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  2. Learn what market trends are driving simulation investments in the energy & power industries. Fulfilling the demand for global energy requires disruptive technologies, sustainable development, environmental stewardship, compliance with regulations and cost management. To meet these demands, best-in-class companies in the energy & power industry are investing in a broad portfolio of engineering simulation tools. When compared to other companies, these investments make them better at:Meeting product launch dates Decreasing development time Increasing engineering productivity by increasing ROI and TCO of engineering simulation software Request Free! View the full article
  3. Learn what market trends are driving simulation investments in the high-tech industry and the benefits of doing so. As the complexity of smart products is growing, best-in-class high-tech companies are adopting engineering simulation platforms. Research shows that simulation platform users are better able to:decrease development time to meet product launch dates improve engineering productivity improve quality of engineering design and analysis Find out more about the simulation investments best-in-class high-tech companies are making to accelerate innovation. Request Free! View the full article
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  5. GPUs can provide thousands of cores, offering a superior solution or CAE. If you have computationally intensive simulations, GPUs can offer you a much faster path to solving. This short guide describes: How GPUs work with CPUs to speed CAE calculations How major software solutions have been optimized to run with NVIDIA GPUs Examples of speed increases for Abaqus FEA and ANSYS Request Free! View the full article
  6. “It was imperative for stakeholders to see our proposals in a meaningful and impactful way…. We quickly realized that Virtual Reality was the way to go.” – Dan Stine, BIM Administrator, LHB In this 5 page case study you will learn how LHB: Used VR to help users spot potential issues before construction Demonstrate the aesthetics of their proposals Managed the complexity of multiple software (eg AutoCAD Civil 3D and Revit) and hardware (HTC Vive and Oculus) platforms Request Free! View the full article
  7. It can be a subtle thing - perhaps just a shadow that shouldn’t be there. Even a small rendering error can add weeks to your development cycle if your team can’t see a flaw until the first prototype arrives. Physically-based rendering is designed to ensure that renderings conform to the laws of physics in both appearance and actual behavior by accurately modeling the materials. This 17-page white paper includes examples of real products rendered traditionally versus physically based renderings. You will learn how physically-based rendering can be used to: Detect potential design errors Reduce the need for design iteration Speed up time to market Request Free! View the full article
  8. After winning new business, the task of delivering to commitment falls to engineering. Small and medium size aerospace suppliers strive to meet program requirements and deliver to milestones. Engineering excellence supports lean engineering for reducing waste and improving business performance. Part of the Engineered to Fly Industry Solution Experience, the CATIA application offers powerful new capabilities that drive engineering excellence. Watch the Webinar Series! Request Free! View the full article
  9. Businesses are finding that AM can be used to fabricate manufacturing tools, such as jigs, fixtures, gauges, organizational aids and other devices, in an automated manner that reduces expenses and labor, while improving delivery times. Examining owners of AM equipment that use this technology to produce jigs, fixtures and other tools found that industrial 3D printers can pay for themselves much more quickly than previously thought. In this 10-page white paper, you will learn how 3D printing and additive manufacturing can be used: For batch manufacturing of circuit board masking elements To produce hundreds of inspection fixtures To make tool holders for quick changeover during manufacturing Reduce costs and time to market Request Free! View the full article
  10. These professionals are already keenly aware of how the technology can be used to quickly, easily and cost-effectively produce models, prototypes and patterns during the product development process. Convincing management, however, can be another story. More often than not, companies see prototyping as an expense, rather than an investment. This means there may be no budget to allow for purchasing a 3D printer. Without proper justification, a 3D printer purchase can be portrayed as negatively impacting a company’s bottom line. Therefore, the tangible financial benefits of investment in a 3D printer must be successfully laid out to management if a purchase is to be justified. In this 18-page white paper, you will learn about the following as they relate to 3D printer purchases: Justification strategies Building financial justification Real-world examples of successful 3D printer purchases and applications Request Free! View the full article
  11. Read our eBook to learn how log management helps you run better in the AWS Cloud; see how Loggly works with AWS to reduce downtime and detect errors. Cut MTTR with log analytics on the AWS Cloud. Today, effective log analysis is more important and more difficult than ever. Cloud infrastructure has spawned an exponential increase in log volume and complexity, making log data big data. This is why you need a solid log strategy. Learn how AWS customers have found a path to success. Request Free! View the full article
