A5069673069- Process Optimization and Integration
- Product Development and Customization
- Microbial Metabolic Engineering and Bioproduction
- Chemistry and Chemical Engineering
- Embedded Systems Design Techniques
- Business Process Modeling and Analysis
- Sustainable Supply Chain Management
- Flexible and Reconfigurable Manufacturing Systems
- Risk and Safety Analysis
- Bioeconomy and Sustainability Development
- Carbon Dioxide Capture Technologies
- Advanced Data Processing Techniques
- Extraction and Separation Processes
- Advanced Control Systems Optimization
- Greenhouse Technology and Climate Control
- Systems Engineering Methodologies and Applications
- Distributed and Parallel Computing Systems
- Membrane Separation Technologies
- Reliability and Maintenance Optimization
- Computational Drug Discovery Methods
- Biofuel production and bioconversion
- Scientific Computing and Data Management
- Metaheuristic Optimization Algorithms Research
- Graph Theory and Algorithms
- Catalysis for Biomass Conversion
Széchenyi István University
2021-2023
Budapest University of Technology and Economics
2021-2022
Universidad Nacional de Colombia
2015-2020
Pázmány Péter Catholic University
2020
Because of the vast number academic products with focus on sustainability being currently generated, it is becoming exceedingly difficult and time-consuming to perform accurate literature reviews that have actual relationship such a topic correctly reflect its state art. Thus, this work proposes comprehensive Systematic Literature Review (SLR) design as novel approach for collecting body contributions any given research field in general particular. This guided by semi-automated procedure...
A systematic method is proposed for enhancing the energy efficiency of vertical farms when integrated into urban infrastructure. The relies on optimization a multiperiod model that determines system's best operation plan considering variations in its parameters throughout day. These include factors such as resources availability from infrastructure and fluctuations electricity prices. formulated solved via tools P-graph framework, which permits automatic formulation rigorous superstructure...
The design of sustainable manufacturing processes and supply chains is rapidly becoming a critical issue. reason the necessity providing for needs growing human population which increasingly prosperous across globe. To this purpose, review article explores most important elements sustainability science couples them with P‐graph framework, thereby rendering it possible to feasible process structures great ease. Structure an often‐overlooked aspect chain design, in part because even relative...
Reduction of CO2 emissions from industrial facilities is utmost importance for sustainable development. Novel process systems with the capability to remove will be useful carbon management in future. It well-known that major determinants performance are established during design stage. Thus, it important employ a systematic tool synthesis. This work approaches polygeneration plants negative emission technologies (NETs) by means graph-theoretic approach known as P-graph framework. As case...
P-graph is a popularly used framework for process network synthesis (PNS) and topological optimization. This short communication introduces Python interface to serve as linkage modern programming ecosystems. allows wider application of the fast efficient solver, provide structural enumeration in numerous fields. The proposed more integrative usage Artificial Intelligence (AI), machine learning, system engineering, chemical engineering chemometrics. Large repetitive topologies can also be...
Abstract Wastewater treatment consists of three or four sequential stages: preliminary, primary, secondary, and tertiary. Each stage can comprise multiple alternative technologies that perform the same tasks with different efficiencies, operating times, costs. Thus, we propose a systematic approach for designing wastewater networks by utilizing principles mathematical modeling generating an exhaustive enumeration all possible their connections during early stages facility. Some these...
Benzaldehyde is a chemical of significant importance in variety industries, which mainly manufactured from toluene. In this work, authors develop process flowsheets terms profit for the production benzaldehyde toluene via process-network synthesis by deploying an algorithmic method based on P-graphs. First, best reaction combination obtained. Second, set operating units that can perform identified; corresponding maximal structure constructed with P-graph representations these units. Third,...
Valorization of productive chains based on crops is utmost interest for countries with potential obtaining products from agricultural resources. In this regard, contribution explores the valorization sugarcane through diversification one its derivatives: lactic acid (LA). A set chemical processes yielding valuable products, such as esters and polylactic acid, was synthesized by means P-graph methodology. The operating units considered were evaluated simulation Aspen Plus MATLAB to estimate...
As a result of the increasing human population, availability resources per capita has been vastly diminished in last decades. Naturally, depletion valuable environmental assets such as water and arable land, poses threat to mankind’s sustainable development. In this regard, various novel ideas have proposed for processing agricultural products ecologically sustainably; one is vertical farming (VF). VF production technology that aims at enhancing both yield product quality, by growing them...
P-graph framework that was originally developed for processing network synthesis (PNS), has been extended to heat exchanger (HENS). On the basis of new formulation, PNS and HENS can be solved simultaneously by adapting formerly algorithms. Therefore, optimality overall procedure guaranteed, which is not possible traditional sequential procedures HENS. The solution a case study illustrates process structure determined simultaneous approach substantially different from generated approach,...
In the tannery industry approximately, 30 - 35 m3 of wastewater (WW) is generated per ton rawhide processed. The WW comprises high concentrations salts, ammonia, dye, solvents, and chromium. Of particular interest chromium, which has been proven to cause dermatological, developmental, reproductive issues on exposure. Thus, there a need for appropriate treatment before it discharged natural remediation. However, designing process multifaceted due availability multiple technologies that can...