Potable water design with Revit
With the LINEAR solutions, a continuous workflow in potable water design is guaranteed. From the design in early concept phases and the MEP model creation to the selection of the sanitary objects to the pipe network construction and calculation: Create your design quickly and efficiently with LINEAR for Revit.
The LINEAR workflow
Input:
Concept structure of the architecture with rooms, floors and functional areas
Output:
Located space requirements for technical rooms and pipeline corridors
Work steps:
- Workflow for a collaborative early design phase planning
- Creation of a concept design on the basis of the requirements planning
- Conceptual space design (Provision for spaces)
- Localization and pre-dimensioning of technical equipment rooms
- Localization and pre-dimensioning of the pipeline corridors
- Cross section editor for the pipeline corridor concept
- Generate pipe and duct elements from corridor concept
Input:
Architecture model or plan
Output:
Model for further MEP design including levels, zones & MEP rooms
Work steps:
- Easy creation of the MEP model based on the architecture
- Enrichment of the model with relevant information
- Automatic creation of views and plans
- Parameter management for the assignment of parameters used in the project
- Optional for 2D templates: Simple rebuild of the building in 3D
Input:
Model for the MEP design including levels, zones & MEP rooms
Output:
MEP model with placed sanitary objects
Work steps:
- Selection of sanitary objects as neutral components or from the extensive manufacturer CAD libraries
- Easy placement in the model through specific drawing commands
Input:
MEP model with placed sanitary objects
Output:
MEP model with optimized systems as well as the finished void planning
Work steps:
- Fast pipe network construction as a single pipe or as parallel pipes
- Automatic connection of all consumers
- Insertion of system components (e.g. house connections, filters, meters, fittings)
- Specification of calculation-relevant specifications (e.g. assignment of pipe materials, settings of valves, specification of insulation and ambient temperatures)
- Simulation of ejection processes, check of comfort specifications and hygiene status
- Calculation of existing networks by fixing individual or all dimensions
- Redimensioning of the potable water pipe network on the basis of the calculation
- Colored display of all results directly in the model (LINEAR data coloring)
- Void planning including coordination via BCF and IFC
Input:
MEP model with optimized systems as well as the finished void planning
Output:
Final potable water design including model for transfer to the coordination model and calculated results incl. material lists
Work steps:
- Storage of all inputs and calculation results in the model
- Publication of selectable values as shared parameters
- Automatic labeling of the model
- Addition of own parameters and meta information
- Printout of the results in standardized forms
- Transfer of the results and the model in all relevant formats
Input:
Concept structure of the architecture with rooms, floors and functional areas
Output:
Located space requirements for technical rooms and pipeline corridors
Arbeitsschritte:
- Workflow for a collaborative early design phase planning
- Creation of a concept design on the basis of the requirements planning
- Conceptual space design (Provision for spaces)
- Localization and pre-dimensioning of technical equipment rooms
- Localization and pre-dimensioning of the pipeline corridors
- Cross section editor for the pipeline corridor concept
- Generate pipe and duct elements from corridor concept
Input:
Architecture model or plan
Output:
Model for further MEP design including levels, zones & MEP rooms
Arbeitsschritte:
- Easy creation of the MEP model based on the architecture
- Enrichment of the model with relevant information
- Automatic creation of views and plans
- Parameter management for the assignment of parameters used in the project
- Optional for 2D templates: Simple rebuild of the building in 3D
Input:
Model for the MEP design including levels, zones & MEP rooms
Output:
MEP model with placed sanitary objects
Arbeitsschritte:
- Selection of sanitary objects as neutral components or from the extensive manufacturer CAD libraries
- Easy placement in the model through specific drawing commands
Input:
MEP model with placed sanitary objects
Output:
MEP model with optimized systems as well as the finished void planning
Arbeitsschritte:
- Fast pipe network construction as a single pipe or as parallel pipes
- Automatic connection of all consumers
- Insertion of system components (e.g. house connections, filters, meters, fittings)
- Specification of calculation-relevant specifications (e.g. assignment of pipe materials, settings of valves, specification of insulation and ambient temperatures)
- Simulation of ejection processes, check of comfort specifications and hygiene status
- Calculation of existing networks by fixing individual or all dimensions
- Redimensioning of the potable water pipe network on the basis of the calculation
- Colored display of all results directly in the model (LINEAR data coloring)
- Void planning including coordination via BCF and IFC
Input:
MEP model with optimized systems as well as the finished void planning
Output:
Final potable water design including model for transfer to the coordination model and calculated results incl. material lists
Arbeitsschritte:
- Storage of all inputs and calculation results in the model
- Publication of selectable values as shared parameters
- Automatic labeling of the model
- Addition of own parameters and meta information
- Printout of the results in standardized forms
- Transfer of the results and the model in all relevant formats
Features
Pipe network calculation with redimensioning
- Automatic calculation and dimensioning of all components in the potable water pipe network
- Consideration of given general conditions, e.g. limit values for velocities and the pipe friction pressure gradient (R-value)
- Determination and variant comparison of pipe materials and components including original manufacturer data sets with real product properties
- Temperature-time functions for section parts / entire network in consideration of insulation and ambient temperature
- Dwelling and decentralized fresh water stations
- Pressure boosting station and pressure closed-loop controller with output pressure specification
- Calculation directly in the model incl. redimensioning
- Simulation of flushing processes, discharge times, temperature curves, circulation
- Calculation of thermal disinfection
- Hydraulic calculations with transfer of performance data from family parameters
- Calculation of multiple systems in one model
- Selection of suitable (manufacturer) components based on the calculation results
- Saving of values directly in the model with optional consideration in the IFC export
- Interface for valve data sets, shut-off valves, differential pressure closed-loop controllers, volume flow closed-loop controllers, regulating valves, control valve and fixed resistors
- Integration of Venturi nozzles
- Inliner and asymmetric circulation systems
- Automatic flushing systems for hygienic drinking water
- Visualization of results using liNear Data Coloring (dimensions, materials, velocities, unfavorable flow path and many more)
Construction tools
- Piping command including system class determination
- Automatic connection of pipes, including necessary transitions (autorouting)
- Automatic T-piece connection
- Offset command for resolving collisions
- Configurators for manifolds and tanks
- Hygiene assistant for flushing stations and consumers with automatic flushing function
- Dwelling and decentralized fresh water stations
- Design tools for fixings, flanges, delivery lengths, etc.
