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Since 1999 until now - Building Research Institute (ITB), Warsaw, Poland; 2007 - Manager of Thermal Physics Section; 2008 - Manager of Thermal Physics, Sanitary Systems and Environment Laboratory and Department (in 2013); 2015 - Vice Director for Strategy and Development; 2017 - Director of Institute; 2008-2017 Member of the Scientific Council of ITB. Member of Standardisation Technical Committee - Thermal protection of buildings - national mirror for CEN/TC 89 Thermal performance of buildings and buildings components. Since 2011 Head of the Technical Committee - Thermal insulations products for building applications - national mirror for CEN/TC 88. 2006 - Ph.D. - the dissertation on thermal diagnostics of buildings envelopes based on computer simulations of temperature fields. 1999, MSc. at the Faculty of Civil and Sanitary Engineering, Lublin University of Technology, Specialty: Construction and Engineering Structures. Area of expertise: Sustainability aspects of construction products, works and buildings in the scope of thermal and energy performance; building systems quality and performance (HVAC and sanitary); hygienic and environmental performance. Limiting the energy use in buildings regarding ecological, economical and political aspects and energy-related LCA. Validation, implementation of evaluation methods based on computer modelling of the heat transfer and temperature fields in construction products and buildings.
The research paper presents a novel approach toward constructing motion equations for structures with attached MTMDs (multiple tuned mass dampers). A primary system with MDOF (multiple dynamic degrees of freedom) was reduced to an equivalent system with a SDOF (single degree of freedom) through the modal approach, and equations from additional MTMDs were added to a thus-created system. Optimization based on ℌ2 and ℌ∞ for the transfer function associated with the generalized displacement of an SDOF system was applied. The research work utilized GA (genetic algorithms) and SA (simulated annealing method) optimization algorithms to determine the stiffness and damping parameters for individual TMDs. The effect of damping and stiffness (MTMD tuning) distribution depending on the number of TMDs was also analyzed. The paper also reviews the impact of primary system mass change on the efficiency of optimized MTMDs, as well as confirms the results of other authors involving greater MTMD effectiveness relative to a single TMD.
Piotr Wielgos; Robert Geryło. Optimization of Multiple Tuned Mass Damper (MTMD) Parameters for a Primary System Reduced to a Single Degree of Freedom (SDOF) through the Modal Approach. Applied Sciences 2021, 11, 1389 .
AMA StylePiotr Wielgos, Robert Geryło. Optimization of Multiple Tuned Mass Damper (MTMD) Parameters for a Primary System Reduced to a Single Degree of Freedom (SDOF) through the Modal Approach. Applied Sciences. 2021; 11 (4):1389.
Chicago/Turabian StylePiotr Wielgos; Robert Geryło. 2021. "Optimization of Multiple Tuned Mass Damper (MTMD) Parameters for a Primary System Reduced to a Single Degree of Freedom (SDOF) through the Modal Approach." Applied Sciences 11, no. 4: 1389.
The repairs of building structures are inevitable and indispensable. Repairs are used to restore or maintain the usability of existing facilities, often contributing to the extension of their expected service life, increasing the sustainability of building resources. Given that conservation rules are observed, repairs are also used to save monuments. The concept of repair durability brings to the foreground the durability of the repaired structure (after repair): what service life has been obtained/recovered as a result of the repair. Based on the available data (limited set), a generalised distribution function of repair durability was developed, with a disappointing course. This, however, applies (necessarily) to the past. Significant progress was shown to have been achieved in the theoretical and technical fundamentals of technical repair measures. In this situation, a prognostic distribution function was also designed for future repairs according to EN 1504. A rule of thumb called estimating concrete repair durability, CRD was proposed. The risk associated with estimating the durability of repairs was indicated. A reason for optimism is that proactive monitoring of the condition of the structure and, consequently, management of the repair strategy allows to reach the designed life of the structure.
Lech Czarnecki; Robert Geryło; Krzysztof Kuczyński. Concrete Repair Durability. Materials 2020, 13, 4535 .
AMA StyleLech Czarnecki, Robert Geryło, Krzysztof Kuczyński. Concrete Repair Durability. Materials. 2020; 13 (20):4535.
Chicago/Turabian StyleLech Czarnecki; Robert Geryło; Krzysztof Kuczyński. 2020. "Concrete Repair Durability." Materials 13, no. 20: 4535.
