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J.GALINDO,H. CLIMENT,C. GUARDIOLA,J. DOMÉNECH 한국자동차공학회 2009 International journal of automotive technology Vol.10 No.2
Parallel sequential turbocharging systems are able to operate in different modes, which are defined according to the turbochargers that simultaneously boost the engine, and are controlled by means of specific valves. In order to cover the full engine operating range, a smooth transition between turbocharging operating modes must be ensured. However, important disturbances affect both boost and exhaust pressure when shifting the operation mode, thus causing non-negligible torque oscillations. This paper presents different methods for smoothing such undesirable effects during mode transition. Strategies covering optimal synchronization of the control valves, control of the valves’ position, and correction of the injected fuel during the transition are analysed. A fully instrumented passenger car engine is used for illustrating the different torque smoothing methods, and experimental results for transitions during both steady operation and engine accelerations are shown.
ANALYSIS OF GAS-DYNAMIC EFFECTS IN COMPACT EXHAUST SYSTEMS OF SMALL TWO-STROKE ENGINES
Galindo, J.,Serrano, J.R.,Climent, H.,Tiseira, A. The Korean Society of Automotive Engineers 2007 International journal of automotive technology Vol.8 No.4
This article describes a methodology based on experiments and 1D modeling work related to the exhaust system analysis of a small two-stroke engine. The primary goal of this work was to understand how the design criteria of a compact exhaust system influenced the exhaust port pressure, since its evolution controls not only engine performance but also exhaust emissions. On the experimental side, a fully instrumented 50cc two-stroke engine was used to check the behavior of three different exhaust systems. A problem related to instantaneous pressure measurements in unsteady, hot flow was detected and solved during the study. To build the 1D model of the three exhaust systems, experimental information on the steady flow and the impulse test rigs was obtained under controlled conditions in specific facilities. Accurate comparisons between measured and calculated exhaust port instantaneous pressures were obtained from the following different exhaust system configurations: a straight duct, a tapered pipe and the three compact exhaust systems. The last step in the method used this model to analyze the pressure waves inside the exhaust system and detect the influence of the geometric parameters. The results should lead to improvements in the design process of complex compact exhaust systems in two-stroke engines.
Analysis of Gas-Dynamic Effects in Compact Exhaust Systems of Small Two-Stroke Engines
J. GALINDO,J. R. SERRANO,H. CLIMENT,A. TISEIRA 한국자동차공학회 2007 International journal of automotive technology Vol.8 No.4
This article describes a methodology based on experiments and 1D modeling work related to the exhaust system analysis of a small two-stroke engine. The primary goal of this work was to understand how the design criteria of a compact exhaust system influenced the exhaust port pressure, since its evolution controls not only engine performance but also exhaust emissions. On the experimental side, a fully instrumented 50cc two-stroke engine was used to check the behavior of three different exhaust systems. A problem related to instantaneous pressure measurements in unsteady, hot flow was detected and solved during the study. To build the 1D model of the three exhaust systems, experimental information on the steady flow and the impulse test rigs was obtained under controlled conditions in specific facilities. Accurate comparisons between measured and calculated exhaust port instantaneous pressures were obtained from the following different exhaust system configurations: a straight duct, a tapered pipe and the three compact exhaust systems. The last step in the method used this model to analyze the pressure waves inside the exhaust system and detect the influence of the geometric parameters. The results should lead to improvements in the design process of complex compact exhaust systems in two-stroke engines.
A. J. TORREGROSA,J. GALINDO,C. GUARDIOLA,O. VARNIER 한국자동차공학회 2011 International journal of automotive technology Vol.12 No.3
This paper presents a methodology for diesel engine intake line analysis that combines specific element tests and modeling. The purpose of this methodology is to determine the impact of intake lines, or newly designed intake elements, on the volumetric efficiency of internal combustion engines while avoiding expensive on-engine tests. For this research, the intake system is divided into several elements which are individually characterized using flow and impulse test rigs. Next, individual systems are modeled using a one-dimensional code. Finally, these component models are coordinated to provide an evaluation of the volumetric efficiency. Intake lines coming from two turbocharged diesel engines are used to illustrate the method. The model is validated by comparing the model results with the actual system performance evaluated in engine test cells. Discussions of the feasibility of the technique and on the impact of element model inaccuracies on the overall system model are provided.