  12. Which Books are best for Civil PE Exam?

    Hello Engineers, I am intending to attend Civil Engineering PE Exam next year. All I want to know about the best books for Civil PE Exam. I searched on google and found some names on the useful books. I found the following text by searching the internet: http://bookscivil.com/books-ncees-civil-engineering-pe-exam/ please suggest me that these books are enough to pass civil engineering PE Exam or not?
  13. Among the available solutions is PTC Creo, a suite of CAD tools that may be useful in many applications. In this 12-page whitepaper you will learn seven different features of Creo: Creo Parametric for parts and assemblies Creo Sketch for 2D design prep work Making late stage design changes Creating freeform geometries Working across multiple CAD environments Learning new skills with PTC University Mixing and matching Creo solutions Request Free! View the full article
  14. Model-based definition (MBD) is now seen as a key method for tackling the challenges of constantly evolving product development, while also streamlining the overall design and production process. By incorporating a 3D model and the associated data that fully defines a product, MBD can be used to effectively communicate all of the necessary information to all downstream customers, without the need for 2D drawings. By creating a collaborative environment that shares the validated and authorized MBD data across a business, a company can become a model-based enterprise (MBE). In this 12-page eBook, you will learn: The key business drivers for MBD/MBE The challenges and risks for MBD/MBE The business case for MBD How to eliminate inaccuracies and reduce errors How to reduce costs and improve product quality Request Free! View the full article
  15. This makes it possible to verify fit and function quickly before creating 2D documentation directly from the 3D models. Given the variety of tools on the market, it’s not always easy to find CAD software that offers great technical capabilities with a reasonable cost of ownership. It’s possible that you’re already working with low-productivity software, or a number of different CAD solutions, but there may be an option to find something more efficient that is tailored to your business. In this 21-page whitepaper you will learn how to: Determine your need for 3D CAD software Compare & evaluate 3D CAD software What to expect from 3D CAD software, including average cost and what capabilities should be included Request Free! View the full article
  16. Simplify your vendor evaluation with the Gartner 2017 Magic Quadrant for Solid-State Arrays. Download the report to learn:The flash storage futures market overview Gartner’s evaluation of vision, strengths and cautions for each vendor Why Pure Storage was named a LEADER Request Free! View the full article
  17. Fiber optic cabling is often required when extending industrial networks to monitor or control remote assets where distance, environmental factors or signal speed requirements preclude the use of copper cable or wireless solutions. Incorporating fiber optic cabling introduces additional project complexity and risk compared to a copper cable-only network. Legacy communication protocols and limited equipment choices can make the task especially challenging. They face important decisions to ensure control objectives are achieved using fiber optic cable. Three primary areas must be addressed to define the ideal solution: Network Analysis and Design Set-up and Installation Operations and Maintenance Control engineers must analyze these three areas to ensure control requirements are met cost-effectively and reliably so the risk of downtime is minimized. Important parameters to consider in each of these areas are addressed below. Request Free! View the full article
  18. While smaller Industrial Equipment Manufacturers may be able to control, access, and share product data with relatively simple Product Data Management (PDM) tools, larger Industrial Equipment Manufacturers rely on full-featured PLM systems that help automate processes and share data across global supply chains. Industrial Equipment Manufacturer companies may find themselves in-between because:Product and organizational complexity drive them beyond basic PDM capabilities A full-featured PLM implementation may feel out of reach They need to choose a system that quickly delivers the core capabilities they need to streamline product development but also gives them room to grow value over time. What’s the right size PLM to fit an Industrial Equipment Manufacturer? Let’s take a look. Request Free! View the full article
