PHYSICAL AND MATHEMATIC MODEL OF DRYING PROCESS OF ENERGETIC WILLOW

Abstract

The kinetics of drying chips of energy willow without mechanical processing and machining has been experimentally tested.

Authors and Affiliations

Oleksiy Dovgal, Аndriy Stepaniuk

Keywords

Related Articles

INCREASE PROFITABILITY OF THE REGIONAL RESOURCE BASE IN A DECENTRALIZED ENVIRONMENT

The article reveals the scientific opinion of the author on local finances not only as part of public finance, but also independent economic category. Much attention is paid to the reform of local finance, the developmen...

RESEARCH WORK OF POWER IN ROTARY FILM APPARATUS

The influence of fluid physical properties on the power that is spent on mixing and distribution of liquid is considered. The paper presents the results of experimental studies, which were carried out in a rotary film ap...

INVESTMENT CLIMATE IN UKRAINE: REALITY AND PERSPECTIVES

The limited economic resources of Ukraine raise the problem of the additional funding sources finding. One of these sources is domestic and foreign investment. In the article it is maintained that the investment environm...

PRACTICAL FEATURES OF PROVING IN THE COURT OF APPEAL INSTITUTION ON CIVIL CASES

In modern conditions, practitioners and scientists note the tendency of significant growth of citizens' appeals to the judiciary in order to protect their own interests and rights. At the same time, disputes are becoming...

COMPARATIVE ANALYSIS OF METHODS OF DEFINING CUSTOMS VALUE OF GOODS AND TRANSFER PRICE IN CONTROLLED OPERATIONS

The essence of methods of transfer pricing is determined in the article, advantages and disadvantages of their use are analyzed. The connection between transfer pricing methods and methods of determining the customs valu...

Download PDF file
  • EP ID EP602334
  • DOI -
  • Views 80
  • Downloads 0

How To Cite

Oleksiy Dovgal, Аndriy Stepaniuk (2018). PHYSICAL AND MATHEMATIC MODEL OF DRYING PROCESS OF ENERGETIC WILLOW. Международный научный журнал "Интернаука", 1(9), 47-49. https://europub.co.uk/articles/-A-602334