Sunny Weather

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.10   117 - 120  2021

    DOI

  • Predictive Model of Adaptive Thermal Comfort in Japanese Dwellings Considering Insulation Level and Residents' Attribute

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.6   181 - 184  2021

    DOI

  • Subject Experiment on Psycho-physiological Responses to Indoor Spaces Considering Effects of Windows and Plants Part.1 Outline of the Experiment and Results of Physiological Responses

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.10   125 - 128  2021

    DOI

  • Subject Experiment on Psycho-physiological Responses to Indoor Spaces Considering Effects of Windows and Plants Part.2 Results of Psychological Responses, Productivity, Eye-tracking

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2021.10   129 - 132  2021

    DOI

  • 41226 バイオフィリックデザインのための波長別光環境解析に関する研究 第1 報:実測およびシミュレーション概要

    菅野 颯馬, 新田 竜, 新藤 幹, 野元 彬久, 依田 柊, 重村 珠穂, 石井 雅久, 田辺 新一

    環境工学I   ( 2020 ) 2579 - 2580  2020.09

    CiNii

  • 41227 バイオフィリックデザインのための波長別光環境解析に関する研究 第2報:精度検証結果と光合成有効光量子束密度の算出

    新田 竜, 菅野 颯馬, 新藤 幹, 野元 彬久, 依田 柊, 重村 珠穂, 石井 雅久, 田辺 新一

    環境工学I   ( 2020 ) 2581 - 2582  2020.09

    CiNii

  • 14125 ストック型社会を見据えた住宅設計の実践 (その3)盛岡の改修

    菅野 颯馬, 深和 佑太, 池原 靖史, 中川 純, 永井 拓生

    建築デザイン   ( 2020 ) 250 - 251  2020.09

    CiNii

  • Research of Wellness ZEH Aiming at Balancing between Comfort, Health and Energy Saving in Multiplex Housing Part 6 Creation of Resident Window Opening Behavior Model Based on Annual Measurement

    Mimura Takumi

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2020.10   273 - 276  2020

    DOI CiNii

  • Application of Spectral Irradiance Simulation to Biophilic Design Part.1 Calculation Method of Plant Growth Evaluation Metrics and Case Study Using Office Model

    Sugano Soma

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2020.10   465 - 468  2020

    DOI CiNii

  • Application of Spectral Irradiance Simulation to Biophilic Design Part.2 Validation of Simulation and Evaluation of Light Environments based on Plant Growth Evaluation Metrics

    Nitta Ryo

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2020.10   469 - 472  2020

    DOI CiNii

  • Proposal and Evaluation of an Equipment Operating Method Using Solar Radiation Prediction in a Zero Energy House

    Reina Oki, Yugo Tsuneoka, Shingo Yamaguchi, Soma Sugano, Jun Nakagawa, Naoya Watanabe, Tatsuhiro Kobayashi, Shin-ichi Tanabe, Takashi Akimoto, Yasuhiro Hayashi, Shinji Wakao

    E3S Web of Conferences   111   05003 - 05003  2019.08  [Refereed]

     View Summary

    Because of the increasing promotion of renewable energy such as photovoltaic (PV) panels in Japanese houses, the voltage increase and frequency adjustment of a city electrical distribution network sys-tem will be of concern. Therefore, self-consuming surplus electricity and leveling the reverse power flow is important in terms of reducing the smart grid network load and reducing the peak load of the smart grid network. The aim of this study was to acquire knowledge regarding methods of self-consuming surplus power as well as leveling the reverse power flow. An equipment operation method, termed “schedule control,” was proposed that changes the operational time of a heat pump water heater and the charging time of a storage battery according to solar radiation prediction. Because PV power fluctuates depending on weather and time zone, this method helps in self-consuming as much PV power generation as possible. By actual measurement and simulation results, it was confirmed that the schedule control of the heat pump water heater and storage battery was useful in self-consuming surplus power and leveling reverse power flow.

