How to Use Autoship 10 Autohydro 6 4 Autopower Autoyacht to Optimize Your Vessel Performance and Compliance
Autoship 10 Autohydro 6 4 Autopower Autoyacht: A Comprehensive Review
If you are looking for a powerful and versatile software suite for ship design and engineering, you might want to check out Autoship 10 Autohydro 6 4 Autopower Autoyacht. This software package consists of four modules that can help you with various aspects of ship design, such as hull modeling, stability analysis, resistance and propulsion estimation, and plate development. In this article, we will review each module in detail and explain how they can benefit you in your ship design projects.
Autoship 10 Autohydro 6 4 Autopower Autoyacht
Autoship 10
Autoship 10 is a hull design and fairing software that allows you to create and modify complex hull shapes with ease. You can use Autoship 10 to design any type of vessel, from yachts to tankers, using a variety of tools and features.
What are the key features of Autoship 10?
Some of the key features of Autoship 10 are:
Windows 10 compatible
Metric or imperial units
Choice of several main screen layouts
Four simultaneous views or single view
Multiple zoom and pan
US, European & customizable coordinates
Ten levels of undo and redo
OpenGL rendering with walk through
Translucency in rendering
Extensive use of context menus to speed operations
Navigator pane provides tree-view control of model
Export & import DXF and IGES
Edit planes: create a list of 3D views in which vertices are constrained to move only in the plane of that view
Surfaces can be coloured, making it easy to pick out one surface in a complex design
Developable surface generation plus the ability to export the flattened surface
Curvature displays for curves and surfaces, including rendering of Gaussian and other curvatures
Curve and surface knot redistribution
Surface to surface intersection with trimming
On-screen measurement tools
Curve and surface fairing operations
Extensive offset table generation
Tools for matching existing hull forms
Built-in foil shape library
Quick hydrostatics, including sectional area curves
Export geometry files to Autohydro
Single button operation to create station contours from baseline data. Optional display compression in the X direction aids fairing
Newly-enhanced shell expansion output
How does Autoship 10 help with hull design and fairing?
Autoship 10 helps you with hull design and fairing by providing you with a user-friendly interface that lets you create and modify hull shapes using curves and surfaces. You can use various tools to manipulate the geometry, such as moving, rotating, scaling, splitting, joining, trimming, extending, etc. You can also use edit planes to constrain the movement of vertices in a specific plane. You can check the fairness of your hull by using curvature displays that show you how smooth or sharp your curves and surfaces are. You can also use on-screen measurement tools to check the dimensions, angles, areas, volumes, etc. of your hull.
If you need to create developable surfaces, such as for metal boats or plywood construction, Autoship 10 can help you generate them automatically from your hull shape. You can also export the flattened surface as a DXF file for further processing or cutting. If you need to match an existing hull form, such as from a lines plan or an offset table, Autoship 10 can help you do that by using tools that let you adjust your hull shape until it matches the target data.
If you need to perform hydrostatic calculations on your hull shape, Autoship 10 can help you do that by exporting your geometry file to Autohydro, which is another module in the software suite that we will review next.
Autohydro 6.4.0
Autohydro 6.4.0 is a stability and damage analysis software that allows you to perform various calculations on your vessel model, such as intact stability, damaged stability, probabilistic damage assessment, MARPOL regulations compliance, etc.
What are the key features of Autohydro 6.4.0?
Some of the key features of Autohydro 6.4.0 are:
Windows 10 compatible
Extensive model building capabilities
Display of current vessel attitude in three views
User-configurable floating parameters shown on-screen
Probabilistic damage assessment to handle new rules for cargo and passenger vessels
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
MARPOL Regulation compliance checks for oil fuel tank protection and accidental oil outflow performance
How does Autohydro 6.4.0 help with stability and damage analysis?
Autohydro 6.4.0 helps you with stability and damage analysis by providing you with a flexible and accurate calculation tool that can handle any vessel type and condition. You can use Autohydro 6.4.0 to perform various calculations on your vessel model, such as:
Intact stability: You can calculate the righting arms, hydrostatics, cross curves, wind heeling moments, longitudinal strength, etc. for any loading condition and heel angle. You can also check the compliance of your vessel with various stability criteria, such as IMO, SOLAS, ABS, etc.
