1.         リジャルH.B.：2-3-1ネパールの伝統的住宅の温熱環境と熱的快適性，pp. 274-282，In: 三宅理一監修，「境界線から考える都市と建築」制作実行委員会編：境界線から考える都市と建築，鹿島出版会，ISBN 978-4-306-04652-8，2017.8.15.

2.         リジャルH.B.：ネパールの伝統的住宅における温熱環境の分析と評価に関する研究，京都大学博士論文，2004.3.

3.         リジャルH.B.，吉田治典，梅宮典子：ネパール各地の伝統的住宅と居住者の快適温度，ハウスクリマ研究ノート，第28号，pp. 11-20，2002.6，In: 磯田憲生，久保博子，松原斎樹 編：CDブックハウスクリマ　住居気候を考える　1976～2002，海青社，2002.11.

4.         リジャルH.B.：ネパールの伝統的住宅における温熱環境の調査と評価，京都大学修士論文，2000.3.

5.         リジャルH.B.：記憶の中の集落，pp.56-61，In：調査　芝浦工業大学・畑研究室，リジャルH.B.，写真　栗原宏光：ネパールヒンドゥー教が山中に描く集落世界，住宅建築，pp. 30-73，建築資料研究社，1997.3.

6.         芝浦工業大学・畑研究室，リジャルH.B.，栗原宏光：ネパールヒンドゥー教が山中に描く集落世界，住宅建築，pp. 30-73，建築資料研究社，1997.3.

1.         Nicol F., Rijal H.B. & Susan R. (Eds.), Routledge handbook of resilient thermal comfort, Routledge, ISBN 9781032155975, April, 2022 (In press) (https://www.routledge.com/Routledge-Handbook-of-Resilient-Thermal-Comfort/Nicol-Rijal-Roaf/p/book/9781032155975).

2.         Rijal H.B., Humphreys M.A. & Nicol J.F. (2022), Chapter 17 Adaptive approaches to enhancing resilient thermal comfort in Japanese offices, In: Nicol F., Rijal H.B. and Roaf S., eds. The Routledge Handbook of Resilient Thermal Comfort, Edited by, London: Routledge, ISBN 9781032155975, pp. 279-299.

3.         Shahzad S. & Rijal H.B. (2022), Chapter 20 Mixed mode is better than air conditioned offices for resilient comfort: Adaptive behaviour and visual thermal landscaping, In: Nicol F., Rijal H.B. and Roaf S., eds. The Routledge Handbook of Resilient Thermal Comfort, Edited by, London: Routledge, ISBN 9781032155975, pp. 329-346.

4.         Kubota T., Rijal H.B. & Takaguchi H. (Eds.), Sustainable houses and living in the hot-humid climates of Asia, Springer, July, 2018, (https://doi.org/10.1007/978-981-10-8465-2, ISBN:  978-981-10-8464-5, ISBN: 978-981-10-8465-2 (eBook)).

5.         Rijal H.B. (2018), Chapter 6 Nepal: Traditional houses, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 59-66.

6.         Rijal H.B. (2018), Chapter 17 Comfort temperature and adaptive model in traditional houses of Nepal, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 176-184.

7.         Rijal H.B. (2018), Chapter 18 Comfort temperature and adaptive model in Japanese dwellings, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 185-193.

8.         Rijal H.B. (2018), Chapter 26 Occupant behaviour in the various climates of Nepal, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 263-270. https://doi.org/10.1007/978-981-10-8465-2_26

9.         Rijal H.B. (2018), Chapter 27 Window opening behaviour in Japanese dwellings, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 271-282.

10.     Rijal H.B. (2018), Chapter 33 Firewood consumption in Nepal, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 335-344. https://doi.org/10.1007/978-981-10-8465-2_33

11.     Rijal H.B. (2018), Chapter 38 Passive cooling of the traditional houses of Nepal, In: Kubota T., Rijal H.B., Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 397-406, June. https://doi.org/10.1007/978-981-10-8465-2_38

12.     Indraganti M., Ooka R., Rijal H.B. (2018), Box A: Thermal comfort in Japanese and Indian offices, Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 201-205.

13.     Indraganti M., Ooka R., Rijal H.B. (2018), Box A: Occupant adaptation in Japanese and Indian offices, Takaguchi H., eds. Sustainable houses and living in the hot-humid climates of Asia, Springer Nature Singapore Pte Ltd., pp. 293-297.

14.     Rijal H.B. (2012), Chapter 3: Thermal adaptation outdoors and the effect of wind on thermal comfort, pp. 33-58, In: Kato S., Hiyama K., Ventilating Cities: Air-flow Criteria for Healthy and Comfortable Urban Living, Springer, January, ISBN: 978-94-007-2770-0. https://doi.org/10.1007/978-94-007-2771-7_3

1.         堀江真太郎，中谷岳史，高木直樹，リジャルH.B.：住宅における熱的快適性と寒冷ストレスに関する研究；冬期の長野県長野市を対象として、日本建築学会環境系論文集，87(793)，pp. 211-221，2022.3. https://doi.org/10.3130/aije.87.211

2.         新井渓，今川光，繪本詩織，橋本哲，リジャルH.B.，宿谷昌則：湿度条件の違いが想像温度に及ぼす影響に関する研究，空気調和・衛生工学会論文集，46(288)，pp. 13-20，2021.3.

3.         今川光，リジャルH.B.，宿谷昌則：関東の住宅における窓開閉・冷暖房使用の相対的行動モデルの提案，日本建築学会環境系論文集，第84巻，第763号，pp. 855-864，2019.9. https://doi.org/10.3130/aije.84.855

4.         阿部寛人，リジャルH.B.，坊垣和明，宿谷昌則，三神彩子：省エネルギーに関連した居住者の意識・行動・情報欲求のモデル化に関する研究，日本建築学会環境系論文集，第84巻，第755号，pp. 93-101，2019.1. https://doi.org/10.3130/aije.84.93

5.         今川光，リジャルH.B.，宿谷昌則：寝室の快適温度と環境調整行動に関するフィールド調査，日本建築学会環境系論文集，第81巻，第728号，pp. 875-883，2016.10. https://doi.org/10.3130/aije.81.875

6.         勝野二郎，リジャルH.B.，宿谷昌則：夏季のリビングにおける居住者の快適温度と熱的適応に関する研究，日本建築学会環境系論文集，第80巻，第707号，pp. 13-20，2015.1. http://doi.org/10.3130/aije.80.13

7.         真嶋一博，梅宮典子，吉田治典，リジャルH.B.：都市内街区における路地の熱的快適性評価 －京都西陣地区における調査，日本建築学会環境系論文集，第70巻，第622号，pp. 41-48，2007.12. https://doi.org/10.3130/aije.72.41_3

8.         リジャル H.B.，吉田治典：ネパール山岳地帯の伝統的住宅における冬の温熱環境改善：シミュレーションによる検討，日本建築学会環境系論文集，第70 巻，第594号，pp. 15-22，2005.8. https://doi.org/10.3130/aije.70.15_6

9.         リジャルH.B.，吉田治典，梅宮典子：住宅におけるネパール人の夏と冬の温熱感覚，日本建築学会計画系論文集，第68巻，第565号，pp. 17-24，2003.3 (奨励賞対象). https://doi.org/10.3130/aija.68.17_3

10.     リジャル H.B.，吉田治典，梅宮典子：ネパール各地の伝統的住宅における夏季の温熱環境，日本建築学会計画系論文集，第67巻，第557号，pp. 41-48，2002.7. https://doi.org/10.3130/aija.67.41_2

11.     リジャル H.B.，吉田治典，梅宮典子：ネパール山岳地帯の伝統的住宅における冬季の温熱環境調査，日本建築学会計画系論文集，第66巻，第546号，pp. 37-44，2001.8. https://doi.org/10.3130/aija.66.37_5

1.         Thapa S., Rijal H.B., Pasut W., Singh R., Indraganti M., Bansal A.K. and Panda G.K. (2023), Simulation of thermal comfort and energy demand in buildings of sub-Himalayan eastern India - Impact of climate change at mid (2050) and distant (2080) future, Journal of Building Engineering 68,106068, https://doi.org/10.1016/j.jobe.2023.106068.

2.         Lamsal P., Bajracharya S.B., Rijal H.B. (2023), A review on adaptive thermal comfort of office building for energy-saving building design, Energies 16, 1524. https://doi.org/10.3390/en16031524

3.         Shrestha M., Rijal H.B. (2023), Investigation on summer thermal comfort and passive thermal improvements in naturally ventilated Nepalese school buildings, Energies, 16, 1251. https://doi.org/10.3390/en16031251

4.         Izzati N., Zaki S.A., Rijal H.B., Rey J.A.A., Hagishima A., Atikha N (2023), Investigation of Thermal Adaptation and Development of an Adaptive Model under Various Cooling Temperature Settings for Students’ Activity Rooms in a University Building in Malaysia, Buildings, 13, 36. https://doi.org/10.3390/buildings13010036

5.         Aqilah N., Rijal H.B., Zaki S.A. (2022), A review of thermal comfort in residential buildings: Comfort threads and energy saving potential, Energies, 15(23), 9012. https://doi.org/10.3390/en15239012

6.         Khadka S., Rijal H.B., Amano K., Saito T., Imagawa H., Uno T., Genjo K., Takata H., Tsuzuki K., Nakaya T., Nishina D., Hasegawa K., Mori T. (2022), Study on winter comfort temperature in mixed mode and HVAC office buildings in Japan, Energies, 15, 7331. https://doi.org/10.3390/en15197331

7.         Norouziasas A., Pilehchi Ha P., Ahmadi M. & Rijal H.B. (2022), Evaluation of urban form influence on pedestrians' wind comfort, Building and Environment, 224 (Oct.), 109522. https://doi.org/10.1016/j.buildenv.2022.109522

8.         Taib N.S.M., Zaki S.A., Rijal H.B., Razak A.A., Hagishima A., Khalid W. and Ali M.S.M (2022), Associating thermal comfort and preference in Malaysian universities’ air-conditioned office rooms under various set-point temperatures, Journal of Building Engineering 54 (Aug.), 104575. https://doi.org/10.1016/j.jobe.2022.104575

9.         Khadka S., Shrestha M. & Rijal H.B. (2022), Investigation of the thermal comfort and productivity in Japanese mixed mode office buildings, The Journal of Engineering Research, 19 (1), 63-72. https://doi.org/10.53540/tjer.vol19iss1pp63-72

10.     Yoshida K., Rijal H.B., Bogaki K., Mikami A., Abe H (2021), Field study on energy-saving behaviour and patterns of air-conditioning use in a condominium, Energies, 14(24):8572. https://doi.org/10.3390/en14248572

11.     Sena B., Zaki SA, Rijal H.B., Ardila-Rey J.A., Yusoff N.M., Yakub F., Liana F., Hassan M.Z. (2021), Development of an electrical energy consumption model for Malaysian households based on techno-socioeconomic determinant factors, Sustainability, 13(23):13258. https://doi.org/10.3390/su132313258

12.     Shrestha B., Tiwar S.R, Bajracharya S.B., Keitsch M.M. & Rijal H.B. (2021), Review on the importance of gender perspective in household energy-saving behavior and energy transition for sustainability, Energies 14 (22), 7571. https://doi.org/10.3390/en14227571

13.     Shrestha M., Rijal H.B., Kayo G., Shukuya M. (2022), An investigation on CO2 concentration based on field survey and simulation in naturally ventilated Nepalese school buildings during summer, Building and Environment 207, Part A, January, 108405. https://doi.org/10.1016/j.buildenv.2021.108405

