1 |
Size-fractionated carbonaceous particles and climate effects in the eastern region of Myanmar
|
Suan Tial M.; Kyi N.; Amin M.; Hata M.; Furuuchi M.; Putri R.; Paluang P.; Suriyawong P.; Phairuang W. |
2024 |
Article |
0 |
2 |
Daytime-nighttime variations in the concentration of PM0.1 carbonaceous particles during a biomass fire episode in Chiang Mai, Thailand
|
Phairuang W.; Chetiyanukornkul T.; Suriyawong P.; Ho S.; Paluang P.; Furuuchi M.; Amin M.; Hata M. |
2024 |
Article |
0 |
3 |
Sources, analysis, and health implications of atmospheric microplastics
|
Ahmad M.; Chen J.; Khan M.; Yu Q.; Phairuang W.; Furuuchi M.; Ali S.; Nawab A.; Panyametheekul S. |
2023 |
Review |
0 |
4 |
Determination of Particulate Matters and Total Suspended Particles emitted from Incense Burning
|
Chy S.; Aun S.; Hang L.; Amin M.; Hata M.; Or C.; Kong S.; Taing C.; Um D.; Furuuchi M. |
2023 |
Conference Paper |
0 |
5 |
Size Segregated Carbonaceous Aerosol Down to Ultrafine Particle in Medan City, Indonesia
|
Putri R.; ; Phairuang W.; ; Hata M. |
2023 |
Conference Paper |
0 |
6 |
Size fractionated ambient particles down to nanoparticles (PM0.1) during a haze episode in Myanmar
|
Tial M.; Amin M.; Putri R.; Hata M.; Furuuchi M.; Phairuang W. |
2023 |
Conference Paper |
0 |
7 |
Preliminary discussion about the air pollution status in Afghanistan from Aerosol Optical Depth
|
; Amin M.; ; Hata M.; Furuuchi M. |
2023 |
Conference Paper |
0 |
8 |
Monitoring Particulate Matters and Total Suspended Particles Along the Roadside and Public Area in Phnom Penh
|
Ngoun P.; Aun S.; Amin M.; Hang L.; Hata M.; Taing C.; Kong S.; Or C.; Um D.; Furuuchi M. |
2023 |
Conference Paper |
0 |
9 |
Fine and ultrafine particle- and gas-polycyclic aromatic hydrocarbons affecting southern Thailand air quality during transboundary haze and potential health effects
|
Mahasakpan N.; Chaisongkaew P.; Inerb M.; Nim N.; Phairuang W.; Tekasakul S.; Furuuchi M.; Hata M.; Kaosol T.; Tekasakul P.; Dejchanchaiwong R. |
2023 |
Article |
1 |
10 |
Investigation of the Exposure of Schoolchildren to Ultrafine Particles (PM0.1) during the COVID-19 Pandemic in a Medium-Sized City in Indonesia
|
Handika R.; Phairuang W.; Amin M.; Yudison A.; Anggraini F.; Hata M.; Furuuchi M. |
2023 |
Article |
0 |
11 |
Airborne particulate matter from biomass burning in Thailand: Recent issues, challenges, and options
|
Suriyawong P.; Chuetor S.; Samae H.; Piriyakarnsakul S.; ; Furuuchi M.; Hata M.; Inerb M.; Phairuang W. |
2023 |
Article |
0 |
12 |
Ten Years Behavior of Carbonaceous Ultrafine Particulate Matter (PM0.1) in Phnom Penh, Cambodia
|
Phairuang W.; Hata M.; Takao M.; Taing C.; Ho S.; Aun S.; Hang L.; Kan R.; Or C.; Hul S.; Ikemori F.; Wada M.; Hongtieab S.; Sok P.; Amin M.; Furuuchi M. |
2023 |
Conference Paper |
0 |
13 |
Characterization of size-fractionated carbonaceous particles in the small to nano-size range in Batam city, Indonesia
|
Amin M.; Prajati G.; Humairoh G.; Putri R.; Phairuang W.; Hata M.; Furuuchi M. |
2023 |
Article |
0 |
14 |
Correction to: Ambient Nanoparticles (PM0.1) Mapping in Thailand (Atmosphere, (2022), 14, 1, (66), 10.3390/atmos14010066)
|
Phairuang W.; Piriyakarnsakul S.; Inerb M.; Hongtieab S.; Thongyen T.; Chomanee J.; Boongla Y.; Suriyawong P.; Samae H.; Chanonmuang P.; Suwattiga P.; Chetiyanukornkul T.; Panyametheekul S.; Amin M.; Hata M.; Furuuchi M. |
2023 |
Erratum |
0 |