- Legend function
Hydraulic balancing of complex systems
- Hydraulic calculations with transfer of performance data from family parameters
- Calculation of multiple systems in one model
- Determination also of networks with several control levels
- Consideration not onlyof the distribution networks, but also the generator part
Automatic detection of the pipe network
- Detection of drawn pipes directly in the model and analysis of the system
- Detection of all integrated components
- Consideration of technical datas integrated in the model
- Detection of drawn dimension for the optional consideration in the network calculation
- Easy mapping of foreign components for the consideration in the network calculation
Supported standards
LINEAR has always stood for standard-compliant calculation and design. It is both our concern to always offer the latest standards and to constantly expand the range nationally and internationally. An up-to-date overview of all supported standards can be found in our knowledge base at [LINK].
MEP model creation (Architecture)
- Automatic or manual MEP room creation
- Zoning tool
- Architectural functions for easy post-modeling of 2D architectural plans
Management of system class properties and quick selection
- Central management of system class properties
- Intuitive system table
- Quick selection of the system
Parts list with article numbers
- Clear and comprehensible calculation results as well as complete bills of materials
- Detailed parts lists with part numbers and material checks
- Bills of materials in various output formats (Windows printout, Excel, text, UGS, GAEB, ASD)
Language selection for interface and printouts
We provide you with no less than seven languages, which you can use and combine as you wish, either as the interface language or the print language. In this way, it is possible to design in one language and print in another. This is a great advantage, especially for international projects, as time-consuming translations are no longer necessary. There are no additional costs for the language packages.
The following languages are currently supported:
- German
- English
- French
- Dutch
- Russian
- Turkish
- Italian
Visibility control
- One click visibility control for building parts
- One click visibility control for storeys
- One click visibility control for disciplines
- One click visibility control for component groups (e.g. systems, insulations, etc.)
Void planning
- Manual placement
- Automatic placement
- Across referenced files
- BCF-Export (optional incl. IFC) for collaboration
- BCF-import for status alignment
Parameter manager and classification tool
- Assigning of liNear parameters to your own shared parameters in a project-dependent mapping table
- Search and filter functions for mapping or overwrite of parameters
- Loading and Saving of predefined project standards
- Assignment of classification parameter to components and model elements to fill it with values
- Structure the classification of component groups in the IFC export
- Classification components related to cost groups for precise cost estimations
Collaboration in early design phases
- Workflow for a collaborative early design phase planning
- Dimensioning of equipment rooms
- Conceptual space design (Provision for spaces)
- Cross section editor for the pipeline corridor concept
- Redimensioning of provisions for space
- Generate pipe and duct elements from corridor concept
Collision checker
- Detection and display of collisions of any kind within a project or between several projects
- Collision check between Architecture and all disciplines
- Collision check between two discipline or one discipline with the architecture
- Collision check between single or multiple categories (e.g. walls and pipes)
- Collision check between single or multiple systems (e.g. Gas and exhaust air)
- Automatic creation of tasks for each collision in the Report and Task Tab
- Saving and Loading of predefined configurations
Interoperability and collaboration
- IFC Import configuration
- Classification of IFC or other structures
- Excel import and export
- Reports and tasks manager for BCF exchange (incl. chat function)
- Common topics and status tracking for BCF exchange
Industry components via CAD Browser
- Extensive CAD libraries with approved components of our wide range of industry partner
- More than 6 billion possible components and component combinations
- Direct placement of original manufacturer components into your model
- Multiple placing modes (place, insert, replace)
- Configurators for complex component combinations (e.g. cascade systems)
- Including technical and commercial data (e.g. article numbers and packaging units)
- Detection and consideration in the network calculations
Storey table
- Automatic import of storeys from the architectural model
- Control of the storey in the Construction level / offset (+/-) section
- Easy Creation of storeys and work levels
- Separate storey table for mutliple building parts (e.g. for split levels)
Family and library management
- Providing of all necessary components for your project centrally
- Components or configurators suitable for the active discipline
- Filtered by active discipline, used in project and locations (local or folder in the network)
- Sorted in component groups for quick orientation
- Multiple placing comands for families (place, replace, replace all, place on grid)
- Integration of own family libraries
- Intelligent search function
- Pick and place again of a component in the model
Automatic labeling
- Automatic label-selection according to the component class
- Free configuration of label content
- Addition of custom parameters and meta information
- Automatic dimensioning
Task management
- Assigning of responsibilities for automatic (e.g. from the calculations) or manually created tasks
- Set of deadlines and priorities for tasks
- Status tracking of tasks
- Definition of given workflows for the resolution of tasks
- Adding of Screenshots, comments, positions to tasks
- Sharing and assignment of tasks to participants via BCF
View creator and view control
- View creation assistant for 3D views, floor plans, ceiling plans and area plans
- Quick 3D selection box command
- Quick working section commands
- Automatic sorting and assignment of views
- Suggestions for best suitable views
- Automatic LOG assignement to views
- View filter