14.     Yoshida K., Rijal H.B., Bohgaki K., Mikami A., Abe H. (2021), Energy-saving and CO2-emissions-reduction potential of a fuel cell cogeneration system for condominiums based on a field survey, Energies 14(20):6611. https://doi.org/10.3390/en14206611

15.     Zaki S.A., Rosli M.F., Rijal H.B., Sadzli F.N.H., Hagishima A., Yakub F. (2021), Effectiveness of a cool bed linen for thermal comfort and sleep quality in air-conditioned bedroom under hot-humid climate, Sustainability, 13, 9099. https://doi.org/10.3390/su13169099

16.     Lamsal P., Bajracharya S.B., Rijal H.B. (2021), Guidelines for climate responsive building design in three regions of Nepal, Journal of Building and Environmental Engineering, 2(1), 63-74. https://journal.scientiaca.org/index.php/jbee/article/view/193/83

17.     Aqilah N., Zaki S.A., Hagishima A., Rijal H.B., Yakub F. (2021), Analysis on electricity use and indoor thermal environment for typical air-conditioning residential buildings in Malaysia, Urban Climate, 37, 100830, https://doi.org/10.1016/j.uclim.2021.100830

18.     Pokharel T.R., Rijal H.B. (2021): Energy transition toward cleaner energy resources in Nepal, Sustainability, 13, 4243. https://doi.org/10.3390/su13084243

19.     Rijal H.B., Yoshida K., Humphreys M.A. & Nicol J.F. (2021), Development of an adaptive thermal comfort model for energy-saving building design in Japan, Architectural Science Review, 64:1-2, 109-122, https://doi.org/10.1080/00038628.2020.1747045

20.     Sena B., Zaki S.A., Rijal H.B., Ardila-Rey J.A., Yusoff NM, Yakub F., Ridwan M.K., Muhammad-Sukki F. (2021), Determinant factors of electricity consumption for a Malaysian household based on a field survey, Sustainability, 13, 818. https://doi.org/10.3390/su13020818

21.     Shahi D.K., Rijal H.B., Kayo G., Shukuya M. (2021), Study on wintry comfort temperature and thermal improvement of houses in cold, temperate, and subtropical regions of Nepal, Building & Environment 191, 107569, https://doi.org/10.1016/j.buildenv.2020.107569

22.     Shrestha M., Rijal H.B., Kayo G., Shukuya M. (2021), A field investigation on adaptive thermal comfort in school buildings in the temperate climatic region of Nepal, Building and Environment 190, 107523, https://doi.org/10.1016/j.buildenv.2020.107523

23.     Othman N.E., Zaki S.A., Rijal H.B., Ahmad N.H., Razak A.A. (2021), Field study of pedestrians’ comfort temperatures under outdoor and semi-outdoor conditions in Malaysian university campuses, International Journal of Biometeorology, 65, 453–477, https://doi.org/10.1007/s00484-020-02035-3

24.     Rijal H.B. (2021), Thermal adaptation of buildings and people for energy saving in extreme cold climate of Nepal, Energy & Buildings 230, 110551. https://doi.org/10.1016/j.enbuild.2020.110551

25.     Pokharel T.R, Rijal H.B. (2020), Hourly firewood consumption patterns and CO2 emission patterns in rural households of Nepal, Designs 2020, 4, 46. https://doi.org/10.3390/designs4040046

26.     Gautam B., Rijal H.B., Imagawa H., Kayo G, Shukuya M. (2020), Investigation on adaptive thermal comfort considering the thermal history of local and migrant peoples living in sub-tropical climate of Nepal, Building and Environment 185, 107237. https://doi.org/10.1016/j.buildenv.2020.107237

27.     Imagawa H., Rijal H.B., Shukuya M. (2020), Development of integrated occupant-behavioural stochastic model including the fan use in Japanese dwellings, Energy & Buildings 226, 110326. https://doi.org/10.1016/j.enbuild.2020.110326

28.     Nicol F., Rijal H.B., Imagawa H., Thapa R. (2020), The range and shape of thermal comfort and resilience, Energy & Buildings 224(Oct.), 110277. https://doi.org/10.1016/j.enbuild.2020.110277

29.     Jowkar M., Rijal H.B., Montazami A., Brusey J. and Temeljotov-Salaj A. (2020), The influence of acclimatization, age and gender-related differences on thermal perception in university buildings: Case studies in Scotland and England, Building and Environment 179, 106933, https://doi.org/10.1016/j.buildenv.2020.106933

30.     Shahi D.K., Rijal H.B., Shukuya M. (2020), A study on household energy-use patterns in rural, semi-urban and urban areas of Nepal based on field survey, Energy & Buildings 223, 110095, https://doi.org/10.1016/j.enbuild.2020.110095

31.     Tuck N.W., Zaki S.A., Hagishima A., Rijal H.B., Fitri Yakub F. (2020), Affordable retrofitting methods to achieve thermal comfort for a terrace house in Malaysia with a hot–humid climate, Energy & Buildings 223, 110072. https://doi.org/10.1016/j.enbuild.2020.110072

32.     Pokharel T.R., Rijal H.B. Shukuya M. (2020), A field investigation on indoor thermal environment and its associated energy use in three climatic regions in Nepal, Energy & Buildings 222, 110073, https://doi.org/10.1016/j.enbuild.2020.110073

33.     Tamai Y., Satou H., Rijal H.B., Wakui S. and Iijima K. (2020), Environmental heat relaxation effect by railroad track greening with non-irrigation system, Journal of Japanese Society of Turfgrass Science 48(2), 149-155.

34.     Jowkar M., Rijal H.B., Brusey J., Montazami A., Carlucci S. and Lansdown T.C. (2020), Comfort temperature and preferred adaptive behaviour in various classroom types in the UK higher learning environments, Energy and Buildings 211(Mar.), 109814. https://doi.org/10.1016/j.enbuild.2020.109814

35.     Abe H., Rijal H.B., Hiroki R., Iijima K. and Ohta A. (2020), Thermal mitigation of the indoor and outdoor climate by green curtains in Japanese condominiums, Climate 8(1), 8. https://doi.org/10.3390/cli8010008

36.     Rijal H.B., Humphreys M.A., Nicol J.F. (2019), Behavioural adaptation for the thermal comfort and energy saving in Japanese offices, Journal of the Institute of Engineering 15 (2), 14-25. https://doi.org/10.3126/jie.v15i2.27637

37.     Shahzad S., Calautit J.K., Hughes B.R., Satish B.K., Rijal H.B. (2019), Patterns of thermal preference and visual thermal landscaping model in the workplace, Applied Energy 255(Dec.), 113674. https://doi.org/10.1016/j.apenergy.2019.113674

38.     Rijal H.B., Humphreys M.A., Nicol J.F. (2019), Adaptive model and the adaptive mechanisms for thermal comfort in Japanese dwellings, Energy & Buildings 202, 109371. https://doi.org/10.1016/j.enbuild.2019.109371

39.     Gautam B., Rijal H.B., Shukuya M., Imagawa H. (2019), A field investigation on the wintry thermal comfort and clothing adjustment of residents in traditional Nepalese houses, Journal of Building Engineering 26, 100886. https://doi.org/10.1016/j.jobe.2019.100886

40.     Thapa R., Rijal H.B., Shukuya M., Imagawa H. (2019), Study on the wintry thermal improvement of makeshift shelters built after Nepal earthquake 2015, Energy & Buildings 199, 62–71. https://doi.org/10.1016/j.enbuild.2019.06.031.

41.     Tuck N.W., Zaki S.A., Hagishima A., Rijal H.B., Zakaria M.A., Fitri Yakub F. (2019), Effectiveness of free running passive cooling ventilation strategies for indoor thermal environments: Example from a two-storey corner terrace house in Malaysia, Building and Environment 160, 106214, https://doi.org/10.1016/j.buildenv.2019.106214

42.     Singh M.K., Ooka R., Rijal H.B., Kumar S., Kumar A., Mahapatra S. (2019), Progress in thermal comfort studies in classrooms over last 50 years and way forward, Energy and Buildings 188–189(Apr.), 149-174. https://doi.org/10.1016/j.enbuild.2019.01.051

43.     KC R., Rijal H.B., Shukuya M., Yoshida K. (2019), An investigation of the behavioral characteristics of higher- and lower-temperature group families in a condominium equipped with a HEMS system, Buildings, 9(1), 4, https://doi.org/10.3390/buildings9010004

44.     Khalid W., Zaki S.A., Rijal H.B., Yakub F. (2019), Investigation of comfort temperature and thermal adaptation for patients and visitors in Malaysian hospitals, Energy and Buildings 183 (Jan.), 484-499, https://doi.org/10.1016/j.enbuild.2018.11.019

45.     Ličina V.F., Cheung T., Zhang H., de Dear R., Parkinson T., Arens E., Chun C., Schiavon S., Luo M., Brager G., Li P., Kaam S., Adebamowo M.A., Andamon M.M., Babich F., Bouden C., Bukovianska H., Candido C., Cao B., Carlucci S., Cheong K.W.D., Choi J.H., Cook M., Cropper P., Deuble M., Heidari S., Indraganti M., Jin Q., Kim H., Kim J., Konis K., Singh M.K., Kwok A., Lamberts R., Loveday D., Langevin J., Manu S., Moosmann C., Nicol F., Ooka R., Oseland N.A., Pagliano L., Petráš D., Rawal R., Romero R., Rijal H.B., Sekhar C., Schweiker M., Tartarini F., Tanabe S., Tham K.W., Teli D., Toftum J., Toledo L., Tsuzuki K., de Vecchi R., Wagner A., Wang Z., Wallbaum H., Webb L., Yang L., Zhu Y., Zhai Y., Zhang Y., Zhou X. (2018), Development of the ASHRAE Global Thermal Comfort Database II, Building and Environment 142(Sept.), 502–512. https://doi.org/10.1016/j.buildenv.2018.06.022

46.     Rijal H.B., Humphreys M.A. & Nicol J.F. (2018), Development of a window opening algorithm based on adaptive thermal comfort to predict occupant behavior in Japanese dwellings, Japan Architectural Review, 1(3), 310-321. https://doi.org/10.1002/2475-8876.12043

47.     KC R., Rijal H.B., Yoshida K., Shukuya M. (2018), An in-situ study on occupants’ behaviors for adaptive thermal comfort in a Japanese HEMS condominium, Journal of Building Engineering, Vol. 19, 402-411. https://doi.org/10.1016/j.jobe.2018.05.013

48.     Khalid W., Zaki S.A., Rijal H.B., Yakub F. (2018), Thermal comfort requirements for different occupants in Malaysian hospital in-patient wards, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 43(1), 128-140.

49.     Thapa R., Rijal H.B., Shukuya M. (2018), Field study on acceptable indoor temperature in temporary shelters built in Nepal after massive earthquake 2015, Building and Environment, 135, 330-343. https://doi.org/10.1016/j.buildenv.2018.03.001

50.     Singh M.K., Kumar S., Ooka R., Rijal H.B., Gupta G., Kumar A. (2018), Status of thermal comfort in naturally ventilated classrooms during the summer season in the composite climate of India, Building and Environment, 128(Jan.), 287-304. https://doi.org/10.1016/j.buildenv.2017.11.031

51.     Mustapa M.S., Zaki S.A., Ali M.S.M., Rijal H.B. (2017), Investigation of thermal comfort at different temperature settings for cooling in university building, Journal of Mechanical Engineering, Vol SI 4(4), 123-134.