15 |
Fine and nano particles in the school environments and the respiratory deposition doses to schoolchildren in a Middle City of Jambi, Indonesia
|
Handika R.; Hata M.; Furuuchi M. |
2023 |
Conference Paper |
0 |
16 |
Airborne Nanoparticles (PM0.1) in Southeast Asian Cities: A Review
|
Phairuang W.; Amin M.; Hata M.; Furuuchi M. |
2022 |
Review |
0 |
17 |
Dust collection efficiency of commercial gas collection tubes
|
Hata M.; Furuuchi M.; Sok P.; Amin M.; Umehara Y.; Takao M.; Higashikubo I.; Imanaka T.; Suzuki Y.; Nakamura A.; Yamazaki M. |
2022 |
Article |
0 |
18 |
Carbon and Trace Element Compositions of Total Suspended Particles (TSP) and Nanoparticles (PM0.1) in Ambient Air of Southern Thailand and Characterization of Their Sources
|
Inerb M.; Phairuang W.; Paluang P.; Hata M.; Furuuchi M.; Wangpakapattanawong P. |
2022 |
Article |
0 |
19 |
Atmospheric Ultrafine Particulate Matter (PM0.1)-Bound Carbon Composition in Bangkok, Thailand
|
Phairuang W.; Hongtieab S.; Suwattiga P.; Furuuchi M.; Hata M. |
2022 |
Article |
0 |
20 |
Characteristics of trace elements bound to ambient nanoparticles (PM0.1) and a health risk assessment in southern Thailand
|
Phairuang W.; Inerb M.; Hata M.; Furuuchi M. |
2022 |
Article |
3 |
21 |
Particle-bound organic and elemental carbons for source identification of PM < 0.1 ?m from biomass combustion
|
Samae H.; Tekasakul S.; Tekasakul P.; Phairuang W.; Furuuchi M.; Hongtieab S. |
2022 |
Article |
0 |
22 |
Size-segregated particulate mass and carbonaceous components in roadside and riverside environments
|
Amin M.; Handika R.; Putri R.; Phairuang W.; Hata M.; Tekasakul P.; Furuuchi M. |
2021 |
Article |
2 |
23 |
Size-segregated particulate matter down to pm0.1 and carbon content during the rainy and dry seasons in sumatra island, Indonesia
|
Amin M.; Putri R.; Handika R.; Ullah A.; Goembira F.; Phairuang W.; Ikemori F.; Hata M.; Tekasakul P.; Furuuchi M. |
2021 |
Article |
1 |
24 |
Influence of meteorological conditions and fire hotspots on pm0.1 in northern thailand during strong haze episodes and carbonaceous aerosol characterization
|
Sresawasd C.; Chetiyanukornkul T.; Suriyawong P.; Tekasakul S.; Furuuchi M.; Hata M.; Malinee R.; Tekasakul P.; Dejchanchaiwong R. |
2021 |
Article |
2 |
25 |
Characteristics, sources, and health risks of ambient nanoparticles (PM0.1) bound metal in Bangkok, Thailand
|
Phairuang W.; Suwattiga P.; Hongtieab S.; Inerb M.; Furuuchi M.; Hata M. |
2021 |
Article |
4 |
26 |
Emission factors of ultrafine particulate matter (PM<0.1 ?m) and particle-bound polycyclic aromatic hydrocarbons from biomass combustion for source apportionment
|
Samae H.; Tekasakul S.; Tekasakul P.; Furuuchi M. |
2021 |
Article |
9 |
27 |
The characteristics of carbonaceous particles down to the nanoparticle range in Rangsit city in the Bangkok Metropolitan Region, Thailand
|
Boongla Y.; Chanonmuang P.; Hata M.; Furuuchi M.; Phairuang W. |
2021 |
Article |
11 |
28 |
Bibliometric analysis of the study on exposure evaluation to aerosol nano or ultrafine particles in the breathing zone
|
Handika R.; Hata M.; Furuuchi M. |
2021 |
Conference Paper |
0 |
29 |
Site-specific variation in mass concentration and chemical components in ambient nanoparticles (PM0.1) in North Sumatra Province-Indonesia
|
Putri R.; Amin M.; Suciari T.; Al Fattah Faisal M.; Auliani R.; Ikemori F.; Wada M.; Hata M.; Tekasakul P.; Furuuchi M. |