  19. GPS World Industry leaders look to GPS World for continuous innovation in delivery of the freshest, most comprehensive GPS/GNSS-related news to high-level corporate managers, project and engineering managers, product designers, researchers, and system developers. Request Free! View the full article
  20. Innovation is the engine that drives the medical device industry. Bringing new ideas to market will require a quality management strategy that keeps compliance requirements in check. In this webinar, “Accelerating Medical Device Innovation: Shifting From Compliance to Quality” Axendia President and Co-Founder Daniel R. Matlis, along with other panelists, show you:Why compliance should be a by-product of quality How to harmonize a quality management strategy that takes legal compliance into account Why ensuring data transparency and stakeholder engagement is critical to both quality control and regulatory compliance Don’t let regulations hamper innovation. Learn about how quality assurance can work for you rather than be just an afterthought. Request Free! View the full article
  21. To be successful, medical device companies continually need to produce innovative products that are clinically and economically relevant. In an effort to accelerate the delivery of innovative, safe, and fully compliant medical devices, companies:Strive to provide additional solutions to enhance the patient experience and address patient unmet needs Reduce both time-to-market and development costs Increase outsourcing and externalization When certain issues hinder innovation, it’s crucial to understand the type of solution that promotes collaborating to accelerate design and meet long-term business goals. Uncover how teams can focus on quality, accelerate innovation, and improve operational efficiency while ensuring global regulatory compliance. Request Free! View the full article
  22. Product Lifecycle Management (PLM) software can help. It drives better product development performance by managing product-related data, processes and projects. While smaller companies may be able to control, access and share product data with relatively simple Product Data Management (PDM) tools, larger manufacturers rely on full featured PLM systems that help automate processes and share data across global Aerospace and Aviation companies. Request Free! View the full article
  23. Take a deep dive into the minds of the 1,500 U.S. industrial products buyers we surveyed for the third Industrial Buying Dynamics study. The study examines the major forces shaping industrial distribution today.Rising (and Changing) ThreatsIt’s no secret—people’s buying behaviors and preferences are rapidly changing. In this year’s study, we’ve seen important shifts in the influence of mobile e-commerce and the perception of e-marketplaces. Addressing Buyer Needs by Product TypeThis year’s study includes new questions that detail buyers’ needs and preferences based on the types of products they’re purchasing. Optimizing the Buyer ExperienceBuyers continue to demand a user-friendly customer experience across multiple sales and service channels, but a new generation of buyers are poised to demand new and higher expectations. The Potential of Post-sales Service as a DifferentiatorPost-sales capabilities can provide a crucial point of differentiation for distributors. From solid return solutions to additive manufacturing, explore new ways to stand out. Request Free! View the full article
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    *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor State of the Art - Novel InFlow Tech - Featured Project Development; |/ *1; Gearturbine Project, Rotary Turbo, Have the similar basic system of the Aeolipilie Heron Steam Turbine device from Alexandria 10-70 AD · With Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Way Power Type - Non Waste Looses · 8X/Y Thermodynamic CYCLE Way Steps. 4 Turbos, Higher efficient percent. No blade erosion by sand & very low heat target signature Pat:197187IMPI MX Dic1991 Atypical Motor Engine Type. |/ *2; Imploturbocompressor; Implo-Ducted, One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion / New Concept. To see a Imploturbocompressor animation, is possible on a simple way, just to check an Hurricane Satellite view, and is the same implo inflow way nature.
