Exhibitors
[1] Japan Aerospace Exploration Agency (JAXA)
Japan Aerospace Exploration Agency (JAXA)

The International Space Station (ISS), which flies about 400 km above the ground, is a special environment that is completely different from the ground, such as microgravity, space radiation, a vast field of view, a high vacuum, and abundant solar energy. It has been 10 years since the Japanese Experiment Module "Kibo" was installed on the ISS, and it has been established as a place for long-term and stable use of the space environment and technology demonstration, and a place (platform) for familiar space use. doing. The "Electrostatic Levitation Furnace" (ELF) installed in "Kibo" has made it possible to create substances and acquire data, which was difficult on the ground. We are also taking on the challenge of new technologies such as measuring the physical properties of melts of refractory materials that take advantage of the fact that substances can be floated without a container. Experiments at Kibo are helping to create new innovations and technologies and enhance the competitiveness of Japanese manufacturing. JAXA accepts requests for high-precision thermophysical property measurement using electrostatic levitation furnaces on the ground and in space. ELF can melt high melting point material which cannot be melted on ground. Then ELF can measure its thermophysical properties like density, surface tension, and viscosity. Please contact us first as some samples cannot be measured.
https://iss.jaxa.jp/en/kiboexp/pm/elf/
| Address | 305-0051 2-1-1 Sengen, Tsukuba-shi, Ibaraki 305-8505 |
|---|---|
| Web site, SNS | https://iss.jaxa.jp/kibouser |
[2] The Institution of Professional engineers, Japan, Nuclear & Radiation Division
The Institution of Professional engineers, Japan, Nuclear & Radiation Division

1. 『技術士』とは
第二次世界大戦後、荒廃した日本の復興に尽力し、世界平和に貢献するため、「社会的責任をもって活動できる権威ある技術者」が必要となり、米国のコンサルティングエンジ二ア制度を参考に「技術士制度」が創設されました。
技術士は、産業経済、社会生活の科学技術に関するほぼ全ての分野をカバーし、先進的な活動から身近な生活にまで関わっています。また、技術士は、国によって科学技術に関する高度な知識と応用能力が認められた技術者で、科学技術の応用面に携わる技術者にとって最も権威のある国家資格です。さらに、技術士は、「技術士法」により高い技術者倫理を備え、継続的な資質向上に努めることが責務となっています。
原子力・放射線部門は2004年に誕生した最も新しい部門です。
技術士は専門的な応用能力を求められつつも、社会の実課題への対応を期待され、一般的な専門家の守備範囲よりもかなり広範な、横断的かつ基盤的な知見が必要とされます。原子力・放射線分野は総合技術であり、安全や倫理への社会的関心も高く、高度な見識とそれを高水準に維持するための継続的研鑽が求められます。その特徴はPEに求められる資質と合致しており、そのことが、部門誕生の理由の一つと考えられます。
2. 技術士(原子力・放射線部門)の理念とビジョン
私たちが考える『プロダクト』とは、社会からの信頼と安全の向上に資する役割を『技術士として』担うことで生まれるものです。
一つは、一般社会に対する社会貢献で、原子力・放射線分野の専門的な知識を有しながら、中立的なレビューを行うことです。但し、中立的とは、業界の代弁者であることはもちろん迎合であってもいけません。個人の倫理観に従い、地球的・歴史的な視点と国民の負担と便益の視点で考えることです。このためには、専門知識に加え社会的な見識も問われます。
もう一つは、原子力・放射線の専門分野に対して、技術士という資格に社会的に期待される自立的な視点でレビューを行うことです。但し、このためには、求められる狭義の専門性も有さねばなりません。
そして、こういった活動を通じて、「技術士」を一つのキーワードとしながら、若い人々に生涯を通じて学び続ける姿勢を見せること「人材育成」を行うことも重要なプロダクトと考えます。
このような思いを有した原子力・放射線部門の技術士とその職能集団である原子力・放射線部会をブランドイメージとして社会から認知して頂くことが私共の目標、将来ビジョンであり、その活動内容をご紹介させていただくものです。
展示内容を通じて、少しでも多くの技術者の方や学生の皆さんに、技術士に関心を持っていただければと考えております。
日本技術士会 原子力・放射線部会 技術士を目指す人のために
日本技術士会 原子力・放射線部会 ポスター
日本技術士会 原子力・放射線部会 パンフレット
日本技術士会 原子力・放射線部会 「技術士を取ろう」パンフレット
日本技術士会 原子力・放射線部会 新技術士講習会資料「活動の概要」
技術士試験・登録情報
| Address | 105-0011 Kikai Shinko Kaikan bldg., 3-5-8, Shibakoen, Minato-ku, Tokyo |
|---|---|
| TEL | 03-3459-1331 |
| FAX | 03-3459-1338 |
| Web site, SNS | https://www.engineer.or.jp/sub09/ |
[3] Japan Atomic Energy Agency
Japan Atomic Energy Agency

