Jeżeli do oprogramowania inżynierskiego można podpiąć własne procedury to NVIDIA udostępnia darmowy driver NVCC za pomocą którego można kompilować kod napisany w C. Można to robić z Visual Studio (od wersji 10) pod Windows lub używając gcc pod Linuxem.
Wówczas oprogramowanie optymalizuje się pod posiadaną kartę graficzną. Warto mieć kartę o CUDA capability większym niż 2.0 ze względu na obsługę typu double.Zobacz Komentarze Newsów
Czy ktoś z forum korzysta może z Elmera? Bardzo ciekawi mnie jak to działa. Bo z tego tutka wynika, że jest OK, a tymczasem ja próbowałem... bezskutecznieZobacz Komentarze Newsów
Postów: 651 Miejscowość: Warszawa, PL Data rejestracji: 18.10.07
Dodane dnia 08/17/2009 20:39
New wind energy solution, LMS Virtual.Lab Aerodyn Wind Loads, to be presented at EWEC 2009
Leuven, Belgium r11; LMS, the engineering innovation company, is pleased to announce that it will be participating in EWEC 2009, Europer17;s premier wind energy event. At EWEC 2009, which attracts leading renewable energy experts from around the world, LMS will present several of its dedicated wind energy solutions for wind turbine manufacturers, including the new LMS Virtual.Lab Motion Aerodyn Wind Loads feature found in its latest release, LMS Virtual.Lab Rev 8B.
Unlike other industries, wind turbine developers face some very particular challenges like aero-elastic wind load modeling, automating numerous and varying load runs and comprehensive pre- and post-processing. To solve this previously, users had to rely on specialized third party software outside the LMS Virtual.Lab environment and the related time-consuming data translations and importation, but thanks to this new feature in LMS Virtual.Lab Rev 8B -- LMS Virtual.Lab Motion Aerodyn Wind Loads, users will be able to reliably predict transient dynamic loads and use them as input for subsequent fatigue-life and radiated noise emission calculations r11; all from within the LMS Virtual.Lab environment.
An ideal environment for 3D studies with control system functionality, LMS Virtual.Lab Motion can easily be used to create the blade and its structural flexibility and the wind behavioral traits, incorporating the modeling of any other critical elements in appropriate detail, such as gearboxes, bearings and controls. The wind loads themselves are computed using the Aerodyn subroutine for LMS Virtual.Lab Motion. Numerous pre-processing options are available to help create correctly formatted wind input data and include wind behavior traits ranging from turbulent to constant and even IEC wind standards to validate the wind turbine design. Based on this wind information and the blade orientation and speed during each time step, the LMS Virtual.Lab Aerodyn subroutine takes over, calculating the apparent wind speed on the blades and the precise subsequent wind load for each blade section enabling accurate dynamic simulation studies in LMS Virtual.Lab Motion.
r0;We integrated the Aerodyn functionality used to apply accurate loads on a turbine into our advanced 3D multi-body code to model the entire wind turbine interaction with the wind in a much more scalable way. An easily accessible 3D environment for cross-attribute multi-disciplinary simulations, LMS Virtual.Lab is the only 3D CAE environment that addresses the specific challenges of wind turbine design including precise blade-wind interaction and load cascading thanks to the new Aerodyn Wind Loads feature,r1; concluded Guillaume Lethé, Product Manager, LMS Virtual.Lab Motion.
LMS International will be present at the European Wind Energy Conference and Exhibition (EWEC) in Marseille, France from March 16th - March 19th, 2009. Please feel free to visit our stand #1736 in Hall One.
In addition, LMS will be holding a press conference in the EWEC Press Center on Tuesday, March 17th at 15:00. Our wind energy and testing, simulation and service experts will be available for interviews. For more information regarding this press opportunity at EWEC, please contact: Tom Aerden, LMS Solutions Marketer, on + 32 497 518285.
About LMSr17; Wind Energy Solutions
The growing demand for wind energy has greatly advanced the technologies applied in wind turbine development over the past decade. But engineering new wind turbines remains a complex and challenging task, due to the large physical size, the complex interaction between mechanical and electro-mechanical subsystems, and the strongly varying wind speed.
To certify a new wind turbine, manufacturers must ensure full system reliability under real-life operating condition. Durability must be assessed to provide a 20-year lifetime with low operation and maintenance costs. Noise emissions must remain within prescribed tolerances. On top of that, the control system must guarantee clean voltage at constant frequency. Overcoming these challenges involves extensive engineering efforts from initial concept design to final wind turbine validation and certification.
LMS has worked extensively with wind turbine manufacturers and suppliers to help engineer top-class products. For wind turbine manufactuers, LMS offers an extensive portfolio of simulation tools, testing systems and dedicated services for specific wind energy issues ranging from vibro-acoustic measurements and analysis to fatigue engineering and noise optimization to complete multi-domain system simulations for mastering mechanical, electrical and thermal effects.
About LMS:
LMS is an engineering innovation partner for companies in the automotive, aerospace and other advanced manufacturing industries. With approximately 30 years of experience, LMS helps customers get better products to market faster and turn superior process efficiency into key competitive advantages. With a unique combination of 1D and 3D simulation software, testing systems and engineering services, LMS tunes into mission critical engineering attributes, ranging from system dynamics, structural integrity and sound quality to durability, safety and power consumption. With multi-domain solutions for thermal, fluid dynamics, electrical and mechanical system behavior, LMS can address the complex engineering challenges associated with intelligent system design. Thanks to our technology and dedicated people, LMS has become the partner of choice of more than 5,000 manufacturing companies worldwide. LMS is certified to ISO9001:2000 quality standards and operates through a network of subsidiaries and representatives in keyvlocations around the world.
LMS Press Contacts:
Corporate:
Anne Falier
Tel +32 16 384 200
anne.falier@lmsintl.com
Pozdrawiam,
Admin
We live in an age when pizza gets to your home faster than police or an ambulance
Skocz do Forum:
Reklama
Szukaj
Logowanie
Nie jesteś jeszcze naszym Użytkownikiem? Kilknij TUTAJ żeby się zarejestrować.
Tylko zalogowani mogą dodawać posty w shoutboksie.
Bulix 26.01.2022 Witam, szukam osoby która ogarnia program FEMM.
damian14100 25.01.2022 Witam,
Czy znajduje się na forum osoba która ma doświadczenie w obliczeniach wytrzymałościowych wózków wagonowych ?
BE-FEA 31.03.2021 Nie pracuję w Deform, ale może coś podpowiem na zasadzie analogii do innych programów MES. Napisz jeśli nadal aktualne.
daniel8894 31.03.2021 Czy pomógłby ktoś w zrobieniu symulacji procesu skrawania w Deform 3 d
BE-FEA 09.03.2021 Postaram się pomóc, zapraszam do kontaktu jeśli nadal aktualne.
kinia22 09.03.2021 witam, potrzebuje kogoś kto pomoże w przygotowaniu projektu w programie COMSOL - przeplyw ciepła przez ośrodek porowaty!
BE-FEA 02.04.2020 Przerobiło mi jedną literę na emotkę. Chodzi o przycisk new thread
BE-FEA 02.04.2020 Żeby dodać nowy temat wystarczy wejść w odpowiedni dział i kliknąć mały przycisk "ew thread" po prawej stronie.
KrzywaOHIO 30.03.2020 Jak dodać nowy wątek na forum?
Konrad96 02.12.2019 Witam, czy jest tu ktoś kto dobrze zna się na programie Robot struktural i pomógłby mi zamodelować belkę żelbetową podobną do belki użytej w badaniu? Proszę o kontakt jeśli ktoś chciałby pomóc