52.     Singh M.K., Ooka R., Rijal H.B., Takasu M. (2017), Adaptive thermal comfort in the offices of North-East India in autumn season, Building and Environment, 124(Nov.), 14-30. https://doi.org/10.1016/j.buildenv.2017.07.037

53.     Zaki S.A., Damiati S.A., Rijal H.B., Hagishima A, Razak A.A. (2017), Adaptive thermal comfort in university classrooms in Malaysia and Japan, Building and Environment, 122(Sept.), 294-306. https://doi.org/10.1016/j.buildenv.2017.06.016

54.     Takasu M., Ooka R., Rijal H.B., Indraganti M., Singh M.K. (2017), Study on adaptive thermal comfort in Japanese offices under various operation modes, Building and Environment 118(6), 273-288. http://dx.doi.org/10.1016/j.buildenv.2017.02.023

55.     Rijal H.B., Humphreys M.A. & Nicol J.F. (2017), Towards an adaptive model for thermal comfort in Japanese offices, Building Research & Information 45(7), 717–729. http://dx.doi.org/10.1080/09613218.2017.1288450

56.     Thapa R., Rijal H.B. (2016), Study on thermal environment and thermal comfort in autumn season of temporary shelters in Nepal after massive earthquake 2015, Lowland Technology International, 18 (2): 119-128 (ISSN 1344-9656).

57.     Damiati S.A., Zaki S.A., Rijal H.B., Wonorahardjo S. (2016), Field study on adaptive thermal comfort in office buildings in Malaysia, Indonesia, Singapore, and Japan during hot and humid season, Building and Environment 109, 308–223. http://dx.doi.org/10.1016/j.buildenv.2016.09.024

58.     KC R., Rijal H.B., Yoshida K., Shukuya M. (2016), Feasibility study on the use of HEMS for thermal comfort and energy saving in Japanese residential buildings, International Journal of Civil, Environmental, Structural, Construction and Architectural Engineering Vol. 10 (9), 1098-1103. https://publications.waset.org/10005363/feasibility-study-on-the-use-of-hems-for-thermal-comfort-and-energy-saving-in-japanese-residential-buildings

59.     Mustapa M.S., Zaki S.A., Rijal H.B., Hagishima A, Ali M.S.M. (2016), Thermal comfort and occupant adaptive behaviour in Japanese university buildings with free running and cooling mode offices during summer, Building and Environment 105, 332–342. https://doi.org/10.1016/j.buildenv.2016.06.014

60.     Rijal H.B., Humphreys M. and Nicol F. (2015), Adaptive thermal comfort in Japanese houses during the summer season: Behavioral adaptation and the effect of humidity, Buildings 5(3), 1037-1054. https://doi.org/10.3390/buildings5031037

61.     Imagawa H. and Rijal H.B. (2015), Field survey of the thermal comfort, quality of sleep and typical occupant behaviour in the bedrooms of Japanese houses during the hot and humid season, Architectural Science Review 58(1), pp. 11-23. http://dx.doi.org/10.1080/00038628.2014.970611

62.     Indraganti M., Ooka R., Rijal H.B. & Brager G.S. (2015), Drivers and barriers to occupant adaptation in offices in India, Architectural Science Review 58(1), pp. 77-86. http://dx.doi.org/10.1080/00038628.2014.976539

63.     Indraganti M., Ooka R., Rijal H.B. (2015), Thermal comfort in offices in India: Behavioral adaptation and the effect of age and gender, Energy & Buildings 103 (9), pp. 284-295. https://doi.org/10.1016/j.enbuild.2015.05.042

64.     Rijal H.B. (2014), Investigation of comfort temperature and occupant behavior in Japanese houses during the hot and humid season, Buildings 4(3), 437-452. https://doi.org/10.3390/buildings4030437

65.     Indraganti M., Ooka R., Rijal H.B., Brager G.S. (2014), Adaptive model of thermal comfort for offices in hot and humid climates of India, Building and Environment 74(Apr.), pp. 39-53. http://dx.doi.org/10.1016/j.buildenv.2014.01.002

66.     Indraganti M., Ooka R., Rijal H.B. (2013), Field investigation of comfort temperature in Indian office buildings: A case of Chennai and Hyderabad, Building and Environment 65(July), pp. 195-214. http://dx.doi.org/10.1016/j.buildenv.2013.04.007

67.     Humphreys M.A., Rijal H.B., Nicol J.F. (2013), Updating the adaptive relation between climate and comfort indoors; new insights and an extended database, Building and Environment 63(May), pp. 40-55.  http://dx.doi.org/10.1016/j.buildenv.2013.01.024

68.     Rijal H.B., Honjo M., Kobayashi R., Nakaya T. (2013), Investigation of comfort temperature, adaptive model and the window-opening behaviour in Japanese houses, Architectural Science Review 56(1), pp. 54–69 (10.1080/00038628.2012.744295)

69.     Indraganti M., Ooka R., Rijal H.B. (2013), Thermal comfort in offices in summer: Findings from a field study under the ‘setsuden’ conditions in Tokyo, Japan, Building and Environment 61, pp. 114-132. 46.       http://dx.doi.org/10.1016/j.buildenv.2012.12.008

70.     Rijal H.B. (2012), Thermal improvements of the traditional houses in Nepal for the sustainable building design, Journal of the Human-Environment System, 15 (1), pp.1-11, Deecmber. https://doi.org/10.1618/jhes.15.1

71.     Rijal H.B., Tuohy P., Humphreys M.A., Nicol J.F., Samuel A. (2012), Considering the impact of situation-specific motivations and constraints in the design of naturally ventilated and hybrid buildings, Architectural Science Review 55(1), 35–48, Feb. http://dx.doi.org/10.1080/00038628.2011.641734

72.     Rijal H.B., Tuohy P., Humphreys M.A., Nicol J.F., Samuel A. (2011), An algorithm to represent occupant use of windows and fans including situation-specific motivations and constraints, Building Simulation, 4(2), 117–134. https://doi.org/10.1007/s12273-011-0037-4

73.     Rijal H.B., Yoshida H., Umemiya N. (2010), Seasonal and regional differences in neutral temperatures in Nepalese traditional vernacular houses, Building and Environment 45(12), pp. 2743-2753. https://doi.org/10.1016/j.buildenv.2010.06.002

74.     Stevenson F. and Rijal H.B. (2010), Developing occupancy feedback from a prototype to improve housing production, Building Research and Information 38(5), pp. 549–563. https://doi.org/10.1080/09613218.2010.496182

75.     Ooka R., Minami Y., Sakoi T., Tsuzuki K. and Rijal H.B. (2010), Improvement of the sweating model in 2-Node Model and it’s application to thermal safety for hot environment, Building and Environment 45(7), pp. 1565–1573. https://doi.org/10.1016/j.buildenv.2009.12.012

76.     Paul G.T., Humphreys M.A., Nicol J.F., Rijal H.B. and Clarke J.A. (2009), Occupant behavior in naturally ventilated and hybrid buildings, ASHRAE Transactions 115(1), pp. 16-27.

77.     Rijal H.B., Humphreys M.A. and Nicol J.F. (2009), Understanding occupant behaviour: the use of controls in mixed-mode office buildings, Building Research and Information 37 (4), pp. 381-396. https://doi.org/10.1080/09613210902904221

78.     Rijal H.B., Tuohy P., Humphreys M.A., Nicol J.F., Samuel A., Raja I.A. and Clarke J. (2008), Development of adaptive algorithms for the operation of windows, fans, and doors to predict thermal comfort and energy use in Pakistani buildings, ASHRAE Transactions 114(2), pp. 555-573, July.

79.     Rijal H.B., Tuohy P., Nicol F., Humphreys M.A., Samuel A. and Clarke J. (2008), Development of an adaptive window-opening algorithm to predict the thermal comfort, energy use and overheating in buildings, Journal of Building Performance Simulation 1 (1), pp. 17-30, March. https://doi.org/10.1080/19401490701868448

80.     Rijal H.B., Tuohy P., Humphreys M.A., Nicol J.F., Samuel A. and Clarke J. (2007), Using results from field surveys to predict the effect of open windows on thermal comfort and energy use in buildings, Energy and Buildings 39 (7), pp. 823-836. https://doi.org/10.1016/j.enbuild.2007.02.003

81.     Upadhyay A.K., Yoshida H. and Rijal H.B. (2006), Climate responsive building design in the Kathmandu valley, Journal of Asian Architecture and Building Engineering Vol. 5 No. 1, pp. 169-176, May. https://doi.org/10.3130/jaabe.5.169

1.         リジャルH.B.，中谷岳史：岐阜の住宅における冷暖房利用に関する研究，東京都市大学　環境情報学部　紀要，第14号，pp. 15-21，2013.2 (審査なし).

2.         リジャルH.B.：屋外の熱的快適性と適応，東京都市大学　環境情報学部　紀要，第12号，pp. 50-62，2011.2 (審査なし).

3.         リジャルH.B.，大岡龍三，黄弘，香月壮亮，呉秉哲：数値解析による大規模緑地のヒートアイランド緩和効果の検討，生産研究，62巻 1号, pp. 54-61, 2010 (審査なし).

1.         Sugano I., Kobatake M., Sasaki M., Suzuki Y., Ushiki Y., Okada A., Rijal H.B., Shrestha M., Goto M., Bushell B. (2011), Report: Nepal-Japan collaborative field study in Nepal, Samriddhi, Journal of Development Studies, Vol. 2 No. 1, 48-51, February – July 2011, National College, Kathmandu, Nepal.

2.         Tiwari S.R., Hanaoka S., Rijal H.B., Hata S. and Yoshida H. (2004), Culture in Development Conservation of Vernacular Architecture, An Annual Journal of Architecture (Association of Students of Architecture, Nepal), Vaastu, Vol. 6, pp. 21-25, October.

1.         リジャルH.B.，三宅理一，中村奏人，吉田治典：自然災害に対応できる街づくり　日本の木造密集市街地における住宅・都市改善への計画，日本建築学会第2回アジアの建築交流国際シンポジウム論文集，pp. 197-200，1998.9.

2.         リジャルH.B.，中村奏人，吉田治典：環境共生建築のモデル化　ネパール山岳地帯の自然環境に調和した伝統的な民家に関する考察，日本建築学会第2回アジアの建築交流国際シンポジウム論文集，pp. 381-384，1998.9.

1.         Aqilah N., Zaki S.A., Rijal H.B. (2022), Effect of building height and orientation on indoor air temperature for residential building in hot and humid climate, 9th Zero Energy Mass Custom Home (ZEMCH 2022), International Conference, pp. 1-10, 3rd – 5th November 2022, Bangalore, India.

2.         Khadka S., Rijal H.B., Amano K., Saito T., Imagawa H., Uno T., Genjo K., Takata H., Tsuzuki K., Nakaya T., Nishina D., Hasegawa K., Mori T. (2022), Study on behavioural adaptation for thermal comfort of japanese mixed-mode office buildings, 9th Zero Energy Mass Custom Home (ZEMCH 2022), International Conference, pp. 1-9, 3rd – 5th November 2022, Bangalore, India.

3.         Shrestha M., Rijal H.B. (2022), Passive measures to improve the thermal environment of nepalese school buildings during the summer, 9th Zero Energy Mass Custom Home (ZEMCH 2022), International Conference, pp. 1-10, 3rd – 5th November 2022, Bangalore, India.

4.         Rijal H.B. (2022), Resilient thermal comfort, 9th Zero Energy Mass Custom Home (ZEMCH 2022), International Conference, pp. 1-10, 3rd – 5th November 2022, Bangalore, India (Keynote Speech).

5.         Rijal H.B. (2022), Thermal environment of dwellings in extreme cold climate of Nepal, Proceedings of the 3^rd International Conference on: Comfort at the Extremes (CATE 2022): Covid, Climate Change and Ventilation, 5^th – 6^th September 2022, Royal College of Physicians of Edinburgh, Scotland, UK (Presentation only).