PRODAS紹介
PRODAS利用に関するご案内
原子力コードの提供・配付の仕組み
「原子力コード」利用に関するご案内
PRODASは、原子力機構において開発されたコンピュータプログラムおよびデータベース(以下、「プログラム等」)の情報をデータベース化したものです。
外部提供可能なプログラム等については、広く原子力機構外利用者にも提供することにより、開発された原子力機構プログラム等の利用の促進と、成果の普及を図っています。
PRODASをご利用になる場合は、次のURLを指定してください。
https://prodas.jaea.go.jp/
原子力機構プログラム等の利用申込み
検索したプログラム等を利用したい場合は、原子力コードセンター(RIST)からお申し込みください。
http://www.rist.or.jp/nucis/
ただし機構外提供がオープンソースのプログラム等については、それぞれのWebサイトからダウンロードしてご利用ください。
ダウンロード用のWebサイトについては、PRODASのそれぞれプログラム等の情報の中に記載してあります。
| Address | 319-1195 茨城県那珂郡東海村白方2-4 日本原子力研究開発機構 原子力科学研究所内 |
|---|---|
| TEL | 029-282-5931 |
| FAX | 029-284-6070 |
| Web site, SNS | https://prodas.jaea.go.jp/ |
[4] Hitachi-GE Nuclear Energy,Ltd.
Hitachi-GE Nuclear Energy,Ltd.

