Please enter verification code
New Force and New Heat
American Journal of Astronomy and Astrophysics
Volume 2, Issue 6-1, December 2014, Pages: 47-53
Received: Oct. 27, 2014; Accepted: Oct. 30, 2014; Published: Nov. 10, 2014
Views 3205      Downloads 117
Yuriy Alexeevich Baurov, Closed Joint Stock Company Research Institute of Cosmic Physics, 141070, Moscow Region, Pionerskaya, 4, Korolyov, Russia; Hotwater Srl, Via Gioberti, 15, I-56024 San Miniato (PI), Italy
Lorenzo Albanese, National Research Council, Institute of Biometeorology, 8, Via G, Caproni, I-50145 Firenze, Italy
Francesco Meneguzzo, National Research Council, Institute of Biometeorology, 8, Via G, Caproni, I-50145 Firenze, Italy
Article Tools
Follow on us
Total heat generation in a vertically-shaped closed hydraulic circuit of specific section, supplied with a special device (SD) used to lock the circulating liquid medium, i.e. regular water, is analyzed in order to detect possible excess heat with regards to input electric or mechanical power. Long experimental runs were carried out in order to extract transient continuous equilibrium periods, i.e. constant water temperature, distinguished by the imposed recovery pressure and the SD model, while equilibrium series were obtained after connecting the main circuit to a heat exchanger with adjustable dissipation power. The generated heat was measured after observing the flow to the heat exchanger and the temperature difference between the supply and return lines. The heat dissipation from the main circuit was measured as a function of the difference between the circuit and environmental temperatures, as well as a calibration test without any SD was carried out in order to estimate the pump’s motor efficiency on the basis of classical energy conservation. The results show a sharp dependence of excess heat generation from height of installation and statistically significant dependence of excess heat generation upon both water temperature and hydraulic pressure. This evidence agrees with predictions from the theory of byuons about the occurrence of a new force of nature acting upon quickly rising substance in the Earth’s gravitational field, the work performed by such force increasing with the vertical distance traveled by the substance. The results of experiments with heat installation practical show a decision of problem of A. Einstein, i.e. the creation of Joint Theory of Fields.
New Force, Theory of Byuon, New Heat
To cite this article
Yuriy Alexeevich Baurov, Lorenzo Albanese, Francesco Meneguzzo, New Force and New Heat, American Journal of Astronomy and Astrophysics. Special Issue: Global Anisotropy, Theory of Byuon, New Force, New Power System, Propulsion, Space Flights. Vol. 2, No. 6-1, 2014, pp. 47-53. doi: 10.11648/j.ajaa.s.2014020601.17
Y.A. Baurov, E.Y. Klimenko, S.I. Novikov, Experimental observations of magnetic anisotropy, Dokl. Akad. Nauk SSSR. 315 (1990) 1116–1120.
Y.A. Baurov, E.Y. Klimenko, S.I. Novikov, Experimental observation of space magnetic anisotropy, Phys. Lett. A. 162 (1992) 32–34.
Y.A. Baurov, Space magnetic anisotropy and a new interaction in nature, Phys. Lett. A. 181 (1993) 283–288.
Y.A. Baurov, A. V Kopaev, Experimental investigations of signals of a new nature with the aid of two high precision stationary quartz gravimeters, Hadron. J. 25 (2002) 697–712.
Y.A. Baurov, On the structure of physical vacuum and a new interaction in Nature (Theory, Experiment and Applications), Nova Science, NY, 2000.
Y.A. Baurov, Global Anisotropy of Physical Space, Experimental and Theoretical Basis, Nova Science, NY, 2004.
Y.A. Baurov, V.L. Shutov, On the influence of vectorial magnetic potential of the Earth and the Sun on the β- decay rate, Prikl. Fiz. 1 (1995) 40–45.
Y.A. Baurov, Y.G. Sobolev, Y. V. Ryabov, V.F. Kushniruk, Experimental investigations of changes in the rate of beta decay of radioactive elements, Phys. At. Nucl. 70 (2007) 1825–1835.
Y.A. Baurov, A.A. Konradov, V.F. Kushniruk, E.A. Kuznetsov, Y.G. Sobolev, Y. V. Ryabov, et al., Experimental investigations of changes in beta-decay rate of 60Co and 137Cs, Mod. Phys. Lett. A. 16 (2001) 2089–2101.
Y.A. Baurov, V.A. Nikitin, V.B. Dunin, N.A. Demchuk, A.Y. Baurov, V. V Tihomirov, Results of experimental investigations of 60 Со beta-decay rate variation, Appl. Phys. 5 (2011) 12–21.
Y.A. Baurov, A.A. Shpitalnaya, I.F. Malov, Global anisotropy of physical space and velocities of pulsars, Intl. J. Pure Appl. Phys. 1 (2005) 71–82.
I.F. Malov, Y.A. Baurov, The distribution of space velocities of radio pulsars, Astron. Reports. 51 (2007) 830–835.
Y.A. Baurov, I.F. Malov, On the Nature of Dark Matter and Dark Energy, J. Mod. Phys. 01 (2010) 17–32.
Y.A. Baurov, I.B. Timofeev, V.A. Chernikov, S.F. Chalkin, A.A. Konradov, Experimental investigations of the distribution of pulsed-plasma-generator radiation at its various spatial orientation and global anisotropy of space, Phys. Lett. A. 311 (2003) 512–523.
Y.A. Baurov, A.G. Znak, V.G. Farafonov, Experimental Investigation of Heat Content in the Jet of Magnetoplasmadynamic Accelerator in Accordance with its Spatial Orientation, in: Adv. Plasma Phys. Res. v. 5, Nova Science Publishers Inc, New York, 2007: pp. 179–196.
Y.A. Baurov, A.A. Spitalnaya, A.A. Abramayan, V.A. Solodovnikov, Seismic activity of the earth, the cosmological vectorial potential and method of a short-term earthquakes forecasting, Nat. Sci. 03 (2011) 109–119.
Y.A. Baurov, F. Meneguzzo, A.Y. Baurov, A.Y.J. Baurov, Plasma Vacuum Bubbles and a New Force of Nature , The Experiments, Int. J. Pure Appl. Sci. Technol. 11 (2012) 34–44.
M.A. Margulis, Sonoluminescence, Physics-Uspekhi. 43 (2000) 259–282.
Y.A. Baurov, Research of global anisotropy of physical space based on investigation of changes in β and α-decay rate of radioactive elements , motion of pulsars and anisotropy of cosmic rays, Am. J. Mod. Phys. 2 (2013) 177–184.
Y.A. Baurov, I.F. Malov, F. Meneguzzo, Tornadoes and the global anisotropy of the physical space, Am. J. Mod. Phys. 3 (2014) 93–112.
Y.A. Baurov, I.F. Malov, Variations of Decay Rates of Radio-active Elements and their Connections with Global Anisotropy of Physical Space, Int. J. Pure Appl. Phys. 6 (2010) 469–482. Also at:
Y.A. Baurov, L. Albanese, F. Meneguzzo, V.A. Menshikov, Universal propulsion harnessing the global anisotropy of the physical space, Am. J. Mod. Phys. 2 (2013) 383–391.
Y.A. Baurov, F. Meneguzzo, L. Albanese, Experimental investigation of the traction force for a new space thruster, Am. J. Astron. Astrophys. (2014) (in press).
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
Tel: (001)347-983-5186