6.         Shrestha S., Rijal H.B. (2022), A field investigation on thermal comfort in free-running school buildings during the summer season in the temperate climate of Nepal, Proceedings of the 3^rd International Conference on: Comfort at the Extremes (CATE 2022): Covid, Climate Change and Ventilation, pp. 119-129, 5^th – 6^th September 2022, Royal College of Physicians of Edinburgh, Scotland, UK (ISBN: 978-1-9161876-4-1).

7.         Aqilah N., Rijal H.B. (2022), A review on adaptive thermal comfort and energy saving in residential buildings, Proceedings of the 3^rd International Conference on: Comfort at the Extremes (CATE 2022): Covid, Climate Change and Ventilation, pp. 130-141, 5^th – 6^th September 2022, Royal College of Physicians of Edinburgh, Scotland, UK (ISBN: 978-1-9161876-4-1).

8.         Khadka S., Rijal H.B., Amano K., Saito T., Imagawa H., Uno T., Genjo K., Takata H., Tsuzuki K., Nakaya T., Nishina D., Hasegawa K., Mori T. (2022), Study on winter comfort temperature based on daily survey in mixed-mode office buildings in Aichi prefecture of Japan, Proceedings of the 3^rd International Conference on: Comfort at the Extremes (CATE 2022): Covid, Climate Change and Ventilation, pp.142-152, 5^th – 6^th September 2022, Royal College of Physicians of Edinburgh, Scotland, UK (ISBN: 978-1-9161876-4-1).

9.         Rijal H.B. (2021), Thermal environment and thermal comfort of Nepalese dwellings in extreme cold climate, The 2nd International Conference on the Comfort At The Extremes, 2021 (CATE'21), Sultan Qaboos University, Muscat, Oman, October 24-26 (Abstarct only).

10.     Okamoto S. and Rijal H.B. (2021), Study on illuminance, brightness and productivity in Japanese office buildings, The 2nd International Conference on the Comfort At The Extremes, 2021 (CATE'21), Sultan Qaboos University, Muscat, Oman, October 24-26.

11.     Shrestha M., Rijal H.B., Kayo G., Shukuya M. (2021), An investigation of the natural-ventilation effect on CO2 concentration in Nepalese school buildings, The 2nd International Conference on the Comfort At The Extremes, 2021 (CATE'21), Sultan Qaboos University, Muscat, Oman, October 24-26.

12.     Shrestha M. and Rijal H.B. (2021), Adaptive Thermal Comfort and Energy Saving Potential in Naturally Ventilated School Building in Nepal, IOP Conf. Ser.: Earth Environ. Sci. 812 012010,　doi:10.1088/1755-1315/812/1/012010

13.     Kamaruddin N.I., Zaki S.A., Rijal H.B., Hagishima A., Khalid W., Atikha N., Yakub F., Redzuan F.L.M. (2020), Field study of the occupant’s thermal preferences for cooling in living rooms based on different set point temperatures, ICATAS-MJJIC 2020, IOP Conf. Series: Materials Science and Engineering 1051 (2021) 012073, doi:10.1088/1757-899X/1051/1/012073

14.     Rijal H.B. (2021), Thermal adaptation of buildings and people in Himalayan region of Nepal, Arctic Science Summit Week (ASSW) 2021, Lisbon, Portugal (Online), 20-26 March (Abstract only).

15.     Yoshida K., Rijal H.B., Bohgaki K., Mikami A, Abe H. (2020), Study on the energy-saving effect of fuel cell co-generation system in condominium based on the performance data, The 16th Conference of the International Society of Indoor Air Quality & Climate, Korea (Online), pp. 1-6, 1-5 November (Paper ID ABS-1189).

16.     Kamaruddin N.I., Zaki S.A., Rijal H.B., A. Hagishima, Khalid W., Atikha N., Yakub F., Redzuan F.L.M. (2021), Field study of the occupant’s thermal preferences for cooling in living rooms based on different set point temperatures, ICATAS-MJJIC 2020, 7th-8th October 2020, IOP Conf. Series: Materials Science and Engineering 1051, 012073, doi:10.1088/1757-899X/1051/1/012073

17.     Shahzad S.A., Rijal H.B. (2020), Sleep quality and adaptive thermal comfort under various energy use modes, International Conference on Applied Energy 2020, 1-10 Dec., Bangkok, Paper ID 413, pp.1-4.

18.     Jowkar M., Rijal H.B., James Brusey J., Temeljotov-Salaj A. (2020), The environmental design criteria for the university buildings in the Northern and Southern regions of the UK, Proceedings of 11th Windsor Conference: Resilient Comfort, pp. 298-308, Cumberland Lodge, Windsor, UK, 16-19 April 2020. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk (ISBN: 978-1-9161876-3-4)

19.     Imagawa H., Rijal H.B. (2020), Consideration of seasonal history in transition season: the case of occupant behaviours and thermal comfort in Japanese dwellings, Proceedings of 11th Windsor Conference: Resilient Comfort, pp. 358-366, Cumberland Lodge, Windsor, UK, 16-19 April 2020. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk (ISBN: 978-1-9161876-3-4)

20.     Rijal H.B., Humphreys M.A., Nicol J.F. (2020), Adaptive model and the adaptive mechanisms for thermal comfort in Japanese offices, Proceedings of 11th Windsor Conference: Resilient Comfort, pp. 759-773, Cumberland Lodge, Windsor, UK, 16-19 April 2020. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk (ISBN: 978-1-9161876-3-4)

21.     Shahzad S., Arias-Franco S., Rijal H.B. (2020), Visual thermal landscaping: A novel method in personalising thermal comfort, Proceedings of 11th Windsor Conference: Resilient Comfort, pp. 949-967, Cumberland Lodge, Windsor, UK, 16-19 April 2020. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk (ISBN: 978-1-9161876-3-4)

22.     Rijal H.B., Humphreys M.A., Nicol J.F. (2019), Study on behavioural adaptation for the thermal comfort and energy saving in Japanese offices, Journal of the Institute of Engineering (RETRUD-18), 15 (3): 292-299, https://doi.org/10.3126/jie.v15i3.32206

23.     Gautam B., Rijal H.B., Shukuya M. (2019), Investigation on wintry thermal comfort in traditional houses of Nepalese three climatic regions, Journal of the Institute of Engineering (RETRUD-18), 15 (3): 133-140, https://doi.org/10.3126/jie.v15i3.32160

24.     Imagawa H., Rijal H.B., Shukuya M. (2019), Study on the stochastic model for excessive air conditioning use in Japanese dwellings, Journal of the Institute of Engineering (RETRUD-18), 15 (3): 153-158, https://doi.org/10.3126/jie.v15i3.32173

25.     KC R., Rijal H.B., Shukuya M., Yoshida K. (2019), Importance of behavioural adjustments for adaptive thermal comfort in a condominium with HEMS system, Journal of the Institute of Engineering (RETRUD-18), 15 (3): 163-170, https://doi.org/10.3126/jie.v15i3.32175

26.     Shrestha M., Rijal H.B., Shukuya M. (2019), Field study on adaptive thermal comfort in naturally ventilated secondary school buildings in Nepal, Journal of the Institute of Engineering (RETRUD-18), 15 (3): 316-325, https://doi.org/10.3126/jie.v15i3.32212

27.     Thapa R., Rijal H.B., Shukuya M., Imagawa H. (2019), Study on winter indoor thermal environment of temporary shelters built in Nepal after massive earthquake 2015, Journal of the Institute of Engineering (RETRUD-18), 15 (3): 340-348, https://doi.org/10.3126/jie.v15i3.32217

28.     Shahi D.K., Rijal H.B., Shukuya M. (2019), Study on household energy usage patterns in urban and rural areas of Nepal, Journal of the Institute of Engineering (RETRUD-18), 15(3), 402-410. https://doi.org/10.3126/jie.v15i3.32761

29.     Imagawa H., Rijal H.B., Shukuya M. (2019), Development of the single and combined fan use models in Japanese dwellings, Sustainable Built Environment Conference 2019 (SBE19), Built environment in an area of climate change, The University of Tokyo, Komaba Campus. 6th-8th August.

30.     Gautam B., Rijal H.B., Shukuya M. (2019), Regional differences of winter indoor thermal environment of traditional houses in Nepal, Sustainable Built Environment Conference 2019 (SBE19), Built environment in an area of climate change, The University of Tokyo, Komaba Campus. 6th-8th August.

31.     Shrestha M., Rijal H.B. (2019), Study on adaptive thermal comfort in naturally ventilated secondary school buildings in Nepal, Sustainable Built Environment Conference 2019 (SBE19), Built environment in an area of climate change, The University of Tokyo, Komaba Campus. 6th-8th August.

32.     Pokharel T.R., Rijal H.B., Shukuya M. (2019), Rural household energy use and thermal environment in three climatic regions of Nepal, Sustainable Built Environment Conference 2019 (SBE19), Built environment in an area of climate change, The University of Tokyo, Komaba Campus. 6th-8th August.

33.     Thapa R., Rijal H.B., Shukuya M., Imagawa H. (2019), Study on winter indoor thermal environment of temporary shelters built in Nepal after massive earthquake 2015, Sustainable Built Environment Conference 2019 (SBE19), Built environment in an area of climate change, The University of Tokyo, Komaba Campus. 6th-8th August.

34.     Abe H., Bogaki K., Rijal H.B., Sugiyama M. (2019), Detecting anomalous energy consumption from profiles, Sustainable Built Environment Conference 2019 (SBE19), Built environment in an area of climate change, The University of Tokyo, Komaba Campus. 6th-8th August.

35.     Shahzad S., Rijal H.B. (2019), Preferred vs neutral temperatures and their implications on thermal comfort and energy use: Workplaces in Japan, Norway and the UK, Energy Procedia 158, Feb., 3113-3118. https://doi.org/10.1016/j.egypro.2019.01.1007

36.     Shahzad S., Calautit J.K., Hughes B.R., Satish B.K., Rijal H.B. (2019), Visual thermal landscaping (VTL) model: A qualitative thermal comfort approach based on the context to balance energy and comfort, Energy Procedia 158, Feb., 3119-3124.

37.     Rijal H.B. (2019), Thermal adaptation of buildings and people in extremely cold climate of Nepal, Proceedings of the 1st International Conference on Comfort at the Extremes: Energy, Economy and Climate, pp. 43-59, 10th – 11th April 2019, Heriot Watt University, Dubai.

38.     Pokharel T.R., Rijal H.B., Shukuya M. (2019), Wintry thermal environment and domestic energy use in Nepal, Proceedings of the 1st International Conference on Comfort at the Extremes: Energy, Economy and Climate, pp. 377-382, 10th – 11th April 2019, Heriot Watt University, Dubai.

39.     Jowkar M., Rijal H.B., Brusey J. (2019), Thermal comfort in higher educational buildings: Different classroom types, Proceedings of the 1st International Conference on Comfort at the Extremes: Energy, Economy and Climate, pp. 865-876, 10th – 11th April 2019, Heriot Watt University, Dubai.

40.     Thapa R., Rijal H.B., Shukuya M., Imagawa H. (2018), Study on regional thermal performance of temporary shelters built in Nepal after massive earthquake 2015, The 18th Conference of the Science Council of Asia, Role of Science for Society: Strategies towards SDGs in Asia, Tokyo, 5-7 December, 2018.

41.     Shrestha M., Rijal H.B. (2018), Study on thermal comfort in naturally ventilated higher secondary school buildings in Nepal, The 18th Conference of the Science Council of Asia, Role of Science for Society: Strategies towards SDGs in Asia, Tokyo, 5-7 December, 2018.

42.     Pokharel T.R., Rijal H.B., Shukuya M. (2018), Study on indoor thermal environment and energy use in different ecological region of Nepal, The 18th Conference of the Science Council of Asia, Role of Science for Society: Strategies towards SDGs in Asia, Tokyo, 5-7 December, 2018.