    DOI

  • A renovation proposal for zero-energy houses: Outline of building planning and evaluation of thermal environment

    Soma Sugano, Shingo Yamaguchi, Yugo Tsuneoka, Reina Oki, Jun Nakagawa, Naoya Watanabe, Tatsuhiro Kobayashi, Shin Ichi Tanabe, Takashi Akimoto

    E3S Web of Conferences   111  2019.08  [Refereed]

     View Summary

    © The Authors, published by EDP Sciences. This is an open access article distributed under the terms of the Creative Commons Attribution License 4.0 Considering the effects of electricity shortages caused by natural disasters in Japan, residential energy efficiency is essential. In addition, excessive housing stocks in Japan have highlighted the importance of expertise in renovation methods for zero-energy houses (ZEHs). Therefore, we designed and built a ZEH as a refurbishment of steel-structure industrialized housing to acquire knowledge on ZEH design and renovation. The renovation uses a highly insulated volume against a low insulation volume, which is assumed to be an existing house. The space between the low-insulation wall facing the outside and the high-insulation wall surrounding the main living space functions as a sunroom and called a loggia. By opening and closing the inside and outside windows according to the season and time of day, the loggia functions as a passive system to reduce the air-conditioning load. In this paper, the outline of the building plan of the experimental house and the evaluation of the thermal environment are presented.

    DOI

  • 41267 暑熱屋外に涼感を提供するゼロエネルギー・クールツリーの開発と検証 その5 クールツリーの実機によるエネルギー検証

    水出 喜太郎, 菅野 颯馬, 宮坂 裕美子, 山本 純子, 古川 亮哉, 野元 彬久, 高橋 好斗, 田辺 新一

    環境工学II   ( 2019 ) 551 - 552  2019.07

    CiNii

  • 41269 暑熱屋外に涼感を提供するゼロエネルギー・クールツリーの開発と検証 その7:夏季実測の心理量申告結果とアンケート結果

    菅野 颯馬, 宮坂 裕美子, 水出 喜太郎, 山本 純子, 古川 亮哉, 野元 彬久, 高橋 好斗, 田辺 新一

    環境工学II   ( 2019 ) 555 - 556  2019.07

    CiNii

  • 41268 暑熱屋外に涼感を提供するゼロエネルギー・クールツリーの開発と検証 その6:夏季実測概要と快適性評価

    宮坂 裕美子, 菅野 颯馬, 水出 喜太郎, 山本 純子, 古川 亮哉, 野元 彬久, 高橋 好斗, 田辺 新一

    環境工学II   ( 2019 ) 553 - 554  2019.07

    CiNii

  • 41304 デマンドレスポンス適用を目指した予冷運用に関する研究 その3 居住者行動の違いによる快適性評価

    金 ジョンミン, 常岡 優吾, 大木 玲奈, 菅野 颯馬, 田辺 新一, 林 泰弘, 森戸 直美, 秋元 瑞穂

    環境工学II   ( 2019 ) 625 - 626  2019.07

    CiNii

  • 41302 デマンドレスポンス適用を目指した予冷運用に関する研究 その1 温熱環境及び電力需要の評価

    森戸 直美, 金 ジョンミン, 常岡 優吾, 大木 玲奈, 菅野 颯馬, 秋元 瑞穂, 田辺 新一, 林 泰弘

    環境工学II   ( 2019 ) 621 - 622  2019.07

    CiNii

  • 41303 デマンドレスポンス適用を目指した予冷運用に関する研究 その2 居住者行動が快適性へ及ぼす影響についての被験者実験

    大木 玲奈, 金 ジョンミン, 常岡 優吾, 菅野 颯馬, 秋元 瑞穂, 田辺 新一, 林 泰弘, 森戸 直美

    環境工学II   ( 2019 ) 623 - 624  2019.07

    CiNii

  • 41297 ヒートマップを用いた高断熱住宅における生活と温熱環境の分析

    三村 拓海, 菅野 颯馬, 山口 真吾, 志波 徹, 田辺 新一

    環境工学II   ( 2019 ) 611 - 612  2019.07

    CiNii

  • Development and Verification on ZERO ENERGY COOL TREE Which Providing Comfort on Hot Summer Outdoor Part.4 Energy Verification of COOL TREE and Outline of Summer Measurement

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2019.6   185 - 188  2019

    DOI CiNii

  • Development and Verification on ZERO ENERGY COOL TREE Which Providing Comfort on Hot Summer Outdoor Part.5 Psychological Quantity Result and Questionnaire Result of Summer Measurementnt

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2019.6   189 - 192  2019

    DOI CiNii

  • Pre-cooling Operation and Occupant Behavior Aiming for Demand Response Adaptation Part.1 Evaluation of Thermal Environment and Power Consumption

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2019.6   301 - 304  2019

    DOI CiNii

  • Pre-cooling Operation and Occupant Behavior Aiming for Demand Response Adaptation Part.2 Thermal Comfort and Health Evaluation by Different Occupant Behavior