Lucila J. Virgen-Ceceña,Luis M. Anaya-Esparza,Ana V. Coria-Téllez,María de Lourdes García-Magaña,Hugo S. García-Galindo,Elhadi Yahia,Efigenia Montalvo-González 한국식품과학회 2019 Food Science and Biotechnology Vol.28 No.5
The nutritional quality, sensory attributes,polyphenols and acetogenins content in yoghurt and frozendessert formulated with soursop pulp were investigated. The addition of soursop pulp to yoghurt and frozen dessertimproved the sensory attributes and the nutritional qualityof soursop dairy products resulting in a composition of 0.92and 2.17% of dietary fiber, 11.25 and 9.84 mg/100 g ofvitamin C as well as 243.02 and 490.98 mg/100 g of totalpolyphenols, respectively. Acetogenins were extractedfrom both dairy products using maceration, sonication,microwave and Soxhlet. Sonication showed to be faster andsafer than the other methods for acetogenins extraction. Higher annonacin (an acetogenin) content was found inyoghurt (38 ng/g) than in frozen dessert (15 ng/g). Thequantification of bioactive compounds implied thenutraceutical properties to yoghurt and ice cream whenthey are added with soursop pulp. The results are useful forthe consumers seeking healthier foods.
Edith E. Lopéz-Martínez,Jesús A. Claudio-Rizo,Martín Caldera-Villalobos,Juan J. Becerra-Rodríguez,Denis A. Cabrera-Munguía,Lucía F. Cano-Salazar,Rebeca Betancourt-Galindo 한국고분자학회 2022 Macromolecular Research Vol.30 No.6
Novel synthetic strategies to produce biopolymer based hydrogels for biomedical applications are required currently. Collagen hydrogels for wound healing can improve their structural and physicochemical properties by incorporating polysaccharides within the fibrillar matrix. Novel hydrogels were synthesized by semi-interpenetration of guar gum (GG) in a matrix of crosslinked collagen with hydrophilic polyurethane. GG concentrations of 10, 20, 30, and 40 wt% on the semi- IPN matrices were tested. The addition of the polysaccharide accelerates the gelling time of the hydrogels; 30 wt% of GG allows a 68 ± 5% of physicochemical crosslinking, exhibiting a maximum swelling of 3496 ± 89% and both improved mechanical and thermal resistance. The short-range interactions established in these matrices, mainly of the hydrogen bond type, make it possible to delay their hydrolytic and proteolytic degradation. The structure and properties of these hydrogels could have potential application in biomedicine as dressings for chronic wound healing, tailoring the controlled release of drugs with therapeutic interest, cell viability and proliferation, cell signaling, hemocompatibility and antibacterial character.
Edith E. Lopéz-Martínez,Jesús A. Claudio-Rizo,Martín Caldera-Villalobos,Juan J. Becerra-Rodríguez,Denis A. Cabrera-Munguía,Lucía F. Cano-Salazar,Rebeca Betancourt-Galindo 한국고분자학회 2022 Macromolecular Research Vol.30 No.6
Determining the controlled release capacity of drugs with therapeutic interest as well as the biocompatibility of hydrogels based on natural and synthetic polymers is of the utmost importance to evaluate their potential performance in regenerative medicine strategies. Novel hydrogels were synthesized by semi-interpenetration of guar gum (GG) in a matrix of crosslinked collagen with hydrophilic polyurethane. GG concentrations of 10, 20, 30 and 40 wt% on the semi-IPN matrices were tested. These hydrogels have excellent in vitro biocompatibility, not demonstrating cytotoxic character for cells important in the healing process such as monocytes and fibroblasts, stimulating their proliferation, as well as evidencing hemocompatibility and antibacterial capacity. Also these matrices can encapsulate and release methylene blue in a controlled manner. The results of the evaluation of human monocyte signaling indicate that the semi-IPN matrix containing 30 wt% of GG allows higher segregation of beta-1 transforming growth factor (β1-TGF), a determinant cytokine in the construction of new tissue, showing that these hydrogels have potential application in biomedicine as dressings for chronic wound healing.