43.     Rijal H.B., Yoshida K., Humphreys M.A., Nicol J.F.: Development of the adaptive thermal comfort model for sustainable housing design in Japan, Proceedings of 34th International Conference on Passive and Low Energy Architecture (PLEA 2018), Smart and Healthy within the 2-degree Limit, Vol. 1, pp. 414-420, 10-12 December 2018, Hong Kong.

44.     Pokharel T.R., Rijal H.B., Shukuya M.: Study on firewood consumption pattern in Dhading district of Nepal, Proceedings of 34th International Conference on Passive and Low Energy Architecture (PLEA 2018), Smart and Healthy within the 2-degree Limit, Vol. 1, pp. 366-371, 10-12 December 2018, Hong Kong.

45.     Rijal H.B., Humphreys M.A., Nicol J.F., Study on behavioural adaptation for the thermal comfort and energy saving in Japanese offices, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

46.     Gautam B., Rijal H.B., Shukuya M., Investigation on wintry thermal comfort in traditional houses of Nepalese three climatic regions, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

47.     Imagawa H., Rijal H.B., Shukuya M., Study on the stochastic model for excessive air conditioning use in Japanese dwellings, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

48.     KC R., Rijal H.B., Shukuya M., Yoshida K., Importance of behavioural adjustments for adaptive thermal comfort in a condominium with HEMS system, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

49.     Shahi D.K., Rijal H.B., Shukuya M., Study on household energy usage patterns in urban and rural areas of Nepal, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

50.     Shrestha M., Rijal H.B., Shukuya M., Study on adaptive thermal comfort in naturally ventilated secondary school buildings in Nepal, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

51.     Thapa R., Rijal H.B., Shukuya M., Imagawa H., Study on winter indoor thermal environment of temporary shelters built in Nepal after massive earthquake 2015, 4th International Conference on Renewable Energy Technology for Rural and Urban Development (RETRUD-18), 29 – 31 October 2018, Kathmandu, Nepal.

52.     Shahzad S.S., Rijal H.B. (2018), Preferred vs neutral temperatures and their implications on thermal comfort and energy use: Workplaces in Japan, Norway and the UK, International Conference on Applied Energy (ICAE2018), Hong Kong, 22-25 August, 2018.

53.     Shahzad S.S., Calautit J.K., Hughes B.H., BK S., Rijal H.B. (2018), Visual thermal landscaping (VTL) model: A qualitative thermal comfort approach based on the context to balance energy and comfort, International Conference on Applied Energy (ICAE2018), Hong Kong, 22-25 August, 2018.

54.     Gautam B., Rijal H.B., Shukuya M. (2018), Study on wintry indoor thermal environment of rural houses in Nepal, Grand Renewable Energy, Abstract (O-Pi-2-3), 17-22 June, Pacifico Yokohama, Japan.

55.     Pokharel T.R., Rijal H.B., Shukuya M. (2018), An investigation of firewood consumption rate in traditional cook stoves of rural Nepal, Grand Renewable Energy, Abstract (O-Bc-1-3), 17-22 June, Pacifico Yokohama, Japan.

56.     Thapa R., Rijal H.B., Shukuya M. (2018), Evaluation of seasonal indoor environment: The case study of temporary shelters built in Nepal after massive earthquake 2015, Grand Renewable Energy, Abstract (O-At-5-2), 17-22 June, Pacifico Yokohama, Japan.

57.     Shrestha M., Rijal H.B. (2018), Adaptive thermal comfort in naturally ventilated school buildings in temperate climate of Nepal, Grand Renewable Energy, Abstract (O-At-5-3), 17-22 June, Pacifico Yokohama, Japan.

58.     KC R., Rijal H.B., Shukuya M., Yoshida K. (2018), The occupants’ perception about indoor air temperature and humidity in a HEMS condominium, Grand Renewable Energy, Abstract (P-En-3-1), 17-22 June, Pacifico Yokohama, Japan.

59.     Rijal H.B., Humphreys M.A., Nicol J.F. (2018), Adaptive mechanisms for thermal comfort in Japanese dwellings, Proceedings of 10th Windsor Conference: Rethinking Thermal Comfort, pp. 703-719, Cumberland Lodge, Windsor, UK, 12-15 April 2018. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

60.     Singh M.K., Ooka R., Rijal H.B. (2018), Thermal comfort in classrooms: A critical review, Proceedings of 10th Windsor Conference: Rethinking Thermal Comfort, pp. 649-668, Cumberland Lodge, Windsor, UK, 12-15 April 2018. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

61.     Shukuya M., Nagai R., Rijal H.B. (2018), An exergetic investigation on the effect of long-term thermo-physical exposure on thermal perception, Proceedings of 10th Windsor Conference: Rethinking Thermal Comfort, pp. 1076-1084, Cumberland Lodge, Windsor, UK, 12-15 April 2018. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

62.     KC R., Rijal H.B., Shukuya M., Yoshida K. (2018), A study on seasonal indoor thermal environment in condominiums under the use of HEMS system, Proceedings of 10th Windsor Conference: Rethinking Thermal Comfort, pp. 1151-1161, Cumberland Lodge, Windsor, UK, 12-15 April 2018. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

63.     Thapa R., Rijal H.B., Shukuya M. (2018), Evaluation of seasonal thermal environment of temporary shelters built in Nepal after massive earthquake 2015, Proceedings of 10th Windsor Conference: Rethinking Thermal Comfort, pp. 1202-1209, Cumberland Lodge, Windsor, UK, 12-15 April 2018. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

64.     Khalid W., Zaki S.A., Rijal H.B., Yakub F. (2017), Thermal comfort in hospitals in hot and humid climates: A literature review, 1st Green Environmental Energy and Building Science (GEEBS) International Conference, Universiti Teknologi Malaysia 16 -17 October 2017.

65.     Singh M.K., Ooka R., Rijal H.B., Takasu M. (2017), Thermal comfort in offices of north-east India in autumn season, The Healthy Buildings 2017-Asia (HB2017-Asia), pp. 347-351, September 2 to 5, 2017, The College of Medicine, National Cheng Kung University in Tainan, Taiwan.

66.     Damiati S.A., Zaki S.A., H.B. Rijal H.B., Razak A.A. (2017), Field study of thermal comfort in university buildings in Malaysia, Proceedings of PLEA 2017, Design to thrive, Vol. 1, pp. 1029-1036, 2-5 July, Edinburgh.

67.     Rijal H.B., Yoshida K. (2017), Development of the adaptive model for thermal comfort in HEMS condominium, The 17th Conference of the Science Council of Asia, pp. 153-159, Philippines, 14-16 June, 2017.

68.     KC R., Rijal H.B., Shukuya M., Yoshida K. (2017), A study on indoor thermal environment and its associated occupants’ responses in a HEMS condominium, The 17th Conference of the Science Council of Asia, pp. 241-247, Philippines, 14-16 June, 2017.

69.     Thapa Rita, Rijal H.B., Shukuya M. (2017), Study on the subjective evaluation of thermal comfort in temporary shelters built after massive earthquake 2015 in Nepal, The 17th Conference of the Science Council of Asia, pp. 255-262, Philippines, 14-16 June, 2017.

70.     Gautam B., Rijal H.B. (2017), Study on winter thermal environment and adaptive thermal comfort in houses in different climatic regions of Nepal, The 17th Conference of the Science Council of Asia, pp. 349-356, Philippines, 14-16 June, 2017.

71.     Pokharel T.R., Rijal H.B. (2017), Study on firewood use pattern in different ecological regions of Nepal, The 17th Conference of the Science Council of Asia, pp. 357-362, Philippines, 14-16 June, 2017.

72.     Khalid W., Zaki S.A., Rijal H.B., Yakub F. (2017), Study of thermal comfort for different occupants in private Malaysian hospital wards, Proceedings of the 9th International Meeting on Advances in Themofluids (IMAT), p. 29, Johor Bahru, Malaysia, 25 January, 2017.

73.     Mustapa M.S., Zaki S.A., Ali M.S.M., Rijal H.B. (2016), Investigation of thermal comfort at different temperature settings for cooling in university building, 1st Mechanical Engineering & Science Postgraduate International Conference 2016 (MESPIC2016), 27-29 September, Malaysia, 2016, Page Number: 1-12.

74.     Rijal H.B., Humphreys M.A., Nicol J.F. (2016), Investigation of the adaptive thermal comfort in Japanese dwellings, The 5th International Conference on Human-Environment System (ICHES 2016), 29 October to 2 November, Nagoya, Japan.

75.     Singh M.K., Ooka R., Rijal H.B., Mahapatra S. (2016), Building simulation based study to improve thermal performance of a traditional residential house, The 5th International Conference on Human-Environment System (ICHES 2016), 29 October to 2 November, Nagoya, Japan.

76.     Takasu M., Ooka R., Rijal H.B., Indraganti M. and Singh M.K. (2016), Study of comfort temperature in naturally ventilated office building in Japan, 9th International Conference on Indoor Air Quality Ventilation & Energy Conservation in Buildings, IAQVEC 2016, October 23-26, Songdo, Incheon, Republic of Korea.

77.     KC R., Rijal H.B., Yoshida K., Shukuya M. (2016), Feasibility study on the use of HEMS for thermal comfort and energy saving in Japanese residential buildings, ICAAEBS 2016, September 8-9, Singapore, 18 (9) Part III, pp. 443-449, World Academy of Science, Engineering and Technology.

78.     Singh M.K., Ooka R., Rijal H.B., Mahapatra S. (2016), Defining the thermal comfort in residential buildings of North-East India, Proceedings of the Science for the people: Mobilizing modern technologies for sustainable development, pp. 118-123, May 30 to June 1, SCA-16, Colombo, Sri Lanka.

79.     Rijal H.B., Humphreys M.A., Nicol J.F. (2016), Towards an adaptive model for thermal comfort in Japanese offices, Proceedings of 9th Windsor Conference: Making Comfort Relevant, pp. 228-242, Cumberland Lodge, Windsor, UK, 7-10 April 2016. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk (ISBN: 978-0-9928957-3-0)

80.     Takasu M., Ooka R., Rijal H.B., Indraganti M. and Singh M.K. (2016), Study on thermal adaptation in naturally ventilated office buildings in Japan, Proceedings of 9th Windsor Conference: Making Comfort Relevant, pp. 515-531, Cumberland Lodge, Windsor, UK, 7-10 April 2016. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

81.     Ooka R., Indraganti M. and Rijal H.B. (2016), A comparative analysis of thermal acceptability in offices in India and Japan, Proceedings of 9th Windsor Conference: Making Comfort Relevant, pp. 1155-1164, Cumberland Lodge, Windsor, UK, 7-10 April 2016. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

82.     Thapa Rita, Rijal H.B.: Study on thermal comfort in temporary shelters in Nepal after massive earthquake 2015, The Seventh National Conference on Science and Technology, Nepal Academy of Science and Technology Khumaltar, Lalitpur, Abstract, p. 214. 2016.3

83.     Rijal H.B., Humphreys M.A. and Nicol J.F. (2015), Comfortable indoor temperatures and the climate: An adaptive model for Japanese dwellings, The International Joint-Conference Senvar-Inta-Avan 2015, Wisdom of The Tropics: Past Present & Future, 24-26 November, Malaysia, No. 1, pp. 100-109.

84.     Damiati　S.A., Zaki S.A., Wonorahardjo S., Ali M.S.M., and Rijal H.B. (2015), Thermal Comfort Survey in Office Buildings in Bandung, Indonesia, The International Joint-Conference Senvar-Inta-Avan 2015, Wisdom of The Tropics: Past Present & Future, 24-26 November, Malaysia, No. 4, pp. 53-64.

