Aero Race Singlet & Calf Sleeves
Reference models: 2XU Aero, Compressport R2, Soar Elite Racing
CWPM vs Run pace
Cost per minute saved across the full slider range, all other parameters held at your current profile.
FORMULA CWPM = cost ÷ Δt, where Δt = (min/h at your speed) × κ(slider) × Tbaseline(slider).
Curve run sets the empirical κ bump; Tbaseline is the leg duration at your profile.
Time saved vs Run pace
Minutes shaved at the 140.6 Full format as your slider value varies.
FORMULA Δt = (min/h at your speed) × κ(slider) × Tbaseline(slider).
Curve run sets κ; Tbaseline is your 140.6 Full run leg duration.
Time saved across race formats
Minutes shaved if you raced each distance at your current profile.
FORMULA For each format f: Δtf = (min/h at your speed) × κ(profile) × Tbaseline(f). Only the leg distance — and therefore Tbaseline — varies between bars; κ is held constant from your profile.
Cost vs time saved — run alternatives
Every run upgrade in the catalog plotted at your current profile. The line is the Pareto frontier: anything above it is dominated by a cheaper item that saves the same or more time.
HOW TO READ Each dot is one upgrade. Its horizontal position is the time it would save you at your current profile — the same Δt computed in the charts above. Its vertical position is the upgrade's cost. The green dashed line is the Pareto frontier: items where no cheaper alternative matches or beats them on time saved. Anything floating above the line is dominated — somewhere down-and-to-the-right sits a frontier item that delivers the same or more minutes for less money, so it's the better buy.
Why it works
At triathlon-marathon pace ($v \approx 3$–$5$ m/s) aerodynamic drag accounts for ~$8\%$ of the run-power budget. Form-fitting fabric and structured calf sleeves smooth the boundary layer over high-velocity limbs, returning small but linear watt-savings hour after hour.
Running economy — a fractional speed gain scaled by $(v/3.33)^{0.25}$ for faster runners.
Source basis for the savings estimate
0 referencesThe Speed gain = 1.0% primitive is a calibrated
midpoint drawn from the literature below. Peer-reviewed studies are weighted most heavily;
independent / industry labs fill gaps where peer review is sparse for this gear category.
Peer-reviewed evidence for this specific gear category is limited. The value is inferred from manufacturer testing protocols, pro-team field experimentation and the broader aerodynamics literature referenced on other items in this discipline. Treat the number with extra uncertainty.
How the savings estimate was built
Speed gain 1.0%Metabolic / VO₂ economy studies → fractional speed gain → minutes per hour.
- Use published running-economy deltas for the gear category, expressed as a fractional speed gain (Δtime%).
- ΔM/h = 60·Δtime%, scaled by (v/3.33)^0.25 — faster runners realize slightly more of the gain.
- Conservative midpoint chosen when peer-reviewed and brand-funded studies disagree.
This is a calibrated model number, not a measurement of your equipment.
The value reflects published delta-ranges for the Apparel category
with a run response, biased toward independent rather than manufacturer data.
The slider sweep above shows how watts-saved at your speed and the curve κ reshape it across athlete profiles.