Hitachi-GE Nuclear Energy, Ltd. has been providing a variety of solutions to the nuclear power plants throughout the overall plant lifecycle: design, development, construction, operation & maintenance, and decommissioning. In addition, based on our BWR development/construction experiences and fuel-cycle technologies, we are developing advanced reactors using international collaborations to reduce capital cost of the nuclear power plant project, reduce high level waste in the fuel cycle, and provide the long-term stable power supply.
We present the Development of the Advanced Reactors in Hitachi using application of innovative technologies.
Research and development/New reactors
| Address | 101-8608 Akihabara Daibiru Building, 18-13, Soto-Kanda 1-chome, Chiyoda-ku, Tokyo |
|---|---|
| TEL | 03-3256-6300 |
| FAX | 03-4564-3305 |
| Web site, SNS | https://www.hitachi-hgne.co.jp/en/index.html |
[5] Fuji Electric Co.,Ltd.
Fuji Electric Co.,Ltd.
SIAL® is a geopolymer used for field of radioactive waste disposal, and it is possible to solidify same way as the solidification of cement. It is able to solidify the spent ion exchange resin, sludge-like waste , incineration ash, oil, concentrated liquid waste which are difficult to solidify by cement. Geopolymer is a general term formed by polycondensation of inorganic aluminosilicate components and it is attracting interest due to the confinement effect of cesium. SIAL® was developed by AllDeco Ltd (currently: Jacobs Nuclear Slovakia s.r.o.) and SIAL® is the first geopolymer applied for radioactive waste disposal in the world. It acquired licence as the solidification material of radioactive waste disposal from Slovakia Nuclear Regulator (UJD SR) in 2003 and Czech Nuclear Regulator (SUJB) in 2006. Fuji Electric is proceeding development of SIAL® application of radioactive waste in Japan and currently conducting solidification of 200 litters drum in the laboratory at Kawasaki. Moreover, Fuji Electric conducted first time in Japan to solidify the actual radioactive waste (filter sludge and spent ion exchange resin) at laboratory of nuclear power plant, and it is already confirmed that it shows well characteristics of Kd and compressive strength as the waste body.
In this exhibition, we would like to introduce introducing the following items:
The process of disposal of radioactive waste and experiences in Slovakia.
The characteristics of SIAL® : working time from viscosity after kneading, the outside and inside temperature of waste body itself, the result of solidification experiments from the nuclear power plant in Japan.
| Address | 210-9530 1-1,Tanabeshinden,Kawasaki-ku,Kawasaki-city 210-9530,Japan |
|---|---|
| TEL | 044-329-2188 |
| FAX | 044-329-2178 |
| Web site, SNS | https://www.fujielectric.com/ |
[6] Health Effects of Radiation: 5 Themes
Health Effects of Radiation: 5 Themes
The Radiation Health Management Division and the National Institute of Radiological Sciences have jointly publicized the English version of the booklet, with cooperation of a group of experts, so that foreign nationals residing in Japan or visiting Japan or those interested in Japan can obtain basic knowledge on health effects of radiation and correctly understand changes in circumstances and efforts being made in Japan. As terms used in this field are highly professional and difficult, we also prepared a glossary. We would like to extend our gratitude to the people who offered cooperation in checking the translation and preparing the glossary.
The booklet is also available on the website of the Ministry of the Environment, from which you can download the content for use in training and classwork. We hope that this booklet will be utilized in diverse occasions.
https://www.env.go.jp/en/chemi/rhm/basic-info/1st/introduction.html
This section introduces the current conditions of radiation doses and the effetc of radiaion on health.
https://www.env.go.jp/en/chemi/rhm/portal/index.html
| Address | 100-8975 Godochosha No. 5, Kasumigaseki 1-2-2, Chiyoda-ku, Tokyo |
|---|---|
| TEL | 03-3581-3351 |
| FAX | 03-3581-3368 |
| Web site, SNS | https://www.env.go.jp/en/chemi/rhm/portal/index.html |
[7] Mitsubishi Heavy Industries, Ltd.
Mitsubishi Heavy Industries, Ltd.

Mitsubishi Heavy Industries(MHI) is working on developing new fields based on the technologies which has developed and acquired from nuclear energy field. In this article, MHI would like to introduce "Me-CAS", clean air shelter for medical use, which has been developed with consideration for the spread of infection of the new corona virus(COVID-19) and has been delivered to medical institutions in Japan. This is the negative-pressure tent for the prevention of infectious diseases, and it uses ventilation and air conditioning technology developed in nuclear energy field and nuclear emergency evacuation shelter technology. MHI would also introduce our approach to the research of "Medical resource management system" which is the application of simulation technology developed for nuclear emergency preparedness in order to support evacuation planning.
Please access the address at the bottom of the MHI exhibition page.
"Me-CAS (Medical Clean Air Shelter)" is a negative pressure tent developed for infectious disease countermeasures based on positive pressure tent "CAS(clean air shelter)" for nuclear emergency deployed by our company affiliate, and by applying subdivision (Zoning) and negative pressure control technology for each zone.
The interior of the tent is divided into an anterior chamber (preparation room), a changing room for protective clothing, and an examination room. Pressure control and air purification can reduce the risk of infection for HCWs during infection test, examinations, and vaccinations.
Unlike general tents, this tent uses a simple air expansion method that does not require the assembly of the frame, so it can be stored compactly in normal times and can be installed quickly when and where necessary.
It has been adopted by several medical institutions.
Click here (Product Introduction in Japanese)
Medical resource management system
MHI has begun to develop the medical resource management system, which took into account of simulation technology acquired in the nuclear energy field, for infectious disease control.
Click here (Technical Introduction in Japanese)