2021 |
Article |
6 |
30 |
Worker’s personal exposure to pm0.1 and pm4 titanium dioxide nanomaterials during packaging
|
Higashikubo I.; Handika R.; Kawamoto T.; Shimizu H.; Thongyen T.; Piriyakarnsakul S.; Muhammad A.; Hata M.; Furuuchi M. |
2021 |
Article |
0 |
31 |
Physicochemical and toxicological characteristics of nanoparticles in aerosols in southern Thailand during recent haze episodes in lower southeast Asia
|
Chomanee J.; Thongboon K.; Tekasakul S.; Furuuchi M.; Dejchanchaiwong R.; Tekasakul P. |
2020 |
Article |
5 |
32 |
Size-fractionated carbonaceous aerosols down to PM0.1 in southern Thailand: Local and long-range transport effects
|
Phairuang W.; Inerb M.; Furuuchi M.; Hata M.; Tekasakul S.; Tekasakul P. |
2020 |
Article |
23 |
33 |
Optimal fluorescent-dye staining time for the real-time detection of microbes: a study of Saccharomyces cerevisiae
|
Piriyakarnsakul S.; Takarada K.; Heab K.; Nasu M.; Hata M.; Furuuchi M. |
2020 |
Article |
0 |
34 |
The influence of the open burning of agricultural biomass and forest fires in Thailand on the carbonaceous components in size-fractionated particles
|
Phairuang W.; Suwattiga P.; Chetiyanukornkul T.; Hongtieab S.; Limpaseni W.; Ikemori F.; Hata M.; Furuuchi M. |
2019 |
Article |
45 |
35 |
Estimation of air pollution from ribbed smoked sheet rubber in Thailand exports to Japan as a pre-product of tires
|
Phairuang W.; Tekasakul P.; Hata M.; Tekasakul S.; Chomanee J.; Otani Y.; Furuuchi M. |
2019 |
Article |
5 |
36 |
A cascade air sampler with multi-nozzle inertial filters for PM0.1
|
Kumsanlas N.; Piriyakarnsakul S.; Sok P.; Hongtieab S.; Ikemori F.; Szymanski W.; Hata M.; Otani Y.; Furuuchi M. |
2019 |
Article |
5 |
37 |
Effect of irradiation energy and residence time on decomposition efficiency of polycyclic aromatic hydrocarbons (PAHs) from rubber wood combustion emission using soft X-rays
|
Chomanee J.; Tekasakul S.; Tekasakul P.; Furuuchi M. |
2018 |
Article |
12 |
38 |
Development of a sharp-cut inertial filter combined with an impactor
|
Zhang T.; Takahashi H.; Hata M.; Toriba A.; Ikeda T.; Otani Y.; Furuuchi M. |
2017 |
Article |
8 |
39 |
Comparison of particulate matter and polycyclic aromatic hydrocarbons in emissions from IDI-turbo diesel engine fueled by palm oil–diesel blends during long-term usage
|
Phoungthong K.; Tekasakul S.; Tekasakul P.; Furuuchi M. |
2017 |
Article |
7 |
40 |
High volume air sampler for environmental nanoparticles using a sharp-cut inertial filter combined with an impactor
|
Zhang T.; Zhao T.; Takahashi H.; Hata M.; Toriba A.; Ikeda T.; Otani Y.; Furuuchi M. |
2017 |
Article |
2 |
41 |
Polycyclic aromatic hydrocarbons and their nitro derivatives from indoor biomass-fueled cooking in two rural areas of Thailand: a case study
|
Orakij W.; Chetiyanukornkul T.; Kasahara C.; Boongla Y.; Chuesaard T.; Furuuchi M.; Hata M.; Tang N.; Hayakawa K.; Toriba A. |
2017 |
Article |
15 |
42 |
Particle size specific distribution of perfluoro alkyl substances in atmospheric particulate matter in Asian cities
|
Ge H.; Yamazaki E.; Yamashita N.; Taniyasu S.; Ogata A.; Furuuchi M. |
2017 |
Article |
22 |
43 |
Potential of Pyrene Removal from Urban Environments by the Activities of Bacteria and Biosurfactant on Ornamental Plant Leaves
|
Siriratruengsuk W.; Furuuchi M.; Prueksasit T.; Luepromchai E. |
2017 |
Article |
4 |
44 |
