Process plants have useful lives of thirty to fifty years, during which time they are routinely retrofitted. Virtual reality (VR) software simplifies and helps keep track of retrofit planning and testing. Now, researchers and a global chemicals company are taking the technology one step further by jointly developing VR solutions for the plant life cycle.
With over 110 000 employees, BASF SE is the world’s largest chemical company. At its headquarters in Ludwigshafen, the company runs over 160 production facilities, two steam crackers, two gas and steam turbine power plants and one sewage treatment plant. Virtual technologies are helping make information and data on every plant on the premises available digitally to planning engineers, process engineers, assembly coordinators, safety experts and asset managers. A virtual copy of a plant displays every possible view, whether in graphics or figures, in drawings or simulations. This expedites and improves the planning and implementation of new plants or additions and retrofits.
Design reviews are an integral part of the planning process – a virtual model for design reviews realistically reproduces every component with the information related to it. The spatial representation makes hidden components or components aligned behind one another easily viewable. “We reviewed the design of a process plant retrofit together with BASF experts,” reports Sabine Szyler, virtual reality specialist at the Fraunhofer Institute for Factory Operation and Automation IFF. “The space in the plant can be determined far more easily. What sounds so obvious is really a giant leap in perception.”
360 degree projection virtually identical to the original
The design was reviewed in the Elbe Dom of the Fraunhofer IFF’s Virtual Development and Training Centre VDTC in Magdeburg. “After all, the six-meter high, 360 degree projection surface projects a level of a plant, which is virtually identical to the original. This gives viewers the sensation of standing directly in the plant,” explains the researcher. The three-dimensional data from BASF’s planning tools, including the meta data of the plant’s individual components, were exported into the Fraunhofer IFF-researchers’ special virtual reality software – the Virtual Development and Training-Platform. This enabled plant operators, plant planners and their colleagues, such as piping contractors, equipment and instrument engineers, steel building contractors or safety supervisors, to view details of the plant faithfully reproduced at full scale in the virtual model and clarify many questions such as whether all of the operating elements are easily accessible or all the safety valves are easily operated during an inspection “we are so impressed by the design review with virtual reality that we have set up two VR stations in Ludwigshafen. That enables our planning teams there to review designs of other plants any time,” says Axel Franke, Senior Engineering Manager at BASF.
A retrofit plant performs differently than before and, in the worst case, incorrect operation could bring all plant operation to a complete standstill. Continuous safety training is therefore a top priority in chemical plant engineering. A virtual interactive learning environment is already being used for training in Ludwigshafen. Fraunhofer experts designed a scenario for the retrofit of a nitric acid plant, which enabled the team of operators to inspect and get acquainted with the plant already before its commissioning. The Fraunhofer experts set up a mobile VR training station directly in the control room. The training module presents the complete 3-D model of the plant. All of the meta data such as serial numbers, temperatures, pressures and media as well as training materials can be viewed. Workers were able to familiarise themselves with its new operation, identify new access points and learn new safety regulations.
The experts from BASF and the Fraunhofer IFF concur that plant engineers will be unable to operate internationally in the future without virtual technologies. BASF is working on intensifying its use of virtual technologies in the future in order to maintain its leadership among chemical plant operators. The Fraunhofer IFF will continue providing conceptual support.