External thermal insulation systems (ETICS) are relevant facade applications of functional components allowing to reduce energy consumption in buildings to fulfill the provisions of nearly Zero-Energy Buildings (nZEBs). ETICS systems generally are made of adhesives, thermal insulation material, renders with mesh reinforcement, primers, and finish coats. Their main parameters are thermal characteristics and durability, both determined by the specific composition of the systems. Growing concerns on the environment and depletion of natural resources drive the need for the determination of the environmental characteristic of ETICS due to its growing market demand. This analysis focuses on a life cycle assessment (LCA) of a commonly used EPS based ETICS system with four different renderings, produced in several locations. The scope of this study concerns raw materials extraction, transport, production, and energy provision up to the finished, packed, and ready-for-sale product at the factory gate. The authors compared the environmental impact allocated to the 1 m2 of the produced system by taking into account the thickness of EPS and within different environmental impact categories. The results of the current impacts were compared to those obtained five years earlier, considering the technological and environmental progress of the production process.
Bartosz Michałowski; Marta Marcinek; Justyna Tomaszewska; Sebastian Czernik; Michał Piasecki; Robert Geryło; Jacek Michalak. Influence of Rendering Type on the Environmental Characteristics of Expanded Polystyrene-Based External Thermal Insulation Composite System. Buildings 2020, 10, 47 .
AMA StyleBartosz Michałowski, Marta Marcinek, Justyna Tomaszewska, Sebastian Czernik, Michał Piasecki, Robert Geryło, Jacek Michalak. Influence of Rendering Type on the Environmental Characteristics of Expanded Polystyrene-Based External Thermal Insulation Composite System. Buildings. 2020; 10 (3):47.
Chicago/Turabian StyleBartosz Michałowski; Marta Marcinek; Justyna Tomaszewska; Sebastian Czernik; Michał Piasecki; Robert Geryło; Jacek Michalak. 2020. "Influence of Rendering Type on the Environmental Characteristics of Expanded Polystyrene-Based External Thermal Insulation Composite System." Buildings 10, no. 3: 47.
In the paper there was analyzed a mechanism of loss of performance properties of inverted roof insulation kits resulted by moisture increase of the insulation layers. This problem is very important in such systems because the thermal insulation is placed above the waterproofing layer and is not protected against water absorption. Abovementioned problem is more and more common in the course of building’s utilization in Polish climate conditions. Because inverted roof kits are based on extruded polystyrene (XPS) and expanded polystyrene (EPS), those materials have been used in tested samples. The results of laboratory tests showed the phenomenon and its effect on durability and sustainability of roof covering performance. It was also found that the biggest influence on the increase of moisture in the thermal insulation layer has not the long term water absorption by immersion but freeze –thaw cycles.
Barbara Francke; Robert Geryło. Inverted roof insulation kits and their durability. MATEC Web of Conferences 2018, 163, 08005 .
AMA StyleBarbara Francke, Robert Geryło. Inverted roof insulation kits and their durability. MATEC Web of Conferences. 2018; 163 ():08005.
Chicago/Turabian StyleBarbara Francke; Robert Geryło. 2018. "Inverted roof insulation kits and their durability." MATEC Web of Conferences 163, no. : 08005.
The assessment methodology for the sustainability of buildings is based on the analysis of environmental, social and economic performance. The main purpose of the paper is the presentation of energy-related conditions and envelope properties as well as methodology aspects. The first part of the paper presents the literature review on sustainability and zero-energy buildings. The second part is devoted to describe different energy indicators for the evaluation of primary energy requirements and energy characteristic. The last section describes the general methodology for characterization of energetic properties of the building envelope and gives examples from literature of the effect of applications in a building’s envelope an aerogel based thermal insulation for higher thermal transmittance and a PCM for higher latent heat capacity with general description of results obtained by other authors. The crucial measure is the use of high thermal performance components for the building’s envelopes combined with the heat storage potential. In the context of sustainability, energy related conditions constitute a new set of indicators for identifying the usefulness and the efficiency of new technologies.
R. Geryło. Energy-related conditions and envelope properties for sustainable buildings. Bulletin of the Polish Academy of Sciences Technical Sciences 2016, 64, 697 -707.
AMA StyleR. Geryło. Energy-related conditions and envelope properties for sustainable buildings. Bulletin of the Polish Academy of Sciences Technical Sciences. 2016; 64 (4):697-707.
Chicago/Turabian StyleR. Geryło. 2016. "Energy-related conditions and envelope properties for sustainable buildings." Bulletin of the Polish Academy of Sciences Technical Sciences 64, no. 4: 697-707.
Robert Geryło. Europejski rynek innowacji w budownictwie. MATERIAŁY BUDOWLANE 2016, 1, 126 -128.
AMA StyleRobert Geryło. Europejski rynek innowacji w budownictwie. MATERIAŁY BUDOWLANE. 2016; 1 (4):126-128.
Chicago/Turabian StyleRobert Geryło. 2016. "Europejski rynek innowacji w budownictwie." MATERIAŁY BUDOWLANE 1, no. 4: 126-128.