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2019.6   305 - 308  2019

    DOI CiNii

  • Research of Wellness ZEH Aiming at Balancing between Comfort, Health and Energy Saving in Multiplex Housing Part 1 Analysis of Behavior and Thermal Environment Using Heat Map

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2019.10   225 - 228  2019

    DOI CiNii

  • Research of Wellness ZEH Aiming at Balancing between Comfort, Health and Energy Saving in Multiplex Housing Part 2 Window Opening Behavior Model of Residents to Thermal Environment in Multiplex Housing

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2019.10   229 - 232  2019

    DOI CiNii

  • 14039 既存工業化住宅を用いた改修型ゼロ・エネルギーハウスの提案 (その2)提案住宅の特徴と部位の構成材

    野元 彬久, 荒木 菜那, 中川 純, 大木 玲奈, 菅野 颯馬, 田辺 新一, 青島 啓太, 志手 一哉, 秋元 孝之, 池原 靖史, 小林 達宏, 渡辺 直哉

    建築デザイン   ( 2018 ) 78 - 79  2018.07

    CiNii

  • 41152 既存工業化住宅を用いた改修型ゼロ・エネルギーハウスの提案と実証評価 その5:IoTを用いたエネルギー削減手法の提案

    中川 純, 常岡 優吾, 山口 真吾, 大木 玲奈, 菅野 颯馬, 丸山 由香, 望月 洋佑, 山品 太輝, 渡辺 直哉, 小林 達宏, 田辺 新一, 秋元 孝之

    環境工学II   ( 2018 ) 319 - 320  2018.07

    CiNii

  • 41148 既存工業化住宅を用いた改修型ゼロ・エネルギーハウスの提案と実証評価 その1:建築計画の概要

    山口 真吾, 菅野 颯馬, 常岡 優吾, 大木 玲奈, 中川 純, 丸山 由香, 徐 天舒, 山品 太輝, 渡辺 直哉, 小林 達宏, 田辺 新一, 秋元 孝之

    環境工学II   ( 2018 ) 311 - 312  2018.07

    CiNii

  • 41151 既存工業化住宅を用いた改修型ゼロ・エネルギーハウス の提案と実証評価 その 4:エネルギー運用に関する冬季実測結果

    大木 玲奈, 常岡 優吾, 山口 真吾, 菅野 颯馬, 中川 純, 廣川 由樹, 渡辺 直哉, 小林 達宏, 田辺 新一, 秋元 孝之, 林 泰弘, 若尾 真治

    環境工学II   ( 2018 ) 317 - 318  2018.07

    CiNii

  • 41150 既存工業化住宅を用いた改修型ゼロ・エネルギーハウスの提案と実証評価 その3 自立的なエネルギー運用を目指した設備・制御計画

    常岡 優吾, 大木 玲奈, 山口 真吾, 菅野 颯馬, 中川 純, 廣川 由樹, 渡辺 直哉, 小林 達宏, 田辺 新一, 秋元 孝之, 林 泰弘, 若尾 真治

    環境工学II   ( 2018 ) 315 - 316  2018.07

    CiNii

  • 41149 既存工業化住宅を用いた改修型ゼロ・エネルギーハウスの提案と実証評価 その2:温熱環境に関する運用計画と冬季実測結果

    菅野 颯馬, 山口 真吾, 常岡 優吾, 大木 玲奈, 中川 純, 丸山 由香, 徐 天舒, 山品 太輝, 渡辺 直哉, 小林 達宏, 田辺 新一, 秋元 孝之

    環境工学II   ( 2018 ) 313 - 314  2018.07

    CiNii

  • Proposal and Empirical Evaluation of Renovation to Zero Energy House (ZEH) Aiming for Self-Consumption of Surplus Power

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2018 ( 0 ) 189 - 192  2018

    DOI CiNii

  • Proposal and Empirical Evaluation of Renovation to Zero Energy House(ZEH) Aiming for Self-Consumption of Surplus Power

    Techinical Papers of Annual Meeting the Society of Heating,Air-conditioning and Sanitary Engineers of Japan   2018.10   185 - 188  2018

    DOI CiNii

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Syllabus

Teaching Experience

  • Architectural environment management

    Keio University Shonan Fujisawa Campus  

    2023.04
    -
    Now
     

  • Experiments in Building Environment

    Waseda University, School of Creative Science and Engineering  

    2023.04
    -
    Now
     

 

Academic Activities

  • Reviewer(Building and Environment)

    Peer review

    2023.09
    -
    Now

Sub-affiliation

  • Faculty of Science and Engineering   School of Creative Science and Engineering