ROVworld Subsea Information

MARUM Center Taps Schilling Robotics’ Modular Remote Systems Engine
Date: Friday, November 05, 2004 @ 13:33:52 EST

Schilling Robotics, LLC, the technology and performance leader in subsea equipment, today announced its selection by the MARUM Center for Marine Environmental Sciences, Uni-MARUM Center for Marine Environmental Sciences Taps Schilling Robotics’ Modular Remote Systems Engine™ (RSE) For New Class of Deepwater Drilling System Scientific application has far-reaching implications for Schilling Robotics’ modular design approach in the oil & gas and military markets. versity of Bremen, Germany, to supply major subsystems from its Remote Systems Engine™ (RSE) for a new self-contained, remotely operated, deepwater drilling system called MeBo.

An Affordable Research Aid
“Scientific seafloor exploration faces a host of challenges, from the cost and availability of dedicated drill ships, to the difficulty associated with drilling through tubes that extend from the ship to the seafloor,” commented Dr. Tim Freudenthal, marine geology scientist at the University of Bremen and MeBo program manager. “Using high-performance RSE modules from Schilling Robotics, we are able to develop a more afford-able solution with MeBo. Not only can it be deployed from our standard research vessels, but it gives our teams 100% control over the drilling process and simplifies deepwater exploration.”
Currently in development, MeBo will be used in scientific research projects at depths up to 4000 meters, drilling holes or retrieving core samples up to 50 meters long, and performing in-situ measurements with sensor probes. The drill will be deployed from a research vessel and will be connected to the vessel with an umbilical cable containing power conductors and optical fibers. Sea trials are scheduled for April 2005.
Using MeBo, MARUM will be able to quickly retrieve long sediment cores and drill hard rocks in the deepocean environment. This research will provide valuable information on marine ore deposits, oceanic crust formation, methane storage in gas hydrates on continental slopes, deepwater coral reefs, and sedimentary climate change archives.
MARUM tapped Schilling Robotics for this project due to their success with Schilling’s QUEST 5, an electric WROV delivered to MARUM in 2003 for scientific research. Dr. Gerold Wefer, professor of marine geology and MARUM’s head, commented, “Our 4000-meter workclass ROV from Schilling Robotics proved to be a reliable tool for deep-sea research, intelligent in design, and easy to maintain and operate. The control system’s modular structure is an ideal solution for a wide variety of ap-plications and environments requiring remotely controlled tools and vehicles.”

Hub and DevicesRemote Systems Engine Components
MeBo leverages components from Schilling Robotics’ RSE, a suite of simple, reliable, and powerful equipment and control software modules that can be used to perform generic remote systems functions. The RSE building blocks used in MeBo’s design and development include a device for distributing elec-trical power and signals, the cables and connectors for all instruments and devices, power converters, rotary actuators, video display equipment, and software modules.
“Integrating high-performance components from the RSE in a custom design not only delivered a solution that MARUM believes will greatly aid its investigation of seafloor geology, but also has far-reaching implications for other custom-designed systems in all types of subsea exploration and operations,” said Jason Stanley, Schilling Robotics vice president of sales and marketing, remote systems. “This type of application — one with general-purpose requirements for communication, power conversion, and remote control — is ideally suited for our RSE approach.”

1 November 2004

Schilling Robotics

This article comes from ROVworld Subsea Information

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