Apparatus and process for preparation of small water cluster and small molecular cluster water prepared therefrom

What is claimed is: 1. A small water cluster, which has one of the following characteristics: (a) the central points of the Raman bands in the deconvoluted spectrum on OH vibration of water are at the positions of about 3018 cm −1 , about 3223 cm −1 , about 3393 cm −1 , about 3506 cm −1 , and 3624 cm −1 respectively, and the non-hydrogen bond level obtained by the integral area at the about 3506 cm −1 and about 3624 cm −1 positions divided by the sum of the integral areas of the five bands at about 3018 cm −1 , about 3223 cm −1 , about 3393 cm −1 , about 3506 cm −1 , and 3624 cm −1 positions is higher than about 22%; (b) the characteristic peak of the triple hydrogen bond in the IR spectrum (about 3090 to about 3310 cm −1 ) and the non-hydrogen bond, single hydrogen bond and doublet hydrogen bond in the IR spectrum (about 3310 cm −1 to about 3640 cm −1 ) of the water molecule shift from about 3170 cm −1 to more higher than about 3175 cm −1 and from about 3449 cm −1 to more higher than about 3454 cm −1 , respectively; (c) the evaporation rate of the small water cluster of the invention is more than 3%/hour higher than that of deionized water; (d) the solubility of NaCl in the small water cluster at about 22.8° C. under about 1 atmosphere is more than about 37 g dL −1 ; (e) the maximum amount of dissolved oxygen of the small water cluster at about 22.8° C. under about 1 atmosphere is more than about 21 mg L −1 ; (f) the solubility of the small water cluster in PEG 400 is smaller than the preparation value by more than about 2%; and (g) the saturated vapor pressure of the small water cluster at 25° C. is higher than that of the deionized water by more than about 3.0%. 2. The small water cluster of claim 1 , wherein the small water cluster has metal residue more than about 0.05 ppb measured by inductively coupled plasma-mass spectrometer (ICP-MS). 3. The small water cluster of claim 1 , wherein (a) the Raman spectrum further comprises the Raman shifts at the about 3506 cm −1 and 3624 cm −1 positions higher than 15.0% and 6%, respectively, wherein the percentage is calculated by the integral area of the band at about 3506 cm −1 or at about 3624 cm −1 divided by the sum of the integral areas of the five bands at about 3018 cm −1 , about 3223 cm −1 , about 3393 cm −1 , about 3506 cm −1 , and 3624 cm −1 positions; (b) the characteristic peak of the triple hydrogen bond in the IR spectrum (about 3090 to about 3310 cm −1 ) and the non-hydrogen bond, single hydrogen bond and doublet hydrogen bond in the IR spectrum (about 3310 cm −1 to about 3640 cm −1 ) of the water molecule shift from about 3170 cm −1 to about 3180 cm −1 and from about 3449 cm −1 to about 3461 cm −1 , respectively; (c) the evaporation rate of the small water cluster is more than 7.2%/hour higher than that of the deionized water; (d) the solubility of NaCl in the small water cluster of the invention at about 22.8° C. under about 1 atmosphere is more than about 41.3 g dL −1 ; or (e) the maximum amount of dissolved oxygen of the small water cluster at about 22.8° C. under about 1 atmosphere is more than about 23.8 mg L −1 . 4. The small water cluster of claim 1 , which can stably exist for at least three days.