Damaged stability: You can simulate any damage scenario, such as flooding, fire, collision, grounding, etc. and calculate the resulting stability and survivability of your vessel. You can also perform probabilistic damage assessment to handle new rules for cargo and passenger vessels.
MARPOL regulations: You can check the compliance of your vessel with MARPOL regulations regarding oil fuel tank protection and accidental oil outflow performance. You can also calculate the MARPOL annex I oil outflow parameter for tankers.
Other calculations: You can calculate the downflooding angle curves, FSM definition, one hold damage for bulk carriers, corrected shear force at bulkheads, automatic or manual wind area definition, visible length, propeller immersion and air draft functions.
Autohydro 6.4.0 displays the current vessel attitude in three views (profile, plan and body) and shows the user-configurable floating parameters on-screen. You can also view the 3D model of your vessel in a separate window and interact with it using mouse controls. You can generate reports with graphs and tables that can be edited, printed, saved or exported to other Windows applications.
Autopower
Autopower is a resistance and propulsion software that allows you to estimate the power requirements and performance characteristics of your vessel based on its hull shape and propeller design. You can use Autopower to perform various calculations on your vessel model, such as resistance curves, effective power curves, propeller curves, etc.
What are the key features of Autopower?
Some of the key features of Autopower are:
Windows 10 compatible
Metric or imperial units
Choice of several main screen layouts
Multiple zoom and pan
OpenGL rendering with walk through
Navigator pane provides tree-view control of model
Export & import DXF and IGES
Supports various methods for resistance estimation, such as Holtrop-Mennen, Savitsky, Delft Series, etc.
Supports various methods for propeller estimation, such as Wageningen B-Series, Gawn Series, Kaplan Series, etc.
Supports various methods for propulsion estimation, such as Admiralty Coefficient Method, Holtrop-Mennen Method, etc.
Allows user-defined resistance and propeller methods
Allows user-defined hull coefficients and propeller coefficients
Allows user-defined speed range and increments
Allows user-defined environmental factors such as water density, wind speed and direction, sea state, etc.
Allows user-defined appendages such as rudders, shafts, struts, etc.
How does Autopower help with resistance and propulsion calculations?
Autopower helps you with resistance and propulsion calculations by providing you with a reliable and easy-to-use estimation tool that can handle any vessel type and speed range. You can use Autopower to perform various calculations on your vessel model, such as:
Resistance curves: You can estimate the total resistance of your vessel at different speeds using various methods, such as Holtrop-Mennen, Savitsky, Delft Series, etc. You can also define your own resistance method by using user-defined hull coefficients.
Effective power curves: You can estimate the effective power required to overcome the total resistance of your vessel at different speeds using various methods, such as Admiralty Coefficient Method, Holtrop-Mennen Method, etc. You can also define your own propulsion method by using user-defined propeller coefficients.
Propeller curves: You can estimate the thrust, torque and efficiency of your propeller at different speeds using various methods, such as Wageningen B-Series, Gawn Series, Kaplan Series, etc. You can also define your own propeller method by using user-defined propeller coefficients.
Other calculations: You can calculate the delivered power, shaft power, brake power and fuel consumption of your propulsion system at different speeds. You can also calculate the wake fraction, thrust deduction factor and hull efficiency of your vessel.
Autopower displays the results of your calculations in graphs and tables that can be edited, printed, saved or exported to other Windows applications. You can also view the 3D model of your vessel and propeller in a separate window and interact with it using mouse controls.
Autoplate
Autoplate is a plate development and nesting software that allows you to generate flat patterns of plates from your 3D hull model. You can use Autoplate to optimize the material usage and reduce the cutting time and cost.
What are the key features of Autoplate?
Some of the key features of Autoplate are:
Windows 10 compatible
Metric or imperial units
Choice of several main screen layouts
Multiple zoom and pan
OpenGL rendering with walk through
Navigator pane provides tree-view control of model
Export & import DXF and IGES
Supports various types of plates, such as developable, conical, cylindrical, warped, etc.
Supports various types of seams, such as butt welds, lap welds, etc.
Supports various types of cutouts, such as circular holes, rectangular holes, etc.
Supports various types of markings, such as text labels, centerlines, bend lines, etc.