  25. Featured Project Development - State of the Art Novel InFlowTech; 1Gearturbine RotaryTurbo 2Imploturbocompressor One Compression Step: *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor *1-GEARTURBINE BEHANCE Images Gallery Portafolio *1-GEARTURBINE PROJECT Rotary-Turbo-InFlow Tech Atypical InFlow Thermodynamic Technology Proposal Submission Novel Fueled Motor Engine Type State of the art Innovative concept Top system Higher efficient percent.*Power by bar, for Air-Planes, Sea-Boats, Land-Transport & Dynamic Power-Plant Generation. -Have similar system of the Aeolipile Heron Steam device from Alexandria 10-70 AD. -New Form-Function Motor-Engine Device. Next Step, Epic Design Change, Broken-Seal Revelation. -Desirable Power-Plant Innovation. YouTube; * Atypical New • GEARTURBINE / Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Thrust Way Type - Non Waste Looses -This innovative concept consists of hull and core where are held all 8 Steps of the work-flow which make the concept functional. The core has several gears and turbines which are responsible for these 8 steps (5 of them are dedicated to the turbo stages). The first step is fuel compression, followed by 2 cold turbo levels. The fourth step is where the fuel starts burning – combustion stage, which creates thrust for the next, 5th step – thrust step, which provides power to the planetary gears and turbines and moves the system. This step is followed by two hot turbo steps and the circle is enclosed by the final 8th step – bigger turbine. All this motion in a retrodynamic circumstance effect, wich is plus higher RPM speed by self motion. The Reaction at front of the action. 8-X/Y Thermodynamic CYCLE - Way Steps: 1)1-Compression / bigger 2)2-Turbo 1 cold 3)2-Turbo 2 cold 4)2-Combustion - circular motion flames / opposites 5)2-Thrust - single turbo & planetary gears / ying yang 6)2-Turbo 2 hot 7)2-Turbo 1 hot 8)1-Turbine / bigger -With Retrodynamic Dextrogiro vs Levogiro Phenomenon Effect. / Rotor-RPM VS InFlow / front to front; "Collision-Interaction Type" - inflow vs blades-gear-move. Technical unique dynamic innovative motion mode. [Retrodynamic Reaction = When the inflow have more velocity the rotor have more RPM Acceleration, with high (XY Position) Momentum] Which the internal flow (and rotor) duplicate its speed, when activated being in a rotor (and inflow) with [inverse] opposite Turns. The Reaction at front of the action. A very strong Novel torque power concept. -Non waste parasitic looses for; friction, cooling, lubrication & combustion. -Shape-Mass + Rotary-Motion = Inertia-Dynamic / Form-Function Wide [Flat] Cylindrical shape + positive dynamic rotary mass = continue Inertia positive tendency motion. Kinetic Rotating Mass. Tendency of matter to continue to move. Like a Free-Wheel. -Combustion 2Two continue circular [Rockets] flames. [ying yang] opposite one to the other. – With 2TWO very long distance INFLOW [inside propulsion] CONDUITS. -4 TURBOS Rotary Total Thrust-Power Regeneration Power System. -Mechanical direct 2two [Small] Planetary Gears at polar position. -Like the Ying Yang Symbol/Concept. -The Mechanical Gear Power Thrust Point Wide out the Rotor circumference were have much more lever [HIGH Torque] POWER THRUST. -No blade erosion by sand & very low heat target signature profile. -3 points of power thrust; 1-flow way, 2-gear, 3-turbine. *Patent; Dic. 1991 IMPI Mexico #197187 All Rights Reserved. Carlos Barrera. *2-IMPLOTURBOCOMPRESSOR BEHANCE Images Gallery Portafolio *2-IMPLOTURBOCOMPRESSOR; One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion Concept. ·“Excellence in Design" because is only one moving part. Only one unique compression step. Inflow and out flow at the same one system, This invention by its nature a logic and simple conception in the dynamics flow mechanics area. The invention is a wing made of one piece in a rotating motion, contained in a pair cavity system connected by implocavity, and interacting dynamically with a flow, that passes internally "Imploded" through its simple mechanism. This flow can be gas (air) or liquid (water). And have two different