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1、AVEVA 发布新工厂设计产品 AVEVA E3D编辑:发布时间:2012-10-11 16:31:44“精益建造”将加快项目整体进度,并减少损耗巴黎2012年10月11日电 /美通社/ - AVEVA 今天在巴黎 AVEVA 世界峰会 (AVEVAWorld Summit) 上推出 AVEVA Everything3D (E3D)。AVEVA E3D 将各种技术整合在一起,提出了一项新的愿景,让客户能够在工程、设计和建造等行业使用“精益”工作实践。这将有助于加快项目的整体进度,并减少损耗。作为 AVEVA 一体化工程与设计方案的一部分,AVEVA E3D 将多个重要创新成果融为一体,大大增强
2、了新建工厂设计和全生命周期改造项目。该产品最重要的一点就是将激光扫描数据和三维几何学、强大的绘图工具以及直观的用户界面整合在一起,满足一般常见设计任务的需求。AVEVA 工程设计系统首席技术官兼主管 Dave Wheeldon 表示:“工厂设计解决方案市场日新月异,需要提出一个新的理念。仅仅取得零误差设计已经远远不够。经济实惠型新技术的出现已经让工厂设计的触角切实可行地延伸至供货商、制造商和施工团队等其它利益相关者。”“采用精益理念实现成本节约的一个关键在于随着工程进展远离设计办公室的团队沟通状态和建造信息的能力。”AVEVA 战略与营销高级副总裁 Bruce Douglas 表示:“我们的客
3、户正面临许多挑战。力求获得更多能源和矿产资源的压力将使得工程项目面临更多、更大的技术难题。发达市场工程师人口的老龄化与新兴市场经验的严重匮乏都要求工厂设计软件更易于使用、便于快速培训、能够缩短投产时间。”“此外,商业市场出现了消费市场上的移动和云计算也使得异地工作人员,特别是那些在施工现场的人员能够通过状态更新和激光扫描数据将重要的完工资料反馈给设计团队。这有助于迅速且具有成本效益地采取纠正措施,最大程度地保证施工质量,同时确保工程项目进度。”AVEVA E3D 将包括:工厂设计系统,包含工程和原理图等专业三维建模功能,通过结合最优质的三维图形和激光扫描点云展现“真实世界”完全自动化的二维绘图
4、能力,并与三维模型全面集成设计过程中与其它设计系统完全协同工作采用的架构支持项目重用与模块化设计,另外还支持与云/移动基础设施的集成支持与时下行业领先的系统 AVEVA PDMS 同时操作AVEVA E3D 将于2012年12月中旬面市。AVEVA Everything3D -Plant Design for Lean ConstructionAVEVA s vision for plant design is to create a new product calledAVEVA Everything3D (E3D) that exploits technology innovationsi
5、n mobile computing, cloud computing and laser scanning toenable Lean Construction in plant project execution.AVEVA E3D is the core design application withinAVEVA Plant. It is fully interoperable with all other AVEVA Engineer, Design and Manageproducts. AVEVA Plant, AVEVAs Integrated Engineering and
6、Design system, is abreakthrough in plant engineering and design efficiency. By integrating engineering data,schematics data and 3D design data into one managed plant model, it avoids costly anddamaging inconsistencies.With AVEVA Plant, critical information is efficiently shared between disciplines a
7、ndAVEVA Everything3D 2012/11/23名师资料总结 - - -精品资料欢迎下载 - - - - - - - - - - - - - - - - - - 名师精心整理 - - - - - - - 第 1 页,共 7 页 - - - - - - - - - Key featuresDownload Brochureacross teams. This simplifies the process and improves project schedule and quality.Multi-discipline 3Dplant designmodelThe multi-di
8、scipline 3D plant design model is created and modified with aseries of discipline specific applications optimised for efficient modeling in therelevant discipline.Laserscanningintegrated inmodelingFusing 3D design models with high definition laser scanning of the real world toprovide an environment
9、for designers to design parts ensuring correctconnectivity with and non-interference with existing installed parts in the plant.Fusing Real World and 3D Designs, Laser Data for Dimensional Control andLaser Data for Dimensional Control3D graphicsoptimised forplant designmodellingThe 3D graphics conve
10、y a heighten sense of spatial information to thedesigner with the use of “light ”, “shade” and “edge”. Styling for 3D DesignersEasy to useGUIAn interface with functions that are easy to find and obvious to use according tothe Microsoft Fluent UI. Intuitive User Interface2D and 3DgeometryinterfacesAl
11、l the 2D and 3D geometry interfaces needed to collaborate with projectpartners such as equipment vendors and subcontractors on a typical plantproject.Draftingintegratedwith themodelA drafting directly integrated to the model for efficient first time drafting anddrafting of later design changes. Inte
12、grated 2D and 3D Deliverables for EfficientDesignDesignCheckingA standard design checking capability with customisable design checking rulesthat can be extended by customers. Customisable Design CheckerHighperformancein largenetworksPerformance tuned to operate on networks with datacentres or WAN ty
13、penetworks where the latency is high.Multi-disciplineand multi-usercollaborationCapability to seamlessly manage the data in a project with many concurrentusers in many different disciplines.Built-in datamanagementAccess Control and Status functions that ensure that each designer and has thecorrect a
14、ccess to project information.Integration of3D data withengineeringandschematicdataDirect access to engineering information and P&IDs. This allows designers tomake use of engineering and schematic information when building their 3Dmodel and also allows the designer to compare their 3D design model an
15、d therelevant engineering and schematic data to ensure consistency in the overalldesign. Integration of Engineering, Schematic and 3D ModelLocalcustomizationTools that allow the customer to independently customise the behaviour of theproduct and make automated functions for competitive advantage.Par
16、allelrunning withPDMS,EngineeringandDiagramsCapability to run in parallel with the latest version of PDMS, Engineering andDiagrams on the same project data.Laser Data for Dimensional ControlSeptember 14, 2012Construction of both offshore and onshore structures requires the coordination ofmultiple fa
17、brication contractors, each responsible for producing components to aspecific tolerance. The challenge for the project team is to manage the accumulationof the variations between the nominal design dimensions and the as-fabricateddimensions.The costs associated with resolving poorly fitting structur
