Apr 11, 2022 12:06 JST

Source: Mitsubishi Heavy Industries, Ltd.

MHI Completes Development of Second-Generation "EX ROVR" Explosion-Proof Plant Inspection Robot
Market Launch This Month under "ASCENT" Product Name

- Jointly developed with ENEOS, robot will enable realization of safe, human-friendly plant environments
- Efficient inspections and effective data usage contribute to swift, safe resolution of incidents

TOKYO, Apr 11, 2022 - (ACN Newswire) - Mitsubishi Heavy Industries, Ltd. (MHI), working in collaboration with ENEOS Corporation(1), has completed development of a second-generation "EX ROVR," a plant inspection robot with explosion-proof features(2), by utilizing remote maintenance technology for nuclear power plants. Realization of a practically viable model has been achieved after successful verification of the robot's explosion-proof capability, incorporation of a manipulator, development of requisite software, and completion of demonstration testing of the first unit. The new robot will be launched into the market this month under the commercial name "ASCENT".

Second-generation EX ROVR: "ASCENT"
 


The newly completed unit is slated to undergo running tests at an ENEOS site starting in fiscal 2022, to collect data pertaining to the robot's long-term operation and its inspection performance. The collected inspection data will also be effectively used to develop an app capable of early detection of signs of abnormality, to further increase the robot's product value.

The EX ROVR, by performing round-the-clock inspections under potentially explosive atmosphere conditions, makes positive contributions to enhancing worker safety, boosting work efficiency, and improving facility operating rates. The robot's explosion-proof qualification has already been certified both domestically and globally by the International Electrotechnical Commission (IEC)(3) and ATEX certification(4), explosion-proof standards widely adopted in Europe and other regions. These qualifications will enable the EX ROVR's safe usage under Zone 1 combustible gas conditions(5).

The adoption of a 6-DOF(6) explosion-proof manipulator with light-equipped camera enables close-up and front-facing photography, from diverse positions, of complexly arranged plant instrumentation. Measurement of gas density, sound recording, and acquisition of thermal images are also possible. In addition, when used in combination with the online app provided as a standard feature, the operator can perform remote setting and management of inspection schedules and confirmation of inspection data. In the event of an incident occurring in the plant, remote monitoring enables swift identification of on-site conditions, thereby contributing to higher plant inspection efficiency and safe, swift resolution of the incident in question.

Going forward, through proposals of new solutions making use of the Company's explosion-proof robot technologies, MHI will continue to contribute to ever higher safety and productivity in oil refineries and other plants having combustible gas environments.

(1) For details on this collaboration, refer to the following news release: www.mhi.com/news/20091002.html
(2) A robot described as "explosion-proof" is equipped with features that collectively limit the danger of the robot igniting an explosion or fire from its own electric sparks or heat in environments filled with inflammable gas.
(3) The IEC issues "IECEx" certificates that attest to equipment's suitability for use in explosive atmospheres. IECEx certification, which is widely adopted internationally, is based on quality assessment standards set by the IEC.
(4) ATEX certification refers to two directives relating to explosive atmospheres (French: ATmospheres EXplosibles). The directives, which are based on IECEx, stipulate the health and safety requirements, and conformity assessment procedures, that must be met in order to bring to the EU market equipment or protective systems for use in explosive atmospheres. As the ATEX directives and IECEx follow the same standards, there is fundamentally no difference in terms of their technical details.
(5) Zone 1 refers to an area in which an explosive gas atmosphere is likely to occur in normal operation.
(6) DOF: degrees of freedom. The EX ROVR's manipulator end-effector can move in the upward, downward, right, left, forward and rear directions. It can also tilt forward or backward, swing to the left or right, and rotate tilted to the left or right.

For further information, see: www.mhi.com/products/energy/ex_rovr.html

About MHI Group

Mitsubishi Heavy Industries (MHI) Group is one of the world's leading industrial groups, spanning energy, logistics & infrastructure, industrial machinery, aerospace and defense. MHI Group combines cutting-edge technology with deep experience to deliver innovative, integrated solutions that help to realize a carbon neutral world, improve the quality of life and ensure a safer world. For more information, please visit www.mhi.com or follow our insights and stories on spectra.mhi.com.

Source: Mitsubishi Heavy Industries, Ltd.
Sectors: Manufacturing

Copyright ©2024 ACN Newswire. All rights reserved. A division of Asia Corporate News Network.

Related Press Release


Wadaoki Forest at the Mihara Machinery Works Certified as 'Nationally Certified Sustainably Managed Natural Site' by Ministry of the Environment
October 02 2024 14:42 JST
 
Trial Carbon Capture Unit Begins Operating on Blast Furnace at ArcelorMittal Gent, Belgium
May 22 2024 08:24 JST
 
Seven Companies to Conduct Joint Feasability Study on Japanese Advanced CCS (Carbon Capture and Storage) Project
August 02 2023 23:00 JST
 
Mitsubishi Shipbuilding Holds Launch Ceremony in Shimonoseki for Second MRRV for the Philippines Department of Transportation
November 18 2021 16:50 JST
 
HKSAR Chief Executive encourages Japanese companies to leverage opportunities in Guangdong-HK-Macao Greater Bay Area
April 09 2019 19:00 JST
 
Japan International Aerospace Exhibition 2016 to be finally held from Wednesday 12th October
October 11 2016 23:00 JST
 
Japan International Aerospace Exhibition 2016 (JA2016) - Public event program finalized
October 11 2016 23:00 JST
 
Japan International Aerospace Exhibition 2016 (JA2016) - Guidelines for Media Interviews
October 05 2016 09:00 JST
 
Stronger Turbine Blades with Molybdenum Silicides
September 24 2016 20:00 JST
 
Japan International Aerospace Exhibition 2016 (JA2016) Now Available - Advance registration, ticket sales and seminar registration
September 08 2016 19:30 JST
 
More Press release >>

Latest Press Release


More Latest Release >>