applications, in two different form-function; this one can be received (using the dynamic flow passage, as a receiver). Or it can be generated (with a power plant, generating a propulsion). An example cut be, as a Bike needs a chain to work from motor to wheel. And for the Imploturbocompressor application, cut be as; in a circumstance at the engine, as an A-activate flow, and with a a tube flow conduit going to the wheel as a B-receiving-flow the work use. To see a Imploturbocompressor animation, is posible on a simple way, just to check the Hurricane Satellite view, and is the same implo inflow way nature. And when the flow that is received and that is intended to be used at best, must no necessarily by a exhausting or rejection gas, but must be a dynamic passing gas or liquid flow with the only intention to count it or to measure it. This could be possible at the passing and interacting period when it passes inside its simple mechanism. This can be in any point of the work flow trajectory. In case the flow that is received is a water falling by gravity, and a dynamo is placed on the rotary bar, the Imploturbocompressor can profit an be obtained by generating? electricity such as obtained by the pelton well, like I say before. The "Imploturbocompressor", is a good option to pump water, or a gas flow, and all kinds of pipes lines dynamic moves. Or only receive the air-liquid flow, in order to measure its passage with a counter placed on the bar, because when this flow passes through the simple mechanism of a rotating wing made of only one piece it interacts within the implocavities system. And this flow can be air wind, with the difference of can have an horizontal work position, and that particle technical circumstances make an easy way for urban building work new use application, and have wind flow from all the sides 180 grades view. The aforementioned information about this invention refers to technical applications, such as a dynamic flow receiver. (whether being gas or liquid). With the appropriate power plant and the appropriate dimensioning and number of RPM this invention is also feasible to generate an atmospheric air propulsion and the auto-propulsion of an aircraft. Being an effective and very simple system that implodes and compresses the atmospheric air permits the creation of a new concept of propulsion for aircrafts, due to its simple mechanism and innovative nature. At the place of the aircraft were the system appears and the manner how the propulsion direction can be oriented with a vectorial flow (no lobster tail) with I call "yo-yo system" (middle cut (at the shell) to move, one side loose), guided and balanced is feasible to create a new concept of TOVL-vertical take-off landing, Because the exhaust propulsion can going out radial in all the 360 vectorial positions, going out direct all the time in all the vectors direction. With his rotor cover for an better furtive fly, like going down of a bridge for example. Likewise, with the due form and dimensioning, and considering the liquid density and the due revolutions for this element there could be generated a propulsion (water) in order to move an aquatic ship, whether on surface or under water. Also can be a good option to pump liquid combustion for a rocket propulsion. Making a metaphoric comparison with the intention to expose it more clearly for a better comprehension of this innovative technical detail, it would be similar to the trajectory and motion of a dynamic flow compared with a rope (extended) that passes through the system would have now a knot (without obstructing the flow), so the complete way of the flow at the imploturbocompresor system have three direct ways and between make two different turns; direct way (entrance) - turn - direct way (implocavity) - turn - direct way (exit), all this in a 1 simple circular move system concept. Its prudent to mention that the curves and the inclinations of the blades of a rotating wing made of this invention, is conferred by its shape and function a structural rigidity allowing it to conduct and alter appropriately the dynamic flow passing through its system.
