Production of Sand Table Model for Integrated Energy System

Sand table model production plan for integrated energy system

1、 Model presentation elements and characteristics

The integrated energy system sand table model needs to demonstrate the full chain collaboration of "source grid load storage", with core display elements including:

Multi energy supply area: photovoltaic roof, small wind power cluster, gas triple supply unit, hydrogen energy station (electrolytic cell+hydrogen storage tank+hydrogen refueling machine)

Smart transmission and distribution network: microgrid (AC/DC hybrid line), regional heating (geothermal well+insulation pipeline), cold and hot combined supply (absorption refrigeration unit)

User side scenarios: Smart park (V2G charging station+photovoltaic carport), zero carbon building (energy consumption monitoring screen+intelligent window control system), industrial load (demand response simulation)

The characteristic of the model is to dynamically interact and display the entire process of energy production, storage, transmission, distribution, and consumption, which is suitable for energy planning, enterprise solution display, and policy promotion scenarios

2、 Material selection

Basic framework materials

High strength aluminum alloy profiles: lightweight, high strength, corrosion-resistant, suitable for building main frames

Wooden frame: used for auxiliary shaping of special shaped parts, such as nuclear power plant buildings, wind turbine towers, etc

Terrain and landform materials

High density foam board: shape topographic relief, simulate mountains, plains, oceans and other landforms

Flocking paper and sandpaper: The surface is covered with green flocking paper representing vegetation, while brown sandpaper simulates bare land

Blue organic glass: Creating water bodies and creating sparkling effects through light projection

Energy facility materials

ABS plastic board: used for building shells, CNC engraving precision machining and forming

Metal material: wraps around the exterior of the equipment model, highlighting a sense of technology and industrial style

Transparent/semi transparent plastic: displays the internal structure of the device

3、 Production process

structural design

The architectural complex is laser engraved with acrylic and embedded with LED lights

Transparency treatment of underground pipeline network, layered display of cables/heat pipes

Dynamic components: Miniature water pump simulates fluid, servo motor drives fan

Fine processing

Energy flow dynamic arrow: automatically adjusts thickness according to power

Thermal map of building carbon emissions: red yellow green gradient display

Electronic component integration: LED beads and strips serve as light sources, and different lighting effects are controlled through programming

Intelligent interactive system

Touch screen switching between "economy mode/low-carbon mode" operation strategy

Real time display of wind and solar forecasts, energy storage SOC, and carbon emission data

Extreme weather simulation (sudden drop in photovoltaic output, gas backup activated)

4、 Post processing and coloring

Color matching principles

Closely related to the theme and scene: Modern energy systems are suitable for using blue and silver, which have a strong sense of technology, as the main color tones

Harmony and unity, contrast and resonance: Different energy devices are distinguished by colors, such as red representing high-voltage transmission lines and blue representing low-voltage lines

Coloring technology

Metal parts: rust prevention and simulated color treatment, such as coating the turbine with metallic gray

Pipeline system: distinguished by different media using colors such as red and blue

Dynamic elements: adjustable fan speed, light intensity simulation system

detail handling

Apply anti glare coating in the photovoltaic area

Corrosion effect on wind farm foundation

Gradual vegetation changes in transmission corridors

5、 International Transportation Packaging Solutions

Transportation mode selection

Container transportation: protecting models from wind, rain, and dust interference

Highway transportation: preferred for short distance transportation, heavy objects such as sandbags need to be used to weigh the carriage

Packaging protection measures

Block packing: Block according to the model structure and hierarchy to avoid mutual squeezing

Cushioning materials: the box is filled with foam and bubble film to reduce shock

Number management: Each model and packaging box is numbered in order and an assembly diagram is drawn

Tags: industrial model, models, sand table model