85.     Damiati S.A., Zaki S.A., Wonorahardjo S., Wong N.H. & Rijal H.B. (2015). Comfort temperature in air conditioned office buildings: Case study of Indonesia and Singapore. Malaysia-Japan Joint International Conference 2015 (MJJIC2015), 13-15 November, Ube, Yamaguchi.

86.     Rijal H.B., Humphreys M.A. and Nicol J.F.: Effect of Humidity on the Comfort Temperature in Japanese Houses during the Summer Season, Proceedings of 2015 TAU Conference: Mitigating and Adapting Built Environments for Climate Change in the Tropics, pp. 108-122, School of Architecture, Tanri Abeng University, Jakarta, Indonesia, 30-31 March 2015. Network for Comfort and Energy Use in Buildings: http://www.nceub.org.uk

87.     Rijal H.B., Humphreys M.A., Nicol J.F. (2014), Development of window opening algorithm to predict occupant behaviour in Japanese houses, Volume 2, pp. 90-97, PLEA2014 - 30th Conference, Sustainable Habitat for Developing Societies, Ahmedabad, India, 15-18 December, 2014.

88.     Indraganti M., Ooka R., Rijal H.B. (2014), Thermal comfort in offices in India: Behavioral adaptation and the effect of age and gender, Volume 1, pp. 231-238, PLEA2014 - 30th Conference, Sustainable Habitat for Developing Societies, Ahmedabad, India, 15-18 December, 2014.

89.     Watanabe K. and Rijal H.B. (2014), Investigation of summer and autumn clothing insulation and thermal comfort in houses in Japan, Grand Renewable Energy 2014 Abstracts (O-At-5-3), 27 July - 1 August, 2014, Tokyo Big Sight, Tokyo Japan

90.     Rijal H.B., Humphreys M.A., Nicol J.F. (2014), Development of the adaptive model for thermal comfort in Japanese houses, Proceedings of 8th Windsor Conference: Counting the Cost of Comfort in a changing world, pp. 16-27, Cumberland Lodge, Windsor, UK, 10-13 April 2014. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

91.     Rijal H.B., Omori T., Humphreys M.A., Nicol J.F.: A field-comparison of thermal comfort with floor heating systems and air conditioning systems in Japanese homes, Proceedings of 8th Windsor Conference: Counting the Cost of Comfort in a changing world, pp. 1010-1018, Cumberland Lodge, Windsor, UK, 10-13 April 2014. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

92.     Imagawa H., Rijal H.B. (2014). Survey on the thermal comfort and occupant behaviour in the bedrooms of Japanese houses, Proceedings of 8th Windsor Conference: Counting the Cost of Comfort in a changing world, pp. 133-141, Cumberland Lodge, Windsor, UK, 10-13 April 2014. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

93.     Hoshino G., Rijal H.B. (2014), Investigation of the outdoor thermal comfort and clothing insulation in Hachiko Square in Tokyo, Proceedings of 8th Windsor Conference: Counting the Cost of Comfort in a changing world, pp. 832-840, Cumberland Lodge, Windsor, UK, 10-13 April 2014. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

94.     Indraganti M., Ooka R., Rijal H.B., Brager G.S. (2014), Occupant behaviour and obstacles in operating the openings in offices in India, Proceedings of 8th Windsor Conference: Counting the Cost of Comfort in a changing world, pp. 253-270, Cumberland Lodge, Windsor, UK, 10-13 April 2014. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

95.     Ooka R., Indraganti M. and Rijal H.B. (2014), Comfort temperature and the adaptive use of environmental controls in offices in Japan, Proceedings of 8th Windsor Conference: Counting the Cost of Comfort in a changing world, pp. 562-576, Cumberland Lodge, Windsor, UK, 10-13 April 2014. London: Network for Comfort and Energy Use in Buildings, http://nceub.org.uk

96.     Rijal H.B. (2013), Field investigation of comfort temperature and adaptive model in Japanese houses, PLEA2013 - 29th Conference, Sustainable Architecture for a Renewable Future, Munich, Germany 10-12 September 2013.

97.     Watanabe K., Rijal H.B. and Nakaya T. (2013), Investigation of clothing insulation and thermal comfort in Japanese houses, PLEA2013 - 29th Conference, Sustainable Architecture for a Renewable Future, Munich, Germany 10-12 September 2013.

98.     Rijal H.B. and Nakaya T. (2013), Development of the adaptive model in Japanese houses, the 11th REHVA World Congress and the 8th International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings (CLIMA 2013), Prague, Czech Republic, June 16 – 19, 2013.

99.     Katsuno J., Rijal H.B. and Seohiro Kikuchi (2013), Investigation of the thermal environment and overall comfort in Japanese houses, the 11th REHVA World Congress and the 8th International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings (CLIMA 2013), Prague, Czech Republic, June 16 – 19, 2013.

100.  Indraganti M., Ooka R., Rijal H.B. (2013), Developing the Adaptive Model of Thermal Comfort for Indian Office Buildings, the 11th REHVA World Congress and the 8th International Conference on Indoor Air Quality, Ventilation and Energy Conservation in Buildings (CLIMA 2013), Prague, Czech Republic, June 16 – 19, 2013.

101.  Rijal H.B. (2012), Evaluation and improvement of the thermal environment of the traditional vernacular houses in Nepal, The Sixth National Conference on Science and Technology, Nepal Academy of Science and Technology Khumaltar, Lalitpur, September 25-27, Abstract, p. 227.

102.  Kanno Y., Rijal H.B. (2012), Field investigation of the preferred temperature in Nepalese houses, The Sixth National Conference on Science and Technology, Nepal Academy of Science and Technology Khumaltar, Lalitpur, September 25-27, Abstract, p. 209.

103.  Honjo M., Rijal H.B. (2012), Investigation of comfort temperature in Nepal houses in Summer and winter, The Sixth National Conference on Science and Technology, Nepal Academy of Science and Technology Khumaltar, Lalitpur, September 25-27, Abstract, p. 210.

104.  Rijal H.B. and Nakaya T. (2012), Investigation of window opening behaviour in Japanese houses, Proceedings of 7^th Conference: The changing context of comfort in an unpredictable world, Windsor, UK, 12-15 April 2012. London: Network for Comfort and Energy Use in Buildings.

105.  Honjo M., Rijal H.B., Kobayashi R. and Nakaya T. (2012), Investigation of comfort temperature and the adaptive model in Japanese houses, Proceedings of 7^th Conference: The changing context of comfort in an unpredictable world, Windsor, UK, 12-15 April 2012. London: Network for Comfort and Energy Use in Buildings.

106.  Katsuno J., Rijal H.B. and Kikuchi S. (2012), Investigation of the comfort temperature and adaptive model in Japanese houses in summer, Proceedings of 7^th Conference: The changing context of comfort in an unpredictable world, Windsor, UK, 12-15 April 2012. London: Network for Comfort and Energy Use in Buildings.

107.  Indraganti M., Ooka R. and Rijal H.B. (2012), Significance of air movement for thermal comfort in warm climates: A discussion in Indian context, Proceedings of Conference: The changing context of comfort in an unpredictable world, Windsor, UK, 12-15 April 2012. London: Network for Comfort and Energy Use in Buildings.

108.  Rijal H.B., Toshiaki Omori T., Humphreys M.A., Nicol J.F. (2012), Evaluation of the thermal comfort of floor heating systems and air conditioning systems in Japanese homes, The 5^th International Building Physics Conference (IBPC), pp. 1005-1010, 28-31 May, Kyoto Japan.

109.  Rijal H.B. and Yoshimura S. (2011), Investigation of comfort temperature in naturally ventilated and air condition mode in Japanese houses, The 4^th International Conference on Human-Environment System (ICHES 2011), pp. 259-264, 3-6 October, Sapporo, Japan.

110.  Katsuno J. and Rijal H.B. (2011), Evaluation of the thermal environment and overall comfort in Japanese living rooms, Proceedings of the 4rd International Conference on Environmentally Sustainable Development, 24-26 July, Pakistan.

111.  Hosokawa Y. and Rijal H.B. (2011), Prediction of window opening behaviour based on thermal environment in Japanese houses, Proceedings of the 4rd International Conference on Environmentally Sustainable Development, 24-26 July, Pakistan.

112.  Rijal H.B., Ooka R., Huang H., Katsuki T. and Oh B. (2010), Study on heat island mitigation effect of large-scale greenery using numerical simulation, The 10th REHVA World Congress: Sustainable Energy Use in Buildings, Clima 2010, 9-12 May, Antalya, Turkey.

113.  Ooka R., Minami Y., Sakoi T., Tsuzuki K. and Rijal H.B. (2010), Study on Human Physiological Models for Hot Environments, The 10th REHVA World Congress: Sustainable Energy Use in Buildings, Clima 2010, 9-12 May, Antalya, Turkey.

114.  Rijal H.B. and Stevenson F. (2010), Thermal comfort in UK housing to avoid overheating: lessons from a ‘Zero Carbon’ case study, Proceedings of Conference: Adapting to change: New thinking on comfort, Windsor, UK, 9-11 April 2010. London: Network for Comfort and Energy Use in Buildings.

115.  Rijal H.B., Ooka R., Minami Y., Sakoi T. and Tsuzuki K.(2010), Thermal adaptation in hot and humid outdoor conditions, Proceedings of Conference: Adapting to change: New thinking on comfort, Windsor, UK, 9-11 April 2010. London: Network for Comfort and Energy Use in Buildings.

116.  Humphreys M.A., Rijal H.B. and Nicol J.F. (2010), Examining and developing the adaptive relation between climate and thermal comfort indoors, Proceedings of Conference: Adapting to change: New thinking on comfort, Windsor, UK, 9-11 April 2010. London: Network for Comfort and Energy Use in Buildings.

117.  Ooka R., Minami Y., Sakoi T., Tsuzuki K. and Rijal H.B. (2010), Modification of sweating model in 2-Node Model and it’s application to thermal safety for hot environments, Proceedings of Conference: Adapting to change: New thinking on comfort, Windsor, UK, 9-11 April 2010. London: Network for Comfort and Energy Use in Buildings.

118.  Huang H., Ooka R. and Rijal H.B. (2009), Influence of thermal condition on the wind environment evaluation for building design, 8th International Symposium on New Technologies for Urban Safety of Mega Cites in Asia (USMCA 2009), 15-16 October, Incheon, Korea.

119.  Rijal H.B., Ooka R., Huang H., Katsuki T. and Oh B. (2009), Evaluation of wind environment under isothermal and non-isothermal conditions in an urban block using CFD simulation, Proceedings of the 3^rd International Conference on Environmentally Sustainable Development, Vol. 1, pp. 43-53, 16-18 August, Pakistan.

120.  Hanaoka S., Rijal H.B. and Hata S. (2009), Changes and improvements to traditional vernacular houses in a mountain area of Nepal, Proceedings of the 3^rd International Conference on Environmentally Sustainable Development, Vol. 1, pp. 10-20, 16-18 August, Pakistan.

121.  Stevenson F. and Rijal H.B. (2008), The Sigma Home: towards an authentic evaluation of a prototype building, Proceedings of the 25^th Conference on Passive and Low Energy Architecture, Dublin, 22-24 October.

122.  Rijal H.B., Humphreys M.A. and Nicol J.F. (2008), Development of behavioural algorithms for thermal simulation of buildings – Evaluating constraints on the operation of windows and fans, 29^th AIVC Conference on Advanced building ventilation and environmental technology for addressing climate change issues, Vol. 3, pp. 99-104, 14-16 October, Kyoto, Japan.