18、es is exponential; errors andmisalignments identified in the fabrication facility are considerably cheaper to resolve thanthose identified at point of installation. Site delays caused by unforeseen dimensionalmisalignments have a subsequent knock on effect, delaying other activity and sometimesaffec
19、ting the build sequence. Safety risks are a concern too, where modules or pre-fabricatedunits may be crane-lifted and suspended for long durations as reworks are applied.Minimising delays and having a vision for first time installation on site are a key contributorto reducing costs and risk during c
20、onstruction.The Future of Plant DesignThe industry will see more applications of laser scanning to both brownfield and greenfieldprojects. As laser vendors compete for business their hardware products are becoming moreaccurate, more user friendly and more affordable. Justifying the use of this techn
21、ology to createan as-built data model of the site has now become much easier.Dimensional control is recognised asan important discipline to help track and make adjustments to fabricated parts and siteconditions to ensure first-time match up. Time-consuming survey work may now be replaced byrapid las
22、er scan data capture which can be completed in less than five minutes per station.This activity however, is not limited to the site, as many organisations employ scanning in thefabrication facility for checking conformance to specification, standards and acceptancecriteria.In order to help maximise
23、the new benefits of dimensional control we have created anenvironment where the laser data and 3D geometry data can co-exist. As-built and as-designed data can be visualised together to help designer, fabricator and site engineer toidentify and resolve dimensional issues as quickly as possible.The b
24、enefits of this approach are:accurate tie point information to aid first-time fitclash-free routing of new piping and structural systemsmaximisedutilisation of teams through concurrent execution of scan and issue resolutionoptimised prefabrication of replacement parts reducing project delays.Additio
25、nal to visual inspection, and comparison of the real-world conditions with the designconditions, is the ability to precisely measure the accumulated discrepancies. Accurate real-AVEVA Everything3D 2012/11/23名师资料总结 - - -精品资料欢迎下载 - - - - - - - - - - - - - - - - - - 名师精心整理 - - - - - - - 第 2 页,共 7 页 - -
26、 - - - - - - - time laser scanning will become common practice during construction to monitor the sitestatus, measure deflections, measure volumes for earthworks and capture concrete pours anarea that the nuclear industry is already pioneering.The Future of Plant Design introduces a new level of pla
27、nt design using proven and reliabletechnology to deliver the most integrated approach to laser and 3D data, helping to reduce thesafety risk and minimise the time to resolve dimensional control issues in fabrication and onsite.Fusing Real World and 3D DesignsJuly 6, 2012Computing technology has tran
28、sformed the design of new plants. But retrofits andupgrades of existing plant, or upgrades and conversion of vessels such as FPSOprojects have, until recently, relied on error-prone manual surveys; not always easyand, in many locations, hazardous to perform.All this has changed with the availability
29、 of affordable laser scanning technology for plantdesign to capture the exact shape and dimensions of the as-built plant as a starting point for arevamp project. Laser scans of the brownfield environment have become easier to justify andquick to perform but, until now, have been hard to take advanta
30、ge of.The Future of Plant DesignAVEVA is defining the future of plant design, fusing 3D design models with high-definitionlaser scanning of the real world, to bring massive benefits and transform the way you handlemodifications for brownfield plants. For revamp projects a key consideration is to max
31、imise thebenefits of laser scanning for improving the project efficiency. Our new product has beendesigned to provide real world and 3D design into the same visualisation.These benefits include:Less commercial risk The most demanding brownfield projects can be tackled withmaximum confidence in the e
32、xisting brownfield data.Quicker projects Integration of site scanned data with 3D data eliminatesunnecessary modelling of existing plant elements, allowing overall design time to bereduced by up to 10%.Higher quality Accurate, high-definition surveying allows true to as-built designleading to less r
33、ework on site when fitting new parts.Less cost, less downtime Accurate design means less onsite fabrication, lowerinstallation cost and less down time.We have focused on the most important capabilities needed to take advantage of laser scandata for improving brownfield design efficiency: dimensional
