MARITIME – PORT, HARBOUR & CHANNEL OPERATION CALCULATOR
Lockage Time
A precise tool.
What is the Lockage Time & How does it work?
A canal lock functions as a waterβfilled chamber that isolates vessels from differing water levels. When a ship enters, the lock must be filled to raise the vessel or emptied to lower it, and each of these phases consumes a predictable amount of time based on the chamberβs volume and the waterβflow capacity of the filling/emptying system.
The total lockage time is therefore the sum of the hydraulic fillingβandβemptying interval and the mechanical manoeuvring periods for the vessel to enter and exit the lock. Engineers often model the hydraulic component as the chamber volume divided by the flow rate, multiplied by two because the chamber must both fill and empty during a single transit.
By measuring the lockβs geometric dimensions (length, width, depth) and knowing the available waterβflow rate, operators can quickly estimate the expected transit time, allowing better scheduling of traffic through busy waterways.
T = frac{L_c times W_c times D_c}{Q}times 2 + t_{entry} + t_{exit}
L_c = lock chamber length (m)
W_c = lock chamber width (m)
D_c = lock chamber depth (m)
Q = water flow rate (mΒ³/s)
t_{entry} = vessel entry time (s)
t_{exit} = vessel exit time (s)
W_c = lock chamber width (m)
D_c = lock chamber depth (m)
Q = water flow rate (mΒ³/s)
t_{entry} = vessel entry time (s)
t_{exit} = vessel exit time (s)
Parameters
Result
β
Frequently Asked Questions
How do I calculate the lockage time for a canal lock?
To calculate the lockage time, sum the hydraulic filling-and-emptying interval with the mechanical maneuvering periods for the vessel to enter and exit.
What factors affect the lockage time in a canal lock?
The lockage time is affected by the chamber’s volume, water flow capacity of the filling/emptying system, and the time it takes for the vessel to maneuver into and out of the lock.
Can you explain the hydraulic filling-and-emptying interval?
The hydraulic filling-and-emptying interval refers to the time it takes to fill or empty the lock chamber to change the water level to match the vessel’s required depth.
What is included in the mechanical maneuvering periods for a vessel?
Mechanical maneuvering periods include the time taken for the vessel to stop, position itself within the lock, and then start moving again after the water level has been adjusted.
How does the size of the chamber affect the lockage time?
A larger chamber volume requires more water to be moved, increasing the hydraulic filling-and-emptying interval and thus the total lockage time.
What is the impact of water flow capacity on lockage time?
Higher water flow capacity reduces the time needed to fill or empty the chamber, thereby decreasing the overall lockage time.
Is there a formula to calculate the lockage time?
Yes, the lockage time can be calculated by adding the time required for hydraulic filling/emptying (based on chamber volume and flow rate) to the vessel’s maneuvering times.
Results are for informational purposes only and do not constitute professional advice.