The fraction of positronium (Ps) emitted from a surface of a germanium single crystal at high temperature is usually assumed to approach unity at zero positron implantation energy. In the experiment, however, the determination of the absolute Ps fraction is not straight forward since recording a reference spectrum with 100 % Ps formation remains demanding. We use GEANT4simulated detector responses to 2γ-and 3γ radiation sources mimicking positron and Ps annihilation inside the (coincidence) Doppler-broadening spectrometer at NEPOMUC, FRM II, in order to derive a reliable value for the Ps fraction re-emitted from a Ge(100)-target heated close to its melting point. Analysis of the measured spectra by fitting the simulated spectra shows an absolute value of 74 ±4 % maximum Ps formation, contradicting the 100 %-assumption.