34、 control for pre-fabricated units,measurement tools to analyse differences between as-built and as-designed, and simple, clearvisualisations of the laser and 3D data overlaid. The future of plant design will deliver thecapabilities below:Align laser models of unlimited size to the plant model by sel
35、ecting tie-in points.Display and interact with the laser data in both point cloud and Bubble View format.Accurately measure discrepancies between as-designed and as-built models.Accurately position and clash check new design against existing plant.Supporting our open approach to information this new
36、 plant design product will allow users toselect a laser scanning system best suited to their needs. We will support data from thefollowing systems:FAROLeica Geosystems HDSRieglTrimble DimensionsZ+FAs we look to the future of plant design, existing laser scan surveys and those conducted inthe future
37、can now be exploited more readily to reduce rework and produce higher qualitydesign for brownfield modification projects.The first product previews will be at the AVEVA World Summit, in Paris, on October 10th 12th. Live demonstrations and sneak previews will reveal more about the capabilities of the
38、new product.Styling 3D for DesignersAugust 3, 2012A lot has changed since AVEVA introduced the concept of 3D model visualisation ona computer screen. Today, we are all constantly receiving information which has beenrendered on screen using 3D models. The most recognisable proponents of thistechnolog
39、y have been the entertainment industry, where modern video games andmovies depict scenes of almost complete reality to help us enjoy the story. In order totell these stories, the entertainment industry relies on being able to evoke in us asense of the reality of the scene. Modelling technologies to
40、simulate lighting, smoke,hair, fluid, physics and material effects have all emerged which, when overlaid ontothe 3D model, create this enjoyable realism.It would be logical then to assume that these technologies should be provided to plantdesigners, giving them a more realistic experience of plant d
41、esign. In fact, though what we wantfrom our designers is efficiency; designing a plant is not story-telling. We are not looking toevoke an emotional reaction, we are looking for accurate, compliant and safe design.The common element is the 3D model itself, and the placement of 3D objects relative to
42、 eachother and in an engineering context.AVEVA Everything3D 2012/11/23名师资料总结 - - -精品资料欢迎下载 - - - - - - - - - - - - - - - - - - 名师精心整理 - - - - - - - 第 3 页,共 7 页 - - - - - - - - - In plant design, AVEVA categorises 3D models into two distinct areas:Emersion, realisation, simulation Where review teams
43、wish to walk the model, beingprovided with as much realism as possible to get a clear picture of their designs; whereoperators are able to simulate the physical asset to perform training and familiarisationtasks; and for constructors who need to visualise build sequences and site logistics. Thisis t
44、he consumer.Model building, editing, visualisation Where designers wish to create 3D models ofthe design, being able to check clashing, easily visualise objects in relation to each otherand have intuitive handles and editing methods to navigate, modify, move, align androtate objects. This is the cre
45、ator.So our assumptions about using realistic graphics are based around our role as consumers.As creators, the needs are very different; working on model creation ten hours a day requires adifferent style for 3D rendition. Movie makers do not create their models in full reality renditionmode; they a
46、pply a simplified visualisation to improve performance and help the animators tocontrol and create the character and scenes in the most efficient manner.For over three decades AVEVA has led the industry in the adoption of 3D technology for plantdesign. AVEVA introduced the first high-performance vis
47、ualisation tools for model review,followed by REVIEW REALITY which set unmatched standards in performance and realism forplant design.AVEVA s PDMS product was the first to introduce practical 3D graphics for plant designers,allowing every discipline to work in full-colour, shaded graphics.As time ha
48、s moved on, 3D graphics hardware has become a feature of almost everydesktop, laptop and mobile computing device including the majority of smartphones. AsAVEVA plans ahead we envisage a number of major steps forward in the exploitation of 3Dtechnologies. We have already discussed the incorporation o
49、f intelligent laser point cloud datain Fusing Real World and 3D Designs, and here we discuss the first stage of reimagining therole of 3D graphics.The Future of Plant Design We know that creating a 3D model for a plant is a costly, highly skilled and mission-critical taskfor our customers to complet
50、e, and with this in mind we focussed on helping designers to bemore accurate and more efficient in their work.The main function of the 3D model in design is to assist the designer in making the best useof space and materials, working collaboratively with other team members and differentdisciplines.