The author studied the mathematical model of interaction with water of natural mineral and microporous crystalline mineral zeolite Rhodosorb-H from Bulgaria. Clinoptilolite is from the groups of minerals with name zeolite. Clinoptilolite is a natural zeolite comprising a microporous arrangement of silica and alumina tetrahedra. It has the complex formula: (Na,K,Ca)2-3Al3(Al,Si)2Si13O36·12H2O. The Bulgarian zeolite consists 90-92% clinoptilolite. In this report are submitted data about the interaction of zeolite Rhodosorb-H with water, obtained by non-equilibrium (NES) and differential-equilibrium energy spectrum (DNES) of water. The average energy (∆EH... O) of hydrogen Н…O-bonds among individual molecules H2O after treatment of zeolite Rhodosorb-H with water measured by NES- and DNES-methods is ∆E=-0.0077±0.0011 eV for zeolite Rhodosorb-H. This result suggests the restructuring of ∆EH... O values among H2O molecules with a statistically reliable increase of local extremums in DNES-spectra. The research is performed for zeolite Rhodosorb-H with study of pH and oxidative reduction potential (ORP). The author studied the properties of Bulgarian cosmetic water Rhodosorb-W according the cosmetic water as control sample from the market. The research is with methods NES and DNES. The average energy (∆EH... O) of hydrogen Н…O-bonds among individual molecules H2O of cosmetic water Rhodosorb-W measured by NES- and DNES-methods is ∆E=-0.003±0.0011 eV. The research is performed for cosmetic water Rhodosorb-W with study of pH and oxidative reduction potential (ORP). There is review of the effects of the chemical composition of Rhodosorb-H – anti-inflammatory (Climent, Corma, Iborra; 2005), antioxidant (Montinaro et al.;2013) etc. With methods NES we show the following effects – anti-inflammatory and inhibition of development as size and number of tumor cells, anti toxin. As results of these effects Rhodosorb-W has anti aging influence. The base of this influence is anti-inflammatory effect. This article deals with the review of the basic biophysical-biochemical and biological processes underlying the Rhodosorb-H. The author is studying their physical-chemical properties and biophysical and biological effects on human organism. Additionally, by using IR, NES, and DNES methods are investigated various samples of water from Bulgarian water springs: the melt water from Glacier Rosenlaui, Swiss Alps, as well as the human blood serum of people with excellent health and cancer patients between 50 and 70 years old (Ignatov, Mosin; 2012). Other experiments were performed on a 1% (v/v) solution of Rhodosorb-H in deionized water. As an estimation factor in NES and DNES was measured the values of the average energy of hydrogen bonds (∆EH...O) among H2O molecules in water samples, as well as a local extremums in the NES and DNES-spectra of various samples of water and the human blood serum at E = -0.1387 eV and λ = 8.95 μm. For a group of people in critical condition of life and patients with malignant tumors the greatest values of local extremums in IR-, DNES-spectra were shifted to lower energies relative to the control healthy group. Further we applied this method for calculation of percent distribution of H2O molecules in all studied water samples according to energies of hydrogen bonds ranged from (-0.08 to -0.1387 eV). Rhodosorb-H makes increasing of local extremum at E = -0.1387 eV and λ = 8.95 μm as indicator for re structuring of the hydrogen bond toward highest energy level at E = -0.1387 eV and λ = 8.95 μm. Zeolite Rhodosorb-H and cosmetic water Rhodosorb-W are with registered trade marks®. Keywords: zeolite Rhodosorb-H, cosmetic water Rhodosorb-W, mathematical model, NES, DNES.