Size specific distribution analysis of perfluoroalkyl substances in atmospheric particulate matter - development of a sampling method and their concentration in meeting room/ambient atmosphere
|
Ge H.; Yamazaki E.; Yamashita N.; Taniyasu S.; Zhang T.; Hata M.; Furuuchi M. |
2017 |
Article |
9 |
45 |
Influence of agricultural activities, forest fires and agro-industries on air quality in Thailand
|
Phairuang W.; Hata M.; Furuuchi M. |
2017 |
Article |
51 |
46 |
Size Distribution of Chlorinated Polycyclic Aromatic Hydrocarbons in Atmospheric Particles
|
Kakimoto K.; Nagayoshi H.; Konishi Y.; Kajimura K.; Ohura T.; Nakano T.; Hata M.; Furuuchi M.; Tang N.; Hayakawa K.; Toriba A. |
2017 |
Article |
13 |
47 |
Evaluation of artifacts generated during collection of ultrafine particles using an inertial filter sampler
|
Kuwabara H.; Sekiguchi K.; Sankoda K.; Sakurai K.; Yamaguchi R.; Furuuchi M.; Hata M. |
2016 |
Article |
5 |
48 |
Development of PM0.1 personal sampler for evaluation of personal exposure to aerosol nanoparticles
|
Thongyen T.; Hata M.; Toriba A.; Ikeda T.; Koyama H.; Otani Y.; Furuuchi M. |
2015 |
Article |
9 |
49 |
Chemical characteristics of size-resolved aerosols in winter in Beijing
|
Sun K.; Qu Y.; Wu Q.; Han T.; Gu J.; Zhao J.; Sun Y.; Jiang Q.; Gao Z.; Hu M.; Zhang Y.; Lu K.; Nordmann S.; Cheng Y.; Hou L.; Ge H.; Furuuchi M.; Hata M.; Liu X. |
2014 |
Article |
32 |
50 |
Characteristics of nanoparticles emitted from burning of biomass fuels
|
Hata M.; Chomanee J.; Thongyen T.; Bao L.; Tekasakul S.; Tekasakul P.; Otani Y.; Furuuchi M. |
2014 |
Article |
37 |
51 |
The emission characteristics of PAHs during coal and sewage sludge co-combustion in a drop tube furnace
|
Chen W.; Han J.; Qin L.; Furuuchi M.; Hata M. |
2014 |
Article |
24 |
52 |
Development of a high-volume air sampler for nanoparticles
|
Hata M.; Thongyen T.; Bao L.; Hoshino A.; Otani Y.; Ikeda T.; Furuuchi M. |
2013 |
Article |
7 |
53 |
Emissions of particulate matter and associated polycyclic aromatic hydrocarbons from agricultural diesel engine fueled with degummed, deacidified mixed crude palm oil blends
|
Phoungthong K.; Tekasakul S.; Tekasakul P.; Prateepchaikul G.; Jindapetch N.; Furuuchi M.; Hata M. |
2013 |
Article |
14 |
54 |
Characteristics of the nanoparticles in a road tunnel
|
Hata M.; Zhang T.; Bao L.; Otani Y.; Bai Y.; Furuuchi M. |
2013 |
Article |
9 |
55 |
Emission characteristics of PM 10 during sewage sludge combustion
|
Ye W.; Han J.; Qin L.; Li Y.; Furuuchi M.; Yao H. |
2012 |
Article |
12 |
56 |
Effect of cooling rate on the partition of heavy and alkali metals during waste incineration
|
Han J.; Qing L.; Xu M.; Yao H.; Furuuchi M.; Hata M. |
2012 |
Article |
2 |
57 |
Performance evaluation of an Andersen cascade impactor with an additional stage for nanoparticle sampling
|
Hata M.; Linfa B.; Otani Y.; Furuuchi M. |
2012 |
Article |
9 |
58 |
Effects of filter packing density and particle deposit on classification performance of inertial filter for sampling of PM0.1
|
Eryu K.; Seto T.; Furuuchi M.; Otani Y.; Tajima N.; Kato T. |
2011 |
Article |
6 |
59 |
Seasonal variation of carbonaceous and ionic components in ultrafine and fine particles in an urban area of Japan
|
Kim K.; Sekiguchi K.; Furuuchi M.; Sakamoto K. |
2011 |
Article |
34 |
60 |
Workplace environment and personal exposure of PM and PAHs to workers in natural rubber sheet factories contaminated by wood burning smoke
