Technical Data
Port Specifications
- UNLOCODE
- DEHAM
- Port Type
- Container
- Terminals
- 4
- Berth Count
- 38
- Max Draught
- 15.1 m
- Country
- 🇩🇪 Germany
Conditions
Current Weather
Overview
About This Port
Germany's largest seaport and a major European logistics hub, situated on the River Elbe approximately 100 km from the North Sea.
Location
Coordinates
53.5500°N, 9.9333°E
View on Google Maps →External Resources
Official Website
Live Data
Port Congestion
30-Day Berth Occupancy Trend
Waiting Vessels Trend
Port-call activity
Arrivals, time in port and cargo operations detected from AIS — the position-inferred congestion signal, with the full dwell distribution rather than a single average.
- in port
- in port
- in port
- in port
- · 4 h
- · 14 h
- · 19 h
- · 22 h
- · 11 h
- · 9 h
- · 19 h
- · 37 h
- · 7 h
- · 20 h
- · 24 h
- · 12 h
- · 43 h
- · 15 h
- · 4 h
- · 8 h
- · 11 h
- · 2.2 d
- · 14 h
- · 16 h
- · 15 h
- · 2.7 d
- · 30 h
- · 8 h
- · 24 h
- · 2 h
Expected arrivals
13 inboundVessels underway broadcasting a destination that resolves to this port, closest first. Distance is the real sea route (around land and through canals); the computed ETA is at the vessel’s passage speed. The crew’s own reported ETA is shown alongside for comparison.
| Vessel | Type | Distance | Speed | ETA (computed) | Crew ETA |
|---|---|---|---|---|---|
| IEPBORG | General Cargo | 0 nm | 5.4 kn | 30 Jun | — |
| KUGELBAKE | Ro-Ro Cargo | 69 nm | 9.2 kn | 30 Jun | 30 Jun |
| COSCO JAPAN | Container Ship | 115 nm | 1.2 kn | 30 Jun | — |
| MSC NAIROBI X | Container Ship | 115 nm | 3.6 kn | 30 Jun | 30 Jun |
| XIN WEI HAI | Container Ship | 137 nm | 14.7 kn | 30 Jun | 30 Jun |
| CMA CGM RIO GRANDE | Container Ship | 250 nm | 17.1 kn | 30 Jun | 30 Jun |
| PAVO J | Container Ship | 258 nm | 12.2 kn | 1 Jul | 30 Jun |
| KIEL EXPRESS | Container Ship | 288 nm | 12.2 kn | 1 Jul | 3 Jul |
| YM SERENITY | Bulk Carrier | 508 nm | 14.5 kn | 1 Jul | 2 Jul |
| BALTIC JONGLEUR | General Cargo | 571 nm | 2.8 kn | 2 Jul | 30 Jun |
| NORDIC OSHIMA | Bulk Carrier | 833 nm | 9.8 kn | 3 Jul | 3 Jul |
| ARKLOW GRACE | General Cargo | 900 nm | 9.2 kn | 4 Jul | 4 Jul |
| NETA A | Container Ship | 1031 nm | 15.5 kn | 3 Jul | 2 Jul |
Network
Connectivity & hub role
How central Port of Hamburg sits in the sea-route network we cover — a connectivity score across navigable distances. A higher score means the port is navigationally close to many other well-connected ports, the maritime signature of a hub.
Directly routable to 179 other covered ports.
- DEBremerhaven92 nm
- DEWilhelmshaven94 nm
- NLPort of Amsterdam263 nm
- NLPort of Rotterdam298 nm
- BEAntwerp362 nm
- FRDunkirk368 nm
- GBImmingham368 nm
- SEGothenburg389 nm
Method. A connectivity score across our own route network: a port reads higher when it is navigationally close to many other well-connected ports. The score is rescaled 0–100 within the snapshot, so the single most-connected port reads 100. Distances are Suez / Panama / Malacca-aware navigable sea miles.
Coverage. The route network spans the 180 largest commercial ports, so this ranks hubs within that covered network, not against every port on earth. The number is deterministic — no confidence grade is invented. Computed Jun 30, 2026.
Risk & quality
Port risk & quality
A coverage-weighted blend of recorded Port-State-Control detentions, marine casualties and live congestion at Port of Hamburg. Higher means more risk exposure for a ship calling here — it is a count of recorded events, not a judgement of the port's management.
Built from 33% of the three signals (scored on a single signal — treat as indicative).
Method. Each signal is normalised to 0–10 against an empirical cap, then blended weighting safety (detentions 0.40, casualties 0.35) above operational congestion (0.25). A port is scored only on the signals it has data for, and the weights renormalise — a missing signal is never credited as a safe 0.
Coverage. PSC and casualty data here is regional (US, UK, Canada), so most ports show only congestion and carry a low-confidence flag. Detention/casualty counts come from a country-scoped name match (≈60% of US detentions resolve); unmatched records are dropped, not force-fit.
Detention and casualty signals are screened against open port-state-control and marine-casualty records, combined with our own AIS-derived congestion. Updated Jun 23, 2026.
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