#Winwedge software atlas serial
For example, you could have a GPS receiver or a scale sending data into the serial port on a PC in New Zealand and then input the data from the device across the Internet directly into a spreadsheet running on a PC in Canada. With TCP-Com and TCP-Wedge, you could do things like connect a RS232 serial device to the serial port on one PC and then use TCP-Wedge to input data from that serial device directly into a program running on another PC somewhere in either the same network or across the Internet.
#Winwedge software atlas pro
TCP-Com is designed to expose a RS232 serial port to a TCP/IP port on a network and TCP-Wedge is exactly the same as WinWedge Pro except that it inputs data from a TCP/IP port instead of an RS232 serial port.
#Winwedge software atlas professional
The Professional Edition also has the ability to send or receive RS232 serial data across a TCP/IP network using two additional programs called TCP-Wedge and TCP-Com. You can also define format expressions in WinWedge Pro that allow you to do things like force a specific number of decimal places in numeric values or force data to contain an exact number or sequence of characters. WinWedge Pro also adds a number of advanced capabilities to the Standard Edition including a "Log to Disk Mode" that allows you to use it as an advanced serial data logger.
convert inches to millimeters, grams to ounces, etc.). Some of the advanced features of the parser are the ability to work with raw binary or hex data, the ability to apply math expressions to individual data fields in a stream of data for the purpose of scaling the data or converting units (i.e. The Professional Edition has a more advanced data parser that allows you to parse, filter and format more complex data from more sophisticated devices than the Standard Edition of WinWedge. This is one of the most powerful data acquisition toolsets available! in addition to the advanced features of WinWedge Pro. The Professional Edition is sold as a bundle that includes TCPWedge, TCP/Com, COM-File, TCP-File, and FileWedge. This research suggests that mechanical stresses can have a significant impact on the production rates of floc-associated and soluble EPS-key parameters governing membrane fouling in MBRs.Questions? Call us at: (800) 722-6004 or (215) 496-0222 This decrease in floc-associated EPS production also corresponds to a decrease in soluble EPS production, which can be explained by both the lower concentration of floc-associated EPS and the production of stickier floc-associated EPS that is more erosion resistant in the high shear reactor. Biomass grown in a high shear environment has lower floc-associated EPS production compared to biomass grown in a lower shear environment.
A mathematical model of floc-associated and soluble EPS production was applied to quantitatively describe changes in EPS production with shear. The stickiness of extracted floc-associated EPS from each reactor was also characterized using atomic force microscopy. The concentrations of floc-associated and soluble EPS were monitored for the duration of the experiment. Two identical MBRs were operated in parallel where the biomass in one reactor was exposed to seven times greater shear forces.
The current study examines the relationship between the level of shear and extracellular polymeric substance (EPS) production in MBRs. However, shear also influences the physicochemical and biological properties of MBR biomass. Shear is used to control fouling in membrane bioreactor (MBR) systems.
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