|
Choosong T.; Chomanee J.; Tekasakul P.; Tekasakul S.; Otani Y.; Hata M.; Furuuchi M. |
2010 |
Article |
36 |
61 |
Studying the influence of operation parameters on heavy and alkali metals partitioning in flue gases
|
Han J.; He X.; Wang G.; Furuuchi M.; Hata M. |
2010 |
Article |
2 |
62 |
Development of a personal sampler for evaluating exposure to ultrafine particles
|
Furuuchi M.; Choosong T.; Hata M.; Otani Y.; Tekasakul P.; Takizawa M.; Nagura M. |
2010 |
Article |
24 |
63 |
Development and performance evaluation of air sampler with inertial filter for nanoparticle sampling
|
Furuuchi M.; Eryu K.; Nagura M.; Hata M.; Kato T.; Tajima N.; Sekiguchi K.; Ehara K.; Seto T.; Otani Y. |
2010 |
Article |
58 |
64 |
Performance test of an inertial fibrous filter for ultrafine particle collection and the possible sulfate loss when using an aluminum substrate with ultrasonic extraction of ionic compounds
|
Kim K.; Sekiguchi K.; Kudo S.; Sakamoto K.; Hata M.; Furuuchi M.; Otani Y.; Tajima N. |
2010 |
Article |
12 |
65 |
Effects of moisture content and burning period on concentration of smoke particles and particle-bound polycyclic aromatic hydrocarbons from rubber-wood combustion
|
Chomanee J.; Tekasakul S.; Tekasakul P.; Furuuchi M.; Otani Y. |
2009 |
Article |
51 |
66 |
Evaluation of multichannel annular denuders for a newly develope ultrafine particle sampling system
|
Sekiguchi K.; Kim K.; Kudo S.; Sakamoto K.; Otani Y.; Seto T.; Furuuchi M.; Yoshikawa F.; Ehara K.; Hirasawa M.; Tajima N.; Kato T. |
2009 |
Article |
9 |
67 |
The behaviour of phosphorus and heavy metals in sewage sludge ashes
|
Han J.; Kanchanapiya P.; Sakano T.; Mikuni T.; Furuuchi M.; Wang G. |
2009 |
Article |
21 |
68 |
Characteristics of PAHs in particulates in the atmospheric environment of Hat Yai City, Thailand, and relationship with rubber-wood burning in rubber sheet production
|
Tekasakul P.; Furuuchi M.; Tekasakul S.; Chomanee J.; Otani Y. |
2008 |
Article |
32 |
69 |
Influence of calcium chloride on the thermal behavior of heavy and alkali metals in sewage sludge incineration
|
Han J.; Xu M.; Yao H.; Furuuchi M.; Sakano T.; Kim H. |
2008 |
Article |
43 |
70 |
Effect of temperature and dust properties on the filtration and cleaning characteristics of candle-type ceramic filters
|
Hata M.; Furuuchi M.; Okamoto T.; Seki H. |
2007 |
Article |
0 |
71 |
Degradation of bag-filter non-woven fabrics by nitric oxide at high temperatures
|
Tanthapanichakoon W.; Furuuchi M.; Nitta K.; Hata M.; Otani Y. |
2007 |
Conference Paper |
23 |
72 |
Simulating the transformation of heavy metals during coal or sewage sludge combustion
|
Han J.; Xu M.; Yao H.; Furuuchi M.; Sakano T.; Kim H. |
2007 |
Article |
7 |
73 |
Mechanical degradation of filter polymer materials: Polyphenylene sulfide
|
Tanthapanichakoon W.; Hata M.; Nitta K.; Furuuchi M.; Otani Y. |
2006 |
Article |
76 |
74 |
Partition of heavy and alkali metals during sewage sludge incineration
|
Han J.; Xu M.; Yao H.; Furuuchi M.; Sakano T.; Kanchanapiya P.; Kanaoka C. |
2006 |
Article |
31 |
75 |
Characteristics of slag, fly ash and deposited particles during melting of dewatered sewage sludge in a pilot plant
|
Kanchanapiya P.; Sakano T.; Kanaoka C.; Mikuni T.; Ninomiya Y.; Zhang L.; Masui M.; Furuuchi M. |
2006 |
Article |
16 |
76 |
Degradation of semi-crystalline PPS bag-filter materials by NO and O2 at high temperature
