Jetty & Port Infrastructure

Coastal maritime developments, cargo ports, and heavy-duty industrial jetties operate in some of the most unforgiving physical environments on earth. Sub surface structural elements face constant hydro-dynamic stress, severe marine corrosion, and volatile sub-surface soil shifts. Designing and constructing these deep-water assets requires absolute spatial coordinate certainty. We address these severe structural demands by building highly sophisticated, data-rich marine BIM environments that lock down foundation coordinates, calculate heavy logistical crane loads, and simulate sub-surface execution long before marine vessels arrive on site.
At PT. Buana Engineering Consultant (BEC), our specialized marine infrastructure division delivers absolute structural clarity. We bridge complex maritime geotechnics with digital twin modeling to protect multi-million dollar port investments from structural failures, material overruns, and marine environmental hazards.

Services Overview

Our Jetty & Port Infrastructure framework provides complete, uncompromised cross-disciplinary alignment for critical maritime logistics assets. We construct highly precise, federated models that integrate deep-water driven pile foundations, mass concrete berthing structures, heavy cargo crane rail corridors, breakwater layouts, and sub-surface marine soil profiles into a singular coordinate source of truth. By linking hydrodynamic simulation variables and exact logistical staging metrics directly into the digital model, our engineers can audit driven-pile resistance data, model heavy crane operational weight distributions, and optimize underwater material placements. This highly systematic model architecture completely eliminates physical design clashes between mechanical piping lines and structural elements, lowers marine procurement waste, and guarantees asset owners total construction fidelity over open water.

Benefits & Solutions

Driven Pile Coordinate Precision

Compute highly precise cut-and-fill balances and embankment material take-offs directly from georeferenced terrain models, optimizing heavy machine deployment timelines.

High-Load Structural Balancing

Simulate volatile dynamic structural loads and stress distributions from massive ship-to-shore cargo cranes to optimize reinforcement detailing in the concrete deck.1

Marine Asset Degradation Defense

Integrate material performance sheets and concrete coating durability schedules into individual model objects to streamline long-term cathodic asset protection tracking.

Over-Water Construction Sequencing

Execute clear chronological 4D construction simulations to optimize marine barge positioning, manage over-water crane maneuvers, and compress offshore build schedules.

Questions? You Need Answer

Unlike standard land-based projects, marine construction offers zero visual visibility below the waterline and must contend with shifting tides, maritime currents, and complex underwater soil stratifications. Specialized BIM workflows allow us to synthesize sub-surface sonar data and structural blueprints into a precise 3D model, enabling engineers to independently verify drove-pile positions and avoid catastrophic underwater placement errors on screen.