Author
Boris Golman
Other affiliations: Suranaree University of Technology, Kitami Institute of Technology, Hokkaido University
Bio: Boris Golman is an academic researcher from Nazarbayev University. The author has contributed to research in topics: Particle size & Spray drying. The author has an hindex of 15, co-authored 83 publications receiving 674 citations. Previous affiliations of Boris Golman include Suranaree University of Technology & Kitami Institute of Technology.
Topics: Particle size, Spray drying, Particle, Agglomerate, Controlled release
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the effect of particle shape on the angle of internal friction of fine powders was investigated by triaxial compression test, and it was found that the angle increased with increasing angularity of particles and decreasing initial voidage of the specimen.
127 citations
TL;DR: The current study integrates the Functional Resonance Analysis Method and dynamic Bayesian Network for quantitative resilience assessment and provides a useful tool for rigorous quantitative resilience analysis of complex process systems on the level of technical-human-organizational interactions.
49 citations
TL;DR: In this article, the fine grinding characteristics of hard materials such as synthetic diamond and alumina were investigated by means of an attrition mill and the grinding kinetics approach was successfully applied to the analysis of product size distributions obtained under various process conditions.
44 citations
TL;DR: In this article, the energy efficiency and energy saving were studied for various values of recirculation ratios with respect to the temperature and flow rate of the drying air, slurry feed rate and concentration of slurry in spray drying of advanced ceramic materials.
39 citations
TL;DR: In this article, the effects of the particle feed rate, initial concentration of the components in the feed mixture and the number of components ( l = 2-5; particle diameters between 0.174 and 1.66 mm) were examined on the segregation pattern in a two-dimensional silo.
35 citations
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TL;DR: In this paper, the authors provide an updated and comprehensive description of the development of the Electric Current Activated/assisted Sintering technique (ECAS) for the obtainment of dense materials including nanostructured ones.
Abstract: This review article aims to provide an updated and comprehensive description of the development of the Electric Current Activated/assisted Sintering technique (ECAS) for the obtainment of dense materials including nanostructured ones. The use of ECAS for pure sintering purposes, when starting from already synthesized powders promoters, and to obtain the desired material by simultaneously performing synthesis and consolidation in one-step is reviewed. Specifically, more than a thousand papers published on this subject during the past decades are taken into account. The experimental procedures, formation mechanisms, characteristics, and functionality of a wide spectrum of dense materials fabricated by ECAS are presented. The influence of the most important operating parameters (i.e. current intensity, temperature, processing time, etc.) on product characteristics and process dynamics is reviewed for a large family of materials including ceramics, intermetallics, metal–ceramic and ceramic–ceramic composites. In this review, systems where synthesis and densification stages occur simultaneously, i.e. a fully dense product is formed immediately after reaction completion, as well as those ones for which a satisfactory densification degree is reached only by maintaining the application of the electric current once the full reaction conversion is obtained, are identified. In addition, emphasis is given to the obtainment of nanostructured dense materials due to their rapid progress and wide applications. Specifically, the effect of mechanical activation by ball milling of starting powders on ECAS process dynamics and product characteristics (i.e. density and microstructure) is analysed. The emerging theme from the large majority of the reviewed investigations is the comparison of ECAS over conventional methods including pressureless sintering, hot pressing, and others. Theoretical analysis pertaining to such technique is also proposed following the last results obtained on this topic.
1,087 citations
TL;DR: The development of CRCU is a green technology that not only reduces nitrogen loss caused by volatilization and leaching, but also alters the kinetics of nitrogen release, which provides nutrients to plants at a pace that is more compatible with their metabolic needs.
643 citations
TL;DR: The application of degradable natural materials as a coating when amending soils is the focus of EFF research and recent studies on materials used in EFFs and their effects on the environment are reviewed.
295 citations
TL;DR: The most recent literature in the field of membrane reactors is reviewed in this paper, which describes the potentials of these reactors, which now seem to be well established, and focusing mostly on problems towards practical exploitation.
241 citations
TL;DR: In this paper, a review of the state of the art on materials produced by fluidized bed chemical vapor deposition (FBCVD) is presented, where the authors focus on the ways to ensure such contact and particularly on the formation of fluidized beds.
Abstract: Chemical vapor deposition (CVD) is an important technique for surface modification of powders through either grafting or deposition of films and coatings. The efficiency of this complex process primarily depends on appropriate contact between the reactive gas phase and the solid particles to be treated. Based on this requirement, the first part of this review focuses on the ways to ensure such contact and particularly on the formation of fluidized beds. Combination of constraints due to both fluidization and chemical vapor deposition leads to the definition of different types of reactors as an alternative to classical fluidized beds, such as spouted beds, circulating beds operating in turbulent and fast-transport regimes or vibro-fluidized beds. They operate under thermal but also plasma activation of the reactive gas and their design mainly depends on the type of powders to be treated. Modeling of both reactors and operating conditions is a valuable tool for understanding and optimizing these complex processes and materials. In the second part of the review, the state of the art on materials produced by fluidized bed chemical vapor deposition is presented. Beyond pioneering applications in the nuclear power industry, application domains, such as heterogeneous catalysis, microelectronics, photovoltaics and protection against wear, oxidation and heat are potentially concerned by processes involving chemical vapor deposition on powders. Moreover, simple and reduced cost FBCVD processes where the material to coat is immersed in the FB, allow the production of coatings for metals with different wear, oxidation and corrosion resistance. Finally, large-scale production of advanced nanomaterials is a promising area for the future extension and development of this technique.
202 citations