|
Tanthapanichakoon W.; Furuuchi M.; Nitta K.; Hata M.; Endoh S.; Otani Y. |
2006 |
Article |
55 |
77 |
The influence of humidity on dry separation of granular particles based on geometrical characteristics
|
Furuuchi M.; Gotoh K.; Kanaoka C. |
2005 |
Article |
0 |
78 |
A Mechanistic Model for Mercury Capture with In Situ–Generated Titania Particles: Role of Water Vapor
|
Rodr?guez S.; Almquist C.; Lee T.; Furuuchi M.; Hedrick E.; Biswas P. |
2004 |
Article |
28 |
79 |
Observation of dust release behavior from ceramic filter elements
|
Hata M.; Furuuchi M.; Kanaoka C.; Kurose R.; Makino H. |
2003 |
Article |
12 |
80 |
Modern Aspect of International Technology Transfer -from Data Aqusition to Data Evaluation-
|
Kato S.; Takahashi M.; Furuuchi M.; Kanaoka C. |
2003 |
Article |
0 |
81 |
Evaporation behavior of volatile particles on fibrous filter flushed with particle-free dry air
|
Furuuchi M.; Fissan H.; Horodecki J. |
2001 |
Article |
7 |
82 |
Flow and dust concentrstion near working face of a tunnel under construction
|
Kanaoka C.; Furuuchi M.; Inaba J.; Myojo T. |
2000 |
Article |
13 |
83 |
Evaporation behavior of volatile particles on fibrous filter
|
Furuuchi M.; Fissan H.; Horodecki J. |
1998 |
Article |
0 |
84 |
Inertial separation of nano-size particles from supersonic flow field
|
Kanaoka C.; Furuuchi M. |
1996 |
Article |
1 |
85 |
Sediment structure of fine silica spheres in an electrolyte solution
|
Furuuchi M.; Mori S.; Gotoh K. |
1994 |
Article |
5 |
86 |
Controlling Packing Density of Rod-Like Particles by Magnetic Fluid
|
Furuuchi M.; Haseda H.; Gotoh K. |
1993 |
Article |
0 |
87 |
Shape separation of particulates by a rotating horizontal sieve drum
|
Furuuchi M.; Yamada C.; Gotoh K. |
1993 |
Article |
13 |
88 |
Shape separation of particles
|
Furuuchi M.; Gotoh K. |
1992 |
Review |
23 |
89 |
Flow and Segregation of Binary Mixture of Particles of Different Shape in a Rotating Horizontal Cylinder
|
Furuuchi M.; Honda T.; Harifuehi H.; Gotoh K. |
1992 |
Article |
2 |
90 |
Particle shape and residence time of granular materials in a rotating tilted cylinder
|
Furuuchi M.; Ohno E.; Gotoh K. |
1990 |
Article |
4 |
91 |
Electrical Conductivity of Suspensions of Binary Particle Mixtures
|
Furuuchi M.; Fukagawa T.; Suzuki Y.; Gotoh K. |
1990 |
Article |
0 |
92 |
Shape characteristics of granular materials precisely classified by a shape separator
|
Furuuchi M.; Ohno E.; Gotoh K. |
1990 |
Article |
4 |
93 |
Determination of Particle Shape From Electrical Conductivity of Suspensions
|
Furuuchi M.; Ikeuchi A.; Fukagawa T.; Gotoh K. |
1988 |
Article |
4 |
94 |
Continuous shape separation of binary mixture of granular particles
|
Furuuchi M.; Gotoh K. |
1988 |
Article |
18 |
95 |
Optimal performance of a shape classifier for binary mixtures of granular materials
|
Furuuchi M.; Nakagawa M.; Suzuki M.; Tsuyumine H.; Gotoh K. |
1987 |
Article |
8 |
96 |
Pore size distributions in random assemblies of equal spheres
|
Gotoh K.; Nakagawa M.; Furuuchi M.; Yoshigi A. |
1986 |
Article |
22 |
97 |
Shape classification of granular materials by rotating cylinder with blades
|
Nakagawa M.; Furuuchi M.; Yamahata M.; Gotoh K.; Beddow J. |
1985 |
Article |
16 |
98 |
Natural convection of a heat generating fluid confined in a frozen layer within a horizontal cylinder
|
Mitachi K.; Aoki K.; Kitamura K.; Furuuchi M. |
1985 |
Article |
1 |