thermofluids.net  > Map
Takes You to this Page Takes You to this Page
Copyright 1998-: Subrata Bhattacharjee
Root page for the daemon search. Click here to search systematically. Begin system analysis here. The system is assumed quite general at this point. Evaluate properties of an extended state. Evaluate extended states involving a uniform (described by a single state) system. Evaluate extended states involving a uniform (described by a single state) flow. Utility daemons and extensive tables and charts. Unit converter that learns from users. A desktop calculator (in a pop-up) that uses Excel syntax. Handy for manual solution and verification of TEST results. No mass transfer across the system boundary makes a system closed. Mass transfer through inlet and/or exit ports characterize open systems. Closed system going from a unique begin-state to a unique finish-state. Overall analysis of a heat engine, refrigerator, or a heat pump, treated as a closed steady system. Global state of the open system does not change with time, its picture remains frozen in time. Open systems going from a unique begin-state to a unique finish-state (charging and discharging). Closed processes that do not belong to specialized topics. Closed processes involving one of the speciality topic listed below. Open steady systems that do not belong to specialized topics. Open steady systems involving one of the speciality topic listed below. Model IC engines using air-standard closed-process cycles such as Otto, Diesel, etc. Air conditioning and psychrometric processes involving closed processes. Combustion and chemical equlibrium analysis involving closed processes. Closed processes involving a uniform system. Closed processes involving two sub-systems that do not exchange mass. Closed processes involving two sub-systems that undergoes mixing, producing a single finish state. Closed processes involving two sub-systems that undergoes partial mixing before the process is tarminated. Analyze high speed flows of gases (including normal and oblique shocks, P-M waves, etc.) Analyze Rankine cycle, Brayton cycle, and their modifications. Analyze vapor compression and gas refrigeration cycles and their modifications. Analyze psychrometric devices (including cooling towers) operating at steady state. Analyze combustion and chemical equilibrium involving open steady devices. Open steady systems involving two flows mixing into one or one flow splitting into two. Open steady systems involving two flows, which do not mix. Open steady systems involving a single flow (one inlet and one exit port).