To maximize the optical density (OD) of cold 87Rb atoms in an optical dipole trap (ODT) for future single-photon experiments, we investigated the methods of loading the atoms into the ODT from a time-averaged orbiting potential (TOP) and from a dark magnetic-optical trap with and without the magnetic compression (abbreviated as dark-CMOT and dark-MOT, respectively). The atomic temperature and density in the TOP 3A (the current through the TOP coils) were 57.5 K and 1.2×1012 cm-3; those in the dark-CMOT or dark-MOT were 300 K and 3.8×1010 cm-3. The ODT was realized by a 1064 nm fiber laser with a maximum power of 10 W. The e-2 full width of the focused laser beam was approximately 54 μm, giving the ODT trap depth of about 850 K. We studied the temperature, number, and life time of the atoms captured in the ODT. ODs of the atoms were measured by the absorption of a weak probe laser beam tuned to the D2 transition of 87Rb and propagating along the major axis of the ODT. The alignment of the probe beam is critical to the absorption measurement and was studied by imaging the atom cloud under the radiation pressure from the high-intensity probe field driving the cycling transition from |F=2 to |F’=3 resonantly. With the loading from the TOP 3A, there were about 1.6×106 atoms with a temperature of 61 μK in the ODT with a power of 10.7 W. The OD along the central axis estimated by the atom number and the dimension of the cigar-shaped cloud of 82×82×3000 μm3 (e-2 full widths) is 170. However, the transmission of the probe field with the e-2 full width of 45 μm driving the non-cycling transition from |F=2 to |F’=2 resonantly and propagating through the major axis of the atom cloud is about 20%, showing that the OD along the central axis of the cloud is only 11. With the loading from the dark-CMOT, there were about 2.7×106 atoms with a temperature of 350 μK and a life time of 0.43 s in the ODT with a power of 10.7 W. The life time was measured under the captured atoms being placed in the |F=2 ground state. The OD along the central axis estimated by the atom number and the dimension of the cigar-shaped cloud of 160×160×2800 μm3 (e-2 full widths) is 72. With the loading from the dark-MOT, there were about 4.4×106 atoms with a temperature of 350 μK in the ODT with a power of 10.7 W. The OD along the central axis estimated by the atom number and the dimension of the cigar-shaped cloud of 170×170×2500 μm3 (e-2 full widths) is 120. When the captured atoms were placed in the |F=1 ground state, their lifetime of 0.84 and 11 s were observed in the 10.7-W and 1.6-W ODT, respectively. We will further cool down the atoms to make the simpler dark-MOT loading method outperform the more complicate TOP loading method.