123.  Humphreys M.A., Rijal H.B., Nicol J.F. and Tuohy P.  (2008), Modelling window-opening and the use of other building controls, 29^th AIVC Conference on Advanced building ventilation and environmental technology for addressing climate change issues, Vol. 3, pp. 91-97, 14-16 October, Kyoto, Japan.

124.  Nicol F., Humphreys M. and Rijal H. (2008), Allowing for thermal comfort in free-running buildings in the new European Standard EN15251, 29^th AIVC Conference on Advanced building ventilation and environmental technology for addressing climate change issues, Vol. 3, pp. 85-90, 14-16 October, Kyoto, Japan.

125.  Rijal H.B., Humphreys M.A. and Nicol J.F. (2008), How do occupants control the temperature in mixed-mode building? Predicting the use of passive and active controls, Proceedings of Conference: Air Conditioning and the Low Carbon Cooling Challenge, Windsor, UK, 27-29 July 2008. London: Network for Comfort and Energy Use in Buildings.

126.  Nicol J.F., Rijal H.B., Humphreys M.A. and Tuohy P. (2007), Characterising the use of windows in thermal simulation, 2^nd PALENC Conference and 28^th AIVC Conference on Building Low Energy Cooling and Advance Ventilation Technologies in the 21^st century, Greece, 27-29 September, pp. 712-717.

127.  Rijal H.B., Tuohy P., Nicol F., Humphreys M.A. and Clarke J. (2007), A window opening algorithm and UK office temperature: Field results and thermal simulation, Proceedings of the 10^th International IBPSA Conference, Beijing, 3-6 September, pp. 709-716.

128.  Tuohy P., Rijal H.B., Humphreys M.A., Nicol J.F., Samuel A. and Clarke J. (2007), Comfort driven adaptive window opening behaviour and the influence of building design, Proceedings of the 10^th International IBPSA Conference, Beijing, 3-6 September, pp. 717-724.

129.  Rijal H.B., Nicol J.F., Humphreys M. and Raja I.A. (2007), Use of windows, fans and doors to control the indoor environment in Pakistan: Developing a behavioural model for use in thermal simulations, Proceedings of the 2^nd International Conference on Environmentally Sustainable Development, Pakistan, 26-27August, pp. 3-15.

130.  Rijal H.B. and Yoshida H. (2006), Winter thermal comfort of residents in the Himalaya region of Nepal, Proceedings of International Conference on Comfort and Energy Use in Buildings - Getting them Right (Windsor), Organised by the Network for Comfort and Energy Use in Buildings, 27-30 April, Number of Pages: 15.

131.  Rijal H.B., Yoshida H. and Umemiya N. (2005), Passive cooling effects of traditional vernacular houses in the sub-tropical region of Nepal, Proceedings of the 22^nd Conference on Passive and Low Energy Architecture (Beirut), 13-16 November.

132.  Rijal H.B., Yoshida H., Miyazaki T. and Uchiyama I. (2005), Indoor air pollution from firewood combustion in traditional houses of Nepal, Proceedings of the 10^th International Conference on Indoor Air Quality and Climate (Beijing), pp. 3625-3629, 4-9 September.

133.  Rijal H.B. and Yoshida H. (2005), Winter thermal improvement of a traditional house in Nepal, Proceedings of the 9^th International IBPSA Conference (Montréal), Vol. 3, pp. 1035-1042, 15-18 August.

134.  Rijal H.B. and Yoshida H. (2002), Comparison of summer and winter thermal environment in traditional vernacular houses in several areas of Nepal, in M. Anson, J.M. Ko, E.S.S. Lam Eds., Advances in Building Technology, Vol. 2, pp. 1359-1366, Elsevier, 4–6 December.

135.  Rijal H.B., Yoshida H. and Umemiya N. (2002), Investigation of the thermal comfort in Nepal, Proceedings of International Symposium on Building Research and the Sustainability of the Built Environment in the Tropics (Indonesia), pp. 243-262, 14-16 October.

136.  Rijal H.B. and Yoshida H. (2002), Investigation and evaluation of firewood consumption in traditional houses in Nepal, Proceedings of the 9^th International Conference on Indoor Air Quality and Climate (Monterey), Vol.4, pp. 1000-1005, 30 June – 5 July.

1.         Rijal H.B. (2011), Environmental improvement potential of traditional houses and lifestyles: on the present status of policies and researches on the sustainability in Nepal, The 4th International Conference on the Human-Environment System (ICHES 2011), pp. 769-781, 3-6 October, Sapporo, Japan (Without review).

1.         Shrestha M., Rijal H.B.: Passive improvement of the thermal environment in school buildings in Nepal during the summer, AIJ Kanto Chapter Architectural Research Meeting, Environment Engineering, Vol. 93, pp. 35-38, 2023.2.

2.         Khadka S., Rijal H.B., Amano K., Saito T.: Development of the adaptive model of thermal comfort and analysis its mechanisms in office buildings in Aichi prefecture Part 1: Analysis of comfort temperature by gender based on daily survey, AIJ Kanto Chapter Architectural Research Meeting, Environment Engineering, Vol. 93, pp. 55-56, 2023.2.

3.         Aqilah N., Rijal H.B., Yoshida K.: Study on gender and age groups differences for thermal comfort in residential building, AIJ Kanto Chapter Architectural Research Meeting, Environment Engineering, Vol. 93, pp. 73-74, 2023.2.

4.         Khadka S., Rijal H.B., Amano K., Saito T., Uno T., Genjo K., Nakaya T., Nishina D. & Mori T.: Study on behavioural adaptation for the thermal comfort in mixed-mode Japanese office buildings of Aichi prefecture, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 5-8, 2022.9.

5.         Hisham N.A.B., Rijal H.B.: Effect of building height and orientation on indoor air temperature for residential building in hot and humid climate, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 9-12, 2022.9.

6.         Chaudhary P., Rijal H.B.: Study on physiological adaptation, health problems and skin moisture perception in summer in Nepalese dwellings, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 13-16, 2022.9.

7.         Shrestha M., Rijal H.B.: Study on thermal environment and its passive improvements in the Nepalese school building, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 5, pp. 5-8, 2022.9.

8.         Khadka S., Rijal H.B., Amano K., Saito T., Uno T., Genjo K., Nakaya T., Nishina D. & Mori T.: Development of the adaptive model of thermal comfort and analysis its mechanisms in Japanese office buildings, Part 2: Analysis of comfort temperature in Aichi prefecture based on daily survey, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 1035-1036，2022.9.

9.         Shrestha M., Rijal H.B.: An investigation on thermal environment and thermal comfort in a free-running school building in Nepal during the summer, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 1031-1032, 2022.9.

10.     Khadka S., Rijal H.B., Amano K. & Saito T.: Study on summer comfort temperature in Japanese office building, AIJ Kanto Chapter Architectural Research Meeting, Vol. 92, pp. 1-2, 2022.3.

11.     Shrestha M., Rijal H.B.: A simple passive strategy for improving the thermal environment of Nepalese school buildings, AIJ Kanto Chapter Architectural Research Meeting, Vol. 92, pp. 43-44, 2022.3.

12.     Shrestha M., Rijal H.B., Kayo G., Shukuya M.: Estimation methods of ventilation rate and indoor CO₂ concentration: A case study of the Nepalese school buildings, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 4, pp. 1-4, 2021.9.

13.     Garcia Bacca T., Rijal H.B.: Analysis of vernacular architecture base on Nicol graph in Colombia, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 5-8, 2021.9.

14.     Garcia Bacca T., Rijal H.B.: Study on indoor comfort temperature based on Nicol graph in Bogotá, Colombia, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 1025-1026, 2021.9.

15.     Shrestha M., Rijal H.B., Kayo G., Shukuya M.: An investigation on CO₂ concentration in naturally ventilated Nepalese school buildings by a series of measurement and simulation, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 1387-1388, 2021.9.

16.     Gautam B., Rijal H.B.: Study on summer air temperature and water vapor concentration of wooden and concrete houses in Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 91, pp. 9-10, 2021.3.

17.     Shrestha M., Rijal H.B.: Study on thermal comfort and indoor air quality in Nepalese naturally ventilated schools in temperate climatic region, AIJ Kanto Chapter Architectural Research Meeting, Vol. 91, pp. 67-68, 2021.3.

18.     Luitel H.K., Rijal H.B.: Study on thermal environment of office building in autumn season of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 91, pp. 77-78, 2021.3.

19.     Shrestha M., Rijal H.B.: Study on adaptive thermal comfort of students in summer in the temperate climate of Nepal, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 1-4, 2020.9.

20.     Gautam B., Rijal H.B., Imagawa H.: Study on summer thermal environment and its impact on sleeping in wooden and concrete house of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 781-782, 2020.9.

21.     Shrestha M., Rijal H.B.: Study on comfort temperature of secondary-school children in temperate climatic region of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 1117-1118, 2020.9.

22.     Luitel H.K., Rijal H.B., Study on adaptive thermal comfort in the autumn season of Nepalese office buildings, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering, pp. 1125-1126, 2020.9.

23.     Thapa R., Rijal H.B., Shukuya M., Imagawa H.: Gorkha earthquake 2015: Its impacts on social life and environmental factors, AIJ Kanto Chapter Architectural Research Meeting II, Vol. 90, pp. 25-28, 2020.3.

24.     Gautam B., Rijal H.B., Shukuya M.: Study on wintry air temperature and humidity of traditional houses in three regions of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 97-98, 2019.9.

25.     Thapa Rita, Rijal H.B., Shukuya M., Imagawa H.: Evaluation of summer indoor conditions of makeshift temporary shelters built after Nepal earthquake 2015, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 381-382, 2019.9.

26.     Luitel H.K., Rijal H.B., Study on adaptive thermal comfort in naturally ventilated office buildings in temperate climate of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 577-578, 2019.9.

27.     Shrestha M., Rijal H.B., Shukuya M.: Study on comfort temperature of secondary-school children in temperate climatic region of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 591-592, 2019.9.

28.     Shahi D.K., Rijal H.B., Shukuya M.: Household electricity demand patterns in rural and urban areas of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 1411-1412, 2019.9.

29.     Shahi D.K., Rijal H.B.: Lifestyle effect on use of household electrical appliances in Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 89, pp. 21-22, 2019.3.

30.     Pokharel T.R, Rijal H.B., Shukuya M.: A study on the household energy use on the basis of three assumed modes in Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 89, pp. 23-24, 2019.3.

31.     Luitel H.K., Rijal H.B.: Study on household energy used pattern and its effect on human health in rural area of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 89, pp. 29-30, 2019.3.

32.     Thapa R., Rijal H.B., Shukuya M., Imagawa H.: An investigation of thermal characteristics of temporary shelters in Nepal during wintery night time, AIJ Kanto Chapter Architectural Research Meeting, Vol. 89, pp. 71-72, 2019.3.

33.     Gautam B., Rijal H.B., Shukuya M.: Comparison of the wintry and autumnal indoor thermal environment in Nepalese rural houses, AIJ Kanto Chapter Architectural Research Meeting, Vol. 89, pp. 113-114, 2019.3.

34.     Shrestha M., Rijal H.B., Shukuya M.: Effect of gender on thermal comfort in naturally-ventilated school buildings in Nepalese temperate climatic region, AIJ Kanto Chapter Architectural Research Meeting, Vol. 89, pp. 231-232, 2019.3.

35.     Shrestha M., Rijal H.B., Investigation on neutral and preferred temperature of secondary school in Nepal, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 13-16, 2018.9.

36.     Luitel H.K., Rijal H.B., Study on household energy used pattern in Panchthar district of Nepal, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 9, pp. 5-8, 2018.9.