Allows user-defined plate thicknesses and material properties
Allows user-defined seam gaps and overlaps
Allows user-defined cutout margins and clearances
Allows user-defined marking styles and sizes
Allows user-defined nesting parameters and optimization criteria
Generates flat patterns of plates with seams, cutouts and markings
Generates nesting layouts of plates on standard or custom sheet sizes
Generates reports with plate information and nesting statistics
How does Autoplate help with plate development and nesting?
Autoplate helps you with plate development and nesting by providing you with a smart and efficient solution that can handle any plate shape and size. You can use Autoplate to generate flat patterns of plates from your 3D hull model by using various tools and features.
How does Autoplate help with plate development and nesting?
Autoplate helps you with plate development and nesting by providing you with a smart and efficient solution that can handle any plate shape and size. You can use Autoplate to generate flat patterns of plates from your 3D hull model by using various tools and features.
You can select the plates that you want to develop from your hull model or import them from DXF or IGES files. You can also create new plates by using primitive shapes or curves. You can define the type of plate (developable, conical, cylindrical, warped, etc.), the type of seam (butt weld, lap weld, etc.), the type of cutout (circular hole, rectangular hole, etc.) and the type of marking (text label, centerline, bend line, etc.) for each plate. You can also specify the plate thickness and material properties.
Autoplate performs plate expansion calculations for both developable and non-developable plates using a modern proprietary expansion algorithm. It generates flat patterns of plates with seams, cutouts and markings that can be edited, printed, saved or exported to DXF files. You can also view the 3D model of your plates in a separate window and interact with it using mouse controls.
Autoplate also performs plate nesting calculations to optimize the material usage and reduce the cutting time and cost. It generates nesting layouts of plates on standard or custom sheet sizes using various optimization criteria, such as minimum waste, minimum number of sheets, minimum number of cuts, etc. It generates reports with plate information and nesting statistics that can be edited, printed, saved or exported to DXF files.
Conclusion
In this article, we have reviewed the four modules of Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite that can help you with various aspects of ship design and engineering. We have explained what each module does, what are its key features and how it can benefit you in your ship design projects.
Autoship 10 Autohydro 6 4 Autopower Autoyacht is a powerful and versatile software suite that can handle any vessel type and condition. It can help you with hull design and fairing, stability and damage analysis, resistance and propulsion estimation, and plate development and nesting. It can also help you comply with various regulations and standards for ship design and engineering.
If you are interested in trying out Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite for yourself, you can visit their website at https://autoship.com/ and request a free demo or a quote. You can also contact their support team for any questions or feedback.
FAQs
Here are some frequently asked questions about Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite:
What are the system requirements for Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite?
The system requirements for Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite are:
Windows 10 operating system
Intel Core i5 processor or equivalent
8 GB RAM or more
500 GB hard disk space or more
DVD-ROM drive
OpenGL compatible graphics card with at least 1 GB memory
17-inch monitor with at least 1280 x 1024 resolution
Mouse or other pointing device
Internet connection for activation and updates
How much does Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite cost?
The cost of Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite depends on various factors, such as the number of licenses, the type of support plan, the duration of subscription, etc. You can request a quote from their website at https://autoship.com/ or contact their sales team for more information.
How can I learn how to use Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite?
You can learn how to use Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite by using various resources available on their website at https://autoship.com/, such as:
User manuals
Tutorials
Videos
Webinars
FAQs
Forums
Blogs
Newsletters
You can also contact their support team for any technical issues or queries.
What are the advantages of using Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite over other similar software?
6 4 Autopower Autoyacht software suite over other similar software are:
It is a comprehensive and integrated software suite that covers all aspects of ship design and engineering.
It is a user-friendly and intuitive software suite that has a consistent and modern interface across all modules.
It is a flexible and customizable software suite that allows user-defined methods, coefficients, parameters, etc.
It is a reliable and accurate software suite that uses proven algorithms and methods for calculations and estimations.
It is a compatible and interoperable software suite that can import and export various file formats and work with other Windows applications.
It is a supported and updated software suite that has a dedicated team of experts and a network of international resellers.
What are some of the applications of Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite?
Some of the applications of Autoship 10 Autohydro 6 4 Autopower Autoyacht software suite are:
Ship design and engineering for various vessel types, such as yachts, tankers, bulk carriers, container ships, ferries, cruise ships, naval vessels, etc.
Ship optimization and evaluation for various performance criteria, such as stability, safety, speed, power, fuel consumption, etc.
Ship compliance and certification for various regulations and standards, such as IMO