  26. Featured Project Development - State of the Art Novel InFlowTech; *1-Gearturbine RotaryTurbo, *2-Imploturbocompressor One Compression Step: *Wordpress Blog State of the Art Novel InFlow Gearturbine Imploturbocompressor *1-GEARTURBINE BEHANCE Images Gallery Portafolio *1-GEARTURBINE PROJECT Rotary-Turbo-InFlow Tech Atypical InFlow Thermodynamic Technology Proposal Submission Novel Fueled Motor Engine Type State of the art Innovative concept Top system Higher efficient percent.*Power by bar, for Air-Planes, Sea-Boats, Land-Transport & Dynamic Power-Plant Generation. -Have similar system of the Aeolipile Heron Steam device from Alexandria 10-70 AD. -New Form-Function Motor-Engine Device. Next Step, Epic Design Change, Broken-Seal Revelation. -Desirable Power-Plant Innovation. YouTube; * Atypical New • GEARTURBINE / Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Thrust Way Type - Non Waste Looses -This innovative concept consists of hull and core where are held all 8 Steps of the work-flow which make the concept functional. The core has several gears and turbines which are responsible for these 8 steps (5 of them are dedicated to the turbo stages). The first step is fuel compression, followed by 2 cold turbo levels. The fourth step is where the fuel starts burning – combustion stage, which creates thrust for the next, 5th step – thrust step, which provides power to the planetary gears and turbines and moves the system. This step is followed by two hot turbo steps and the circle is enclosed by the final 8th step – bigger turbine. All this motion in a retrodynamic circumstance effect, wich is plus higher RPM speed by self motion. The Reaction at front of the action. 8-X/Y Thermodynamic CYCLE - Way Steps: 1)1-Compression / bigger 2)2-Turbo 1 cold 3)2-Turbo 2 cold 4)2-Combustion - circular motion flames / opposites 5)2-Thrust - single turbo & planetary gears / ying yang 6)2-Turbo 2 hot 7)2-Turbo 1 hot 8)1-Turbine / bigger -With Retrodynamic Dextrogiro vs Levogiro Phenomenon Effect. / Rotor-RPM VS InFlow / front to front; "Collision-Interaction Type" - inflow vs blades-gear-move. Technical unique dynamic innovative motion mode. [Retrodynamic Reaction = When the inflow have more velocity the rotor have more RPM Acceleration, with high (XY Position) Momentum] Which the internal flow (and rotor) duplicate its speed, when activated being in a rotor (and inflow) with [inverse] opposite Turns. The Reaction at front of the action. A very strong Novel torque power concept. -Non waste parasitic looses for; friction, cooling, lubrication & combustion. -Shape-Mass + Rotary-Motion = Inertia-Dynamic / Form-Function Wide [Flat] Cylindrical shape + positive dynamic rotary mass = continue Inertia positive tendency motion. Kinetic Rotating Mass. Tendency of matter to continue to move. Like a Free-Wheel. -Combustion 2Two continue circular [Rockets] flames. [ying yang] opposite one to the other. – With 2TWO very long distance INFLOW [inside propulsion] CONDUITS. -4 TURBOS Rotary Total Thrust-Power Regeneration Power System. -Mechanical direct 2two [Small] Planetary Gears at polar position. -Like the Ying Yang Symbol/Concept. -The Mechanical Gear Power Thrust Point Wide out the Rotor circumference were have much more lever [HIGH Torque] POWER THRUST. -No blade erosion by sand & very low heat target signature profile. -3 points of power thrust; 1-flow way, 2-gear, 3-turbine. *Patent; Dic. 1991 IMPI Mexico #197187 All Rights Reserved. Carlos Barrera. *2-IMPLOTURBOCOMPRESSOR BEHANCE Images Gallery Portafolio *2-IMPLOTURBOCOMPRESSOR; One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion Concept. ·“Excellence in Design" because is only one moving part. Only one unique compression step. Inflow and out flow at the same one system, This invention by its nature a logic and simple conception in the dynamics flow mechanics area. The invention is a wing made of one piece in a rotating motion, contained in a pair cavity system connected by implocavity, and interacting dynamically with a flow, that passes internally "Imploded" through its simple mechanism. This flow can be gas (air) or liquid (water). And have two different applications, in two different form-function; this one can be received (using the dynamic flow passage, as a receiver). Or it can be generated (with a power plant, generating a propulsion). An example cut be, as a Bike needs a chain to work from motor to wheel. And for the Imploturbocompressor application, cut be as; in a circumstance at the engine, as an A-activate flow, and with a a tube flow conduit going to the wheel as a B-receiving-flow the work use. To see a Imploturbocompressor