37.     Shahi D.K., Rijal H.B., Shukuya M.: A survey on rural household energy use in Kalikot district in Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 1, pp. 1007-1008, 2018.9.

38.     KC R., Rijal H.B., Shukuya M., Yoshida K.: The influence of humidity on thermal comfort in a condominium equipped with HEMS, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 305-306, 2018.9.

39.     Shrestha M., Rijal H.B., Shukuya M.: A study on comfort temperature and adaptive model in NV school buildings in temperate climate of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 397-398, 2018.9.

40.     Thapa Rita, Rijal H.B., Shukuya M.: Evaluation of seasonal and regional indoor air temperature of different types of temporary shelters built in Nepal after massive earthquake 2015, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 543-544, 2018.9.

41.     Gautam B., Rijal H.B.: Study on wintry thermal environment and its impact on human health in traditional and modern houses of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 545-546, 2018.9.

42.     Pokharel T.R, Rijal H.B., Shukuya M.: Study on household energy use on the basis of occupation in cold climatic area of Nepal, AIJ Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 1129-1130, 2018.9.

43.     Thapa Rita, Rijal H.B., Shukuya M.: Evaluation of summer thermal environment of temporary shelters built in Nepal after massive earthquake 2015, AIJ Kanto Chapter Architectural Research Meeting, Vol. 88, pp. 13-14, 2018.3.

44.     KC Rajan, Rijal H.B., Shukuya M., Yoshida Kazui: Seasonal Difference in Indoor Thermal Environment Engendered in a Condominium Equipped with HEMS, AIJ Kanto Chapter Architectural Research Meeting, Vol. 88, pp. 31-32, 2018.3.

45.     Shrestha M., Rijal H.B.: Adaptive thermal comfort in naturally ventilated school buildings in temperate climate of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 88, pp. 85-86, 2018.3.

46.     Gautam B., Rijal H.B., Shukuya M: Investigation on comfort temperature and clothing insulation in three climatic regions in Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 88, pp. 91-92, 2018.3.

47.     Shahi D.K., Rijal H.B.: Rural household electricity use patterns in western part of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 88, pp. 185-186，2018.3.

48.     KC R., Rijal H.B., Shukuya M., Yoshida K., A study on passive and active behaviors of the occupants for thermal adjustment in a HEMS condominium, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 8, pp. 5-8, 2017.9.

49.     Shahi D.K., Rijal H.B., Study on household electricity consumption patterns in rural area of Nepal, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 9, pp. 1-4, 2017.9.

50.     Shrestha M., Rijal H.B., Thapa R., Literature review in various climates and thermal comfort survey in Nepalese schools, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 5-8, 2017.9.

51.     Singh M.K, Ooka R., Rijal H.B., Adaptive thermal comfort and occupant behaviour in offices of North-East India in autumn season, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 8, pp. 1-4, 2017.9.

52.     Karki D., Rijal H.B.: Study on thermal adjustment behavior of housewives in rural areas of Nepal in winter, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 43-44, 2017.8.

53.     Gautam B., Rijal H.B.: Study on blood pressure and outdoor air temperature in winter in rural areas of Nepal, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 297-298, 2017.8.

54.     KC R., Rijal H.B., Shukuya M., Yoshida Kazui: Analysis on clothing insulation and air temperature in HEMS condominium during summer and winter, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 569-570, 2017.8.

55.     Shahi D.K., Rijal H.B.: Study on Household Electricity Use in Rural Area of Nepal, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 113-114, 2017.8.

56.     Thapa Rita, Rijal H.B., Shukuya M.: Comparison of Wintery Indoor Air Temperature in Temporary Shelters in Nepal after Massive Earthquake, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 515-516, 2017.8.

57.     Pokharel T.R, Rijal H.B.: Study on household energy use pattern in rural area of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 87, pp. 123-124, 2017.2.

58.     Gautam B., Rijal H.B.: Study on latrine usage and its relation to health in Tamang and Non Tamang community in rural area of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 87, pp. 205-206，2017.2.

59.     KC Rajan, Rijal H.B., Shukuya M., Yoshida Kazui: A case study on indoor air temperature and thermal comfort level in a HEMS supported condominium, AIJ Kanto Chapter Architectural Research Meeting, Vol. 87, pp. 173-176, 2017.2.

60.     Thapa Rita, Rijal H.B., Shukuya M.: Winter thermal comfort survey in temporary shelters in Nepal after massive earthquake 2015, AIJ Kanto Chapter Architectural Research Meeting, Vol. 87, pp. 253-256，2017.2.

61.     Regmi T., Rijal H.B.: Study on adaptive thermal behavior of housewives in rural area of Nepal, AIJ Kanto Chapter Architectural Research Meeting, Vol. 87, pp. 257-258，2017.2.

62.     Indraganti M., Boussaa D., Ooka R., Rijal H.B. (2016), Thermal comfort and adaptation in Qatari and Japanese offices: A comparative overview, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 1-4, 2016.9.

63.     Rijal H.B., Humphreys M.A., Nicol J.F. (2016), Investigation an adaptive model for thermal comfort in Japanese offices, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 5-8, 2016.9.

64.     KC R., Rijal H.B., Yoshida K. (2016), Literature review of HEMS and thermal comfort survey in HEMS managed building, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 9-12, 2016.9.

65.     Takasu M., Ooka R., Rijal H.B., Indraganti M., Singh M.K. (2016), Study on thermal adaptation in naturally ventilated office buildings in Japan, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 13-16, 2016.9.

66.     Singh M.K., Rijal H.B., Ooka R., Bansal N.K. (2016), The effect of cool roof on built environment in composite and hot and dry climates of India, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 73-76, 2016.9.

67.     Thapa Rita, Rijal H.B.: Study on thermal comfort and comfort temperature in temporary shelters in Nepal after massive earthquake, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 265-266, 2016.8.

68.     KC Rajan, Rijal H.B., Yoshida Kazui: Study on thermal comfort level of male and female in a HEMS managed residential building, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 371-372, 2016.8.

69.     Regmi T., Rijal H.B.: Study on time spent pattern and thermal adjustments of housewives in traditional houses of rural area of Nepal, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 2, pp. 373-374, 2016.8.

70.     Rijal H.B.: Study on the window opening algorithm to predict occupant behavior in Japanese houses, Summaries of Technical Papers of Annual Meeting, Environmental Engineering 1, Selected paper，pp. 1319-1322, 2016.8.

71.     Thapa Rita, Rijal H.B.: A thermal comfort survey in temporary shelters in Nepal after massive earthquake 2015, AIJ Kanto Chapter Architectural Research Meeting, Vol. 86, pp. 93-96，2016.3.

72.     KC Rajan, Rijal H.B., Yoshida Kazui: Investigation of thermal comfort and clothing insulation in HEMS managed residential building, AIJ Kanto Chapter Architectural Research Meeting, Vol. 86, pp. 209-212, 2016.3.

73.     Rijal H.B., Humphreys M., Nicol F.: Study on adaptive model: Part 5 Investigation of the adaptive model in Japanese houses during the summer season, Summaries of Technical Papers of Annual Meeting AIJ, D-2, Selected paper, pp. 479-482, 2015.9.

74.     Rijal H.B., Humphreys M., Nicol F.: Study on adaptive model: Part 3 Development of the adaptive model for thermal comfort in Japanese houses, Summaries of Technical Papers of Annual Meeting AIJ, D-2, Selected paper, pp. 403-406，2014.9.

75.     Ooka R., Indraganti M., Rijal H.B.：Summer Comfort Temperature and Adaptation in Japanese Offices under the Setusden Conditions: A Field Study Report, Summaries of Technical Papers of Annual Meeting AIJ, D-2, Selected paper, pp. 415-418，2014.9.

76.     Rijal H.B., Humphreys M.A., Nicol J.F. (2014), Study on window opening algorithm to predict occupant behaviour in Japanese houses, Technical Papers of Annual Meeting, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 5-8, September 3 to 5, 2014.

77.     Indraganti M., Ooka R. and Rijal H.B. (2014), Thermal Comfort and Acceptability in Offices in Japan and India: A Comparative Analysis, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, Vol. 6, pp. 17-20, September 3 to 5, 2014.

78.     Sugano I., Rijal H.B., Okada A., Goto M., Bushell B. (2011), Investigation of the comfort temperature in traditional houses of Nepal, The 17^th International Interdisciplinary Conference on the Environment, Hawaii, 28 June - 3 July (Abstract only).

79.     Kobatake M., Okada A., Rijal H.B., Kobori H., Goto M., Bushell B. (2011), Investigation into the water quality of the rivers in Kathmandu valley and local people’s attitude toward the rivers, The 17th International Interdisciplinary Conference on the Environment, Hawaii, 28 June - 3 July (Abstract only).

80.     Rijal H.B. (2010), Environmental problems in Nepalese cities, The present situation, The Alliance for Global Sustainability (AGS) Annual Meeting 2010, Global Change and Sustainability: Pathway to the sustainable society in 2050, Workshop D: Environmental Problems in South Asian Cities, 16-19 March, The University of Tokyo, Hongo campus, Tokyo Japan (Presentation only).

81.     Rijal H.B., Ooka R. (2010), Development of improved stove for sustainable firewood usage in Nepal, The Alliance for Global Sustainability (AGS) Annual Meeting 2010, Global Change and Sustainability: Pathway to the sustainable society in 2050, pp. 14-15, 16-19 March, The University of Tokyo, Hongo campus, Tokyo Japan (Abstract only).

82.     Katsuki K., Ooka R., Rahman M.M., Rijal H.B., Hefny M.M., Kikumoto H. (2010), Field measurement and CFD simulation of pollutant dispersion caused by automotive exhaust in Dhaka city, The Alliance for Global Sustainability (AGS) Annual Meeting 2010, Global Change and Sustainability: Pathway to the sustainable society in 2050, p. 41 (Poster abstracts), 16-19 March, The University of Tokyo, Hongo campus, Tokyo Japan (Abstract only).

83.     Tuohy P,. Rijal H.B., Humphreys M., Nicol F., (2007), Dynamic simulation: potential role of adaptive comfort and occupant behaviours in building design and regulations, The NCEUB (Network for Comfort and Energy Use in Buildings) meeting (University College London), April (Abstract only).

84.     Rijal H.B., Nicol F., Humphreys M., Raja I.A. (2007), Development of adaptive algorithms of windows open / fans on to predict occupants' behaviour and energy use in Pakistan, The NCEUB (Network for Comfort and Energy Use in Buildings) meeting (University College London), April (Abstract only).

85.     Rijal H.B., Humphreys M., Nicol F. (2006), Evaluation of the thermal environment caused by the opening of windows in UK office buildings, The 2^nd annual NCEUB (Network for Comfort and Energy Use in Buildings) meeting (University of Sheffield), September (Abstract only).

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2.         リジャルH.B，梅宮典子訳：適応を考慮した熱的快適性の原理（M.A. Humphreys），空気調和・衛生工学会　第83巻　第6号，pp. 413-419，2009.6.

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4.         リジャルH.B，梅宮典子訳：適応を考慮した熱的快適性の原理（M.A. Humphreys），In: 熱的快適性と適応，東京大学生産技術研究所，pp. 19-36，2009.4.22 (講演会の発表資料).

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6.         リジャルH.B.，梅宮典子訳：適応を考慮した熱的快適性の原理（M.A. Humphreys），In: 室内の熱的快適性と適応，空気調和・衛星工学会近畿支部，国際学術交流講演会，pp. 11-20，2008.10.17.

7.         リジャルH.B.，梅宮典子訳：建物における熱的快適性の適応的基準 (Nicol F.)，In: 室内の熱的快適性と適応，空気調和・衛星工学会近畿支部，国際学術交流講演会，pp. 31-40，2008.10.17.