Finglow Pressure Vessel Software consists of a fully integrated suite of computer programs for use in the design and assessment of pressure vessels and shell and tube heat exchangers in accordance with various international design Codes and Standards, including PD , ASME VIII Div.1 & 2, Stoomwezen, TEMA and . Engineering Software for the Design of Pressure Vessels and Heat Exchangers. Accordance with all the leading international codes of practice, including ASME VIII Divisions 1 & 2, PD , Stoomwezen and EN ; Quality Assurance Management: Proof of verification is supplied as standard with every release. Software Updates. Updates to our software are available. December - Including ASME, PD upto and including Amendment 3 and EN up to and including August amendment. Click here to download (20MB).
FINGLOW HOMESOFTWARECONSULTANCY · Software HomeAbout UsOur ProductsSupportContact Us. ©Copyright , Finglow | Powered by Chronos Interactive. Design Stress Ltd. staff have proven experience and complete knowledge of designing pressure vessels to PD , ASME VIII, BS EN and BS EN . We possess 'unique' specialist design knowledge in internal agitation and transfer systems for inaccessible active vessels. We use Finglow software to aid with. 29 Mar Hi Guys, I've been searching high and low for a copy of Finglow. Does anyone have a copy they would be willing to share? This is a common program in the UK but it seems very difficult to c**k. Does anyone have any ideas? Any help much appreciated. Thanks, Jasmine.
Hi guys, Does any one know where I can acquire Finglow pressure vessel software for an urgent project? Many thanks, Jasmine. All courses offered are designed to help the individual find their way around each of the codes and are supported by worked examples prepared by hand and/or FINGLOW pressure vessel design software. The objective is to give engineers an insight into the code rules such that they can confidently prepare independent. The design, analysis and assessment of pressure vessels and heat exchangers requires an in-depth knowledge of the underlying design codes and an ability to accurately interpret and assess the results obtained from design-by-analysis methods such as finite element analysis (FEA). There are very few engineering.