CADE incorporates 3D laser scanning capabilities to generate point clouds and photorealistic models to its extensive portfolio of advanced engineering tools and competences.
As integrated service of the engineering and consulting projects usually conducted by the company, or as a devoted service for industrial equipment data gathering and 3D digitalization, CADE is introducing new 3D laser scanner’s advantages and competences to its regular activities crosswise.
3D laser scanning becomes especially useful when requiring reliable and accurate data gathering. Such information is highly necessary for the integrity evaluation and fitness for service assessment of critical piece of equipment, pipes or systems in services which show defects, degradation (verticality loss, dents, permanent deformations, thickness loss, etc.) or whose original design information is simply not available.
Likewise, in those cases when the objective is to identify and determine possible failure causes in critical assets (breakage, cracks appearance and propagation, plastic deformation, etc.), the accurate and strict physical characterization of these elements becomes strictly required to conduct root cause analysis and research studies by using numerical simulation models.
Having accurate and reliable measurements of an existing asset or equipment is absolutely necessary to fulfill any modification, expansion or upgrade after its original design and construction.
By acquiring a point cloud of the physical asset, it is possible to have an As-Built model completely updated with respect to the engineering documentation of original design (design Vs. construction). In addition, these point clouds allow to analyze and consider possible restrictions and interferences when undertaking new modifications or upgrades on an existing plant.
Listed below are some 3D laser scanner applications integrated by CADE in this type of projects:
Geometric validation of static equipment in workshops (columns, reactors, towers, heat exchangers, etc.), as a verification method before its shipment to the site, is essential to avoid further issues during the final assembly and integration works.
By comparing the point cloud with the 3D CAD models from design phase, an accurate dimensional control is carried out, including the verification of:
Thanks to the results obtained in the dimensional control verification, it is possible to make in the actual workshop any corrections or modifications of geometrical defects, which can also be considered and anticipated in the following phase of assembly on field. Moreover, the property will be able to incorporate CAD models (based on point clouds) to the 3D digital model of the plant, updating final equipment dimensions (As-Built) and ensuring its proper integration with the rest of elements and systems.
For an optimal workflow, CADE makes available an on-line access to the obtained point cloud, which clients can check at any time anywhere, without the need of dedicated harwdware or specific software. This mean eases to review and comment any aspect of the project in real time.
In addition to these services for 3D laser scanning and manufacturing dimensional control, CADE usually develops full engineering and design works for process and heat transfer equipment including process, hydraulic and thermal design, mechanical design, thermo-structural simulation using finite elements (FEM), fluid dynamics simulation (CFD) or manufacturing drawings.
CADE’s deep technical knowledge regarding design and modeling of static equipment in oil&energy industries is highly appreciated by final users, EPC contractors or equipment manufacturers. When undertaking 3D laser scanning and dimensional controls, this is the aspect that distinguish CADE above other traditional companies specialized in metrology or topographic services.