Search results for "Flow distribution"

showing 4 items of 4 documents

Numerical Modelling of Room Thermal Comfort Conditions

2006

Particular heat transfer coefficients of building elements gives quantitative notion only about heat losses through this building element. Analysis of the overall heat balance and heat losses of complete building and study of particular contribution of building elements in overall balance allows one to figure out the state of the building and find the building elements of bounding construction with most significant heat losses. Project variants of the buildings (or rebuilding in case of renovation), which ensure the desirable economy of energy and proportions of investments can be find varying the proportions of the surface area of building elements (e.g., windows and doors). A lot of facto…

EngineeringComputer simulationbusiness.industryBounding overwatchPassive coolingHeat exchangerMechanical engineeringThermal comfortHeat transfer coefficientConstant (mathematics)businessmathematical modelling; numerical simulation; hydrodynamics; heat exchange; convective and conductive heat losses; ANSYS/Flotran; boundary constructions; temperature and air flow distribution; thermal comfort conditionsBlock (data storage)Environment. Technology. Resources. Proceedings of the International Scientific and Practical Conference
researchProduct

Capacity and safety analysis of hard-shoulder running (HSR). A motorway case study

2016

Abstract Operational motorway conditions can be improved by introducing traffic flow management and control systems, such as ramp metering (RM), high occupancy vehicle (HOV) lanes, real-time variable speed limits (VSLs), reversible lanes (RL), automated highway systems (AHS) and hard-shoulder running (HSR). The effects of such devices need to be examined in terms of capacity and safety. This paper examines the case study of the Italian motorway A22, which is supposed to be equipped with an HSR system implemented along 128 km in order to reduce congestion with consequent improvement in levels of service (LOS). We studied the traffic processes (capacity, flow distribution between lanes, relia…

EngineeringFlow distributionReliability (computer networking)Aerospace EngineeringTransportation010501 environmental sciencesManagement Science and Operations Research01 natural sciencesAutomotive engineering0502 economics and businessSettore ICAR/04 - Strade Ferrovie Ed AeroportiMetering modeHighway Safety ManualHSM0105 earth and related environmental sciencesCivil and Structural Engineering050210 logistics & transportationHard-shoulder runningCapacitybusiness.industryLevel of serviceSpeed limit05 social sciencesReliabilityVariable speed limitCrash frequencyControl systemBusiness Management and Accounting (miscellaneous)Safetybusiness
researchProduct

Splenic blood flow and intrasplenic flow distribution in rats

1977

In 75 rats, anesthetized with pentobarbital and breathing spontaneously, regional splenic blood flow (rSBF) was measured by means of the85Kr(β)-clearance technique after an intraaortic slug injection of the dissolved indicator. In the normal and undisturbed spleen in situ rSBF is linearly related to the mean arterial blood pressure (MABP) within the range of 30–140 mm Hg. Mean rSBF is 0.71 ml/g/min, the mean arterial blood pressure being 105 mm Hg. In normal rats rSBF decreases significantly with increasing body weight or age. After total obstruction of the open circulation by application of rigid spherocytes, mean rSBF is reduced to 0.26 ml/g/min and is independent of the mean arterial blo…

MalePentobarbitalmedicine.medical_specialtyPhysiologyFlow distributionClinical BiochemistryBlood PressureSpleenBody weightSpherocytesCarcinosarcomaPhysiology (medical)Internal medicinemedicineAnimalsChemistryBody WeightNeoplasms ExperimentalBlood flowKidney NeoplasmsRatsSurgerymedicine.anatomical_structureBlood pressurePerfusion rateRegional Blood FlowSplenomegalyBreathingCardiologyFemaleSpleenmedicine.drugPflügers Archiv European Journal of Physiology
researchProduct

A Multi-Port Approach to Solve Distribution Networks with Meshes and PV Nodes

2007

A new methodology based on the backward/forward (b/f) technique for the load flow solution in distribution systems is here proposed. The methodology takes efficiently into account the fixed voltage nodes and uses a reduced bus impedance matrix. In this way, it is possible to attain, for the unknowns at the PV nodes, the same values that are attainable solving the network with the methods adopted for transmission systems. With the same methodology it is possible to take into account also the meshes. If the network contains only meshes, the relevant model is linear and it is the one including the compensation currents. The presence of PV nodes introduces non linearity in the model and an iter…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaMathematical optimizationRobustness (computer science)Computer scienceIterative methodConvergence (routing)LinearityPolygon meshBackward/forward method load flow distribution networks PV nodes.Power-flow studyTransmission systemVoltage2007 IEEE Lausanne Power Tech
researchProduct