animation, is posible on a simple way, just to check the Hurricane Satellite view, and is the same implo inflow way nature. And when the flow that is received and that is intended to be used at best, must no necessarily by a exhausting or rejection gas, but must be a dynamic passing gas or liquid flow with the only intention to count it or to measure it. This could be possible at the passing and interacting period when it passes inside its simple mechanism. This can be in any point of the work flow trajectory. In case the flow that is received is a water falling by gravity, and a dynamo is placed on the rotary bar, the Imploturbocompressor can profit an be obtained by generating? electricity such as obtained by the pelton well, like I say before. The "Imploturbocompressor", is a good option to pump water, or a gas flow, and all kinds of pipes lines dynamic moves. Or only receive the air-liquid flow, in order to measure its passage with a counter placed on the bar, because when this flow passes through the simple mechanism of a rotating wing made of only one piece it interacts within the implocavities system. And this flow can be air wind, with the difference of can have an horizontal work position, and that particle technical circumstances make an easy way for urban building work new use application, and have wind flow from all the sides 180 grades view. The aforementioned information about this invention refers to technical applications, such as a dynamic flow receiver. (whether being gas or liquid). With the appropriate power plant and the appropriate dimensioning and number of RPM this invention is also feasible to generate an atmospheric air propulsion and the auto-propulsion of an aircraft. Being an effective and very simple system that implodes and compresses the atmospheric air permits the creation of a new concept of propulsion for aircrafts, due to its simple mechanism and innovative nature. At the place of the aircraft were the system appears and the manner how the propulsion direction can be oriented with a vectorial flow (no lobster tail) with I call "yo-yo system" (middle cut (at the shell) to move, one side loose), guided and balanced is feasible to create a new concept of TOVL-vertical take-off landing, Because the exhaust propulsion can going out radial in all the 360 vectorial positions, going out direct all the time in all the vectors direction. With his rotor cover for an better furtive fly, like going down of a bridge for example. Likewise, with the due form and dimensioning, and considering the liquid density and the due revolutions for this element there could be generated a propulsion (water) in order to move an aquatic ship, whether on surface or under water. Also can be a good option to pump liquid combustion for a rocket propulsion. Making a metaphoric comparison with the intention to expose it more clearly for a better comprehension of this innovative technical detail, it would be similar to the trajectory and motion of a dynamic flow compared with a rope (extended) that passes through the system would have now a knot (without obstructing the flow), so the complete way of the flow at the imploturbocompresor system have three direct ways and between make two different turns; direct way (entrance) - turn - direct way (implocavity) - turn - direct way (exit), all this in a 1 simple circular move system concept. Its prudent to mention that the curves and the inclinations of the blades of a rotating wing made of this invention, is conferred by its shape and function a structural rigidity allowing it to conduct and alter appropriately the dynamic flow passing through its system.
  27. State of the Art - Novel InFlow Tech - Featured Project Development; |/ *1; Gearturbine Project, Rotary Turbo, Have the similar basic system of the Aeolipilie Heron Steam Turbine device from Alexandria 10-70 AD · With Retrodynamic = DextroRPM VS LevoInFlow + Ying Yang Way Power Type - Non Waste Looses · 8X/Y Thermodynamic CYCLE Way Steps. 4 Turbos, Higher efficient percent. No blade erosion by sand & very low heat target signature Pat:197187IMPI MX Dic1991 Atypical Motor Engine Type. |/ *2; Imploturbocompressor; Implo-Ducted, One Moving Part System Excellence Design - The InFlow Interaction comes from Macro-Flow and goes to Micro-Flow by Implossion - Only One Compression Step; Inflow, Compression and outflow at one simple circular dynamic motion / New Concept. To see a Imploturbocompressor animation, is possible on a simple way, just to check an Hurricane Satellite view, and is the same implo inflow way nature.
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