Maximum Demand Calculation 3 Phase -

Abstract Maximum Demand (MD) is the highest average power drawn by an electrical installation over a specified interval (typically 15–30 minutes). Accurate MD calculation is essential for sizing cables, transformers, switchgear, and for determining utility tariff structures. In three‑phase systems, MD must account for phase imbalances, power factor, load diversity, and peak coincidence. This paper presents a systematic approach to MD calculation, from basic formulas to advanced software‑based techniques, supported by real‑world examples. 1. Introduction Electrical installations rarely operate at full load continuously. The maximum demand represents the peak load that the system must sustain without overloading. Utilities use MD to design supply infrastructure and to charge large consumers (demand charges, often in $/kVA or $/kW). Underestimating MD leads to frequent overload trips; overestimating leads to oversized, capital‑intensive equipment.

MD_kVA = 50.28 / 0.808 = 62.23 kVA

Weighted PF = Total kW / Total kVA without diversity? Compute: maximum demand calculation 3 phase