INTRODUCTION
APPLICATION OF THE GDV TECHNIQUE FOR STUDY OF WATER AND LIQUIDS

Informativeness of the GDV images of liquid objects was demonstrated in our works with Kirlian photography in the process of study of microbiological cultures [Korotkov K. 1998, pp.112-119]. Computerized GDV technique opened new perspectives for this method. It was demonstrated the changes of water GDV patterns under the influence of pyramids (colour fig.14 of this book), directed consciousness influence of a trained person [Korotkov K. 1998, pp.155-157], difference in GDV patterns for homeopathy remedies and flower essences. GDV-grams of a blood samples depend on the health state of a patient [Korotkov K. 1998, pp.132-141] and [Kukuy L., Gudakova G., 1998].

Three main techniques of water GDV images registration have been developed: with lying drop, with suspended drop and in a closed capsule (Fig.1). In the first case (Fig.1a) calibrated drop from the dispenser is placed on the transparent film on the instrument window and grounded electrode is inserted inside the liquid about one millimeter above the glass. This technique has low reproducibility and operates not with all the liquids due to the out-flow of drop under electrostatic forces.
Fig.1. Different methods of liquids GDV characteristics study. 1 - glass window of the GDV Camera; 2 - liquid; 3 - grounding electrode; 4 - glass tube (syringe); 5 - glass bottle.

In the second method with suspended drop (Fig.1b) it is important providing the stable configuration of the liquid's meniscus and stability of its distance to the window that creates some experimental difficulties. The third method is simpler (Fig.1c), but it is less sensitive compared with previous two. Special installation for the realization of the second method is available from Kirlionics Technologies Ltd.

Results obtained and techniques developed reveal perspectives of wide application of GDV technique for control of structural properties of liquids. This opens interesting new perspectives, for example, creating principally new biofeedback system of structurization of liquids for the controlled influence to the biological objects. For the controlled applications of the developed technique it was necessary to solve some methodical questions.

Research Objectives

  • Survey of the basic data on Water and its Properties.
  • Development of a Measuring conditions
  • Study of the GDV process standardisation.
  • Study of the statistical distribution of the GDV data
  • Development of a new principles of GDV data descriptions.
  • Study of sensitivity of the GDV Technique for test solutions.
  • Formulation of the Measuring Conditions for the GDV Water tests.
  • Development of a new Software and Devices for the GDV Water study.

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