Planning building services equipment

A planning process is not a standardized procedure. Rather, it must be adapted to the needs and actions of the customer. For this reason, there are different types of planning that we can use depending on the customer group.

Which planning process would you like for the implementation of your project? Get an overview below.

Planning according to the HOAI performance phases

In principle, we are obliged under the German Architects' and Engineers' Fees Regulations (HOAI) to provide the planning services 

LP 1

Basic evaluation

Determination of economic and time targets

Plan

LP 2

Pre-planning

Representation of the user specifications or specifications from the recognized rules of technology

Plan

LP 3

Concept design

Design of the planning concept, taking into account all technical requirements for the complete design

Plan

LP 4

Approval design

Draft of coordinated user specifications for submission to the approval body

Plan

LP 5

Detail design

Presentation of a planning solution ready for implementation with functional specifications of the client

Plan

LP 6

Preparation for awarding

Compilation of the procurement documents

Plan

LP 7

Participation awarding process

Coordinating the awarding of contracts and participating in the awarding of contracts

Plan

LP 8

Property monitoring

Monitoring the execution of the property for compliance with public law approvals

Plan

LP 9

Property support

Professional assessment of defects identified within the limitation periods for warranty claims

Plan

Planning according to front-end-loading (FEL)

Front-End Loading (FEL) includes feasibility analysis, conceptual planning, programming/schematic design and early project planning. The process is used for the conceptual development of projects in various manufacturing industries. The planning objective is to generate sufficient strategic information to enable the client to assess risks and make decisions on the allocation of resources to maximize the potential for success.

Plan_Tisch

FEL 0

Conceptualization

Setting project goals and creating open studies.

Plan_Tisch

FEL 1

Feasibility Evaluation

In this phase, options are examined, compared and the best option is recommended based on the specific project requirements

Plan_Tisch

FEL 2

Conceptual Engineering

The selected option is developed up to a pre-defined level of detail not yet sufficient for construction and operation, but enough to develop a cost estimate, a schedule estimate, and to make any critical decisions that will influence the final design of the plant.

Plan_Tisch

FEL 3

Front-End-Engineering Design | FEED

The engineering team will fully design the plant, including the exact specification for how it will be constructed, commissioned, started up, and operated. The proposed plant will have a detailed cost estimate and construction schedule.

Plan_Tisch

FEL 4

Detailed Engineering

Materials procurement and construction will begin. This stage includes all activities until the plant is started-up and regular operations begin.

Planning with BIM - Building Information Modelling

Sell Ingenieur GmbH uses BIM as a standard in the planning process. This modern method enables efficient, interdisciplinary collaboration and improves the quality and efficiency of our construction projects.

Planning with BIM is a modern approach to construction projects that involves the creation of a digital 3D model. This model integrates data from various specialist areas such as costs, schedules and component information to enable holistic planning. Through visualization, simulation and data integration, BIM contributes to the optimization of the entire life cycle of a building.

BIM planning offers efficient collaboration between all planning companies. Using precise model-based visualization, it optimizes processes for a successful construction project.

The decision between Open BIM and Closed BIM depends on the specific requirements and circumstances of your construction project. Open BIM offers greater flexibility and interoperability between different software applications and project partners, while Closed BIM allows for tighter integration and control over the software and data. Ultimately, the choice should be made based on the project requirements, the collaboration structure and the preferences of the project stakeholders.

The level of detail (LOD) for the model should be determined according to the requirements of the construction project. This can vary depending on the project phase:

LOD 100: Concept design with schematic representations and placeholders for components.

LOD 200: Basic geometric models with more detailed component information.

LOD 300: Geometrically accurate models with specific component information and dimensions.

LOD 400: Detailed models with precise design information and specific components.

LOD 500: Detailed models with exact design information and specific components.

Determining the appropriate LOD depends on the project phase, the requirements of the project participants and the intended use of the model. It is important to choose the LOD appropriately according to the project objectives and requirements.

Planning with BIM standards uses Building Information Modeling for the digital planning, execution and management of construction projects. It includes creating a BIM execution plan, modeling and integrating data, adhering to specific BIM standards and protocols, promoting collaboration and coordination, documentation and reporting, change and information management, and integrating BIM into the overall construction process. This approach improves efficiency, reduces costs and promotes the quality of construction projects.

A BIM model can be used for facility management. By integrating comprehensive data into the BIM model during the planning and construction process, detailed information about the building facilities, components and systems can be collected. This data serves as the basis for facility management by supporting the operation, maintenance, servicing and optimization of the building. The BIM model enables efficient management of information over the entire life cycle of the building, which can lead to improved operational efficiency and lower operating costs.

Our software

For the best possible cooperation with our customers and project partners, it is important to coordinate interfaces. These can be defined in part by using the same software or in advance via the file exchange format. das Dateiaustauschformat festgelegt werden.