Plan bench runs for workstations and equipment loads. Add realistic clearances and service gaps. Get confident lengths that fit your lab layout.
| Scenario | Workstations | Station Width | Allowances | Shape | Recommended Length (approx.) |
|---|---|---|---|---|---|
| Teaching lab island | 6 | 750 mm | Equipment 900 mm + Sink 600 mm | Straight | ~8.50 m |
| Research bench with return | 4 | 800 mm | Equipment 600 mm + Sink 600 mm | L-shape (1.2 m return) | ~6.70 m |
| Prep room U-bench | 3 | 700 mm | Equipment 400 mm + Sink 800 mm | U-shape (1.0 m + 1.0 m) | ~6.10 m |
These examples are indicative. Confirm local standards, ergonomics, and vendor module sizes.
Stations span = (Workstations x Station Width) + (Workstations - 1) x Service Gap
Base run = Stations span + (2 x End Clearance) + Equipment Allowance + Sink Allowance
Total length = Base run + Returns (for L/U shapes)
Recommended length = Total length x (1 + Tolerance % / 100)
Lab benches are often sized from the number of simultaneous users, not just room dimensions. A workstation width provides elbow room, instrument staging, and safe movement. This calculator multiplies workstation count by station width and then adds service gaps between users. Those gaps represent posts, electrical drops, or utility risers that interrupt the run.
Real benches require dedicated modules for sinks, balances, centrifuges, and shared instruments. End clearances reduce crowding at corners and help doors, drawers, and stool positions function. Instead of guessing a single number, you can separate equipment and sink allowances and adjust each. The result is a practical baseline that matches procurement drawings more closely.
L and U configurations improve collaboration and shorten walking paths, but returns must be counted. A single return adds one leg to the base run, while a U adds two legs. This calculator treats returns as explicit lengths so you can align them with wall constraints and aisle widths. When returns are long, section counts increase, affecting delivery and installation sequencing.
A tolerance percentage accounts for design growth, field adjustments, and service coordination. After applying contingency, the recommended length is converted into standard sections. Sectioning supports faster takeoffs because bench systems are typically ordered in repeatable modules. If you are renovating, increase tolerance to reflect unknown obstructions and utility reroutes.
Example (metric): 5 workstations, 750 mm width, 50 mm gaps, 150 mm end clearance, 600 mm equipment allowance, 600 mm sink allowance, straight bench, 10% tolerance, 1200 mm sections. Stations span = (5×750) + (4×50) = 3950 mm. Base run = 3950 + 300 + 600 + 600 = 5450 mm. Recommended = 5450×1.10 = 5995 mm (~6.00 m). Sections = ceil(5995/1200) = 5 modules (6.00 m sectioned).
Use the breakdown to validate that each allowance reflects a real module. If a fume hood or sink has a vendor footprint, replace generic allowances with that value. The recommended length should be coordinated with aisles, doors, and utility panels before ordering.
Total length is the calculated bench run before contingency. Recommended length adds your tolerance percentage to cover coordination, design changes, and installation variability.
Use a width that matches your user task and equipment. For light writing, smaller widths may work. For instruments and laptop staging, increase the width and validate with user operations.
Add gaps when utilities, posts, or vertical risers interrupt the bench or need separation between users. If the bench is continuous with shared services, keep gaps minimal.
Convert each sink or equipment module into a length allowance based on vendor drawings. Sum them into sink and equipment allowances so the bench run includes real footprints.
Many bench systems are purchased as repeatable modules. Section length helps estimate how many modules you must order and the rounded-up installed length after sectioning.
Enter the return lengths as physical legs measured along the bench line. Returns are added to the base run, then contingency is applied to the full configuration.
For new, well-coordinated projects, 5–10% is common. For renovations or uncertain service routing, consider 10–15% and validate after field verification.
Important Note: All the Calculators listed in this site are for educational purpose only and we do not guarentee the accuracy of results. Please do consult with other sources as well.