how to generate barcode in c# net with example % Load of one chiller 080 090 100 110 120 130 140 150 160 170 180 190 200 in Software

Generator Quick Response Code in Software % Load of one chiller 080 090 100 110 120 130 140 150 160 170 180 190 200

TABLE 145
Paint QR Code In None
Using Barcode creation for Software Control to generate, create Denso QR Bar Code image in Software applications.
QR Code 2d Barcode Reader In None
Using Barcode scanner for Software Control to read, scan read, scan image in Software applications.
Chiller Energy Consumption with Preferential Piping % Load and kW on efficient chiller 80 442 90 513 100 596 100 596 100 596 100 596 100 596 100 596 100 596 100 596 100 596 100 596 100 596 % Load and kW on inefficient chiller 10 175 20 209 30 246 40 286 50 332 60 393 70 455 80 519 90 592 100 660 Total kW of two chillers 442 513 596 771 805 842 882 928 989 1051 1115 1188 1256
Generating QR Code In C#.NET
Using Barcode generator for VS .NET Control to generate, create Denso QR Bar Code image in Visual Studio .NET applications.
Generating QR Code ISO/IEC18004 In VS .NET
Using Barcode generator for ASP.NET Control to generate, create QR-Code image in ASP.NET applications.
% Load of one chiller 080 090 100 110 120 130 140 150 160 170 180 190 200
Creating QR In .NET Framework
Using Barcode generation for .NET framework Control to generate, create QR Code image in .NET applications.
Make QR-Code In Visual Basic .NET
Using Barcode maker for .NET framework Control to generate, create QR Code image in .NET framework applications.
Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2006 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
Barcode Creator In None
Using Barcode creator for Software Control to generate, create bar code image in Software applications.
Barcode Maker In None
Using Barcode creation for Software Control to generate, create bar code image in Software applications.
Chillers and Their Pumps Chillers and Their Pumps 395
Code 128 Code Set B Maker In None
Using Barcode printer for Software Control to generate, create Code 128 Code Set B image in Software applications.
GTIN - 12 Generation In None
Using Barcode generation for Software Control to generate, create Universal Product Code version A image in Software applications.
TABLE 146
Data Matrix 2d Barcode Creator In None
Using Barcode generation for Software Control to generate, create DataMatrix image in Software applications.
GS1 128 Creation In None
Using Barcode printer for Software Control to generate, create EAN / UCC - 13 image in Software applications.
Chiller Energy Consumption with Equalized Piping % Load and kW on efficient chiller 80 442 90 513 100 596 55 303 60 326 65 360 70 377 75 405 80 442 85 476 90 513 95 553 100 596 % Load and kW on inefficient chiller 55 362 60 393 65 442 70 455 75 484 80 519 85 552 90 592 95 626 100 660 Total kW of two chillers 442 513 596 665 719 802 832 889 961 1028 1105 1179 1256
ISBN - 13 Generation In None
Using Barcode maker for Software Control to generate, create ISBN - 13 image in Software applications.
Read EAN-13 In Java
Using Barcode decoder for Java Control to read, scan read, scan image in Java applications.
% Load of one chiller 080 090 100 110 120 130 140 150 160 170 180 190 200
Generating UPC-A Supplement 5 In Visual C#
Using Barcode maker for Visual Studio .NET Control to generate, create UPC-A Supplement 2 image in Visual Studio .NET applications.
Make Code-128 In VB.NET
Using Barcode printer for Visual Studio .NET Control to generate, create ANSI/AIM Code 128 image in .NET applications.
Tables 145 and 146 demonstrate that preferential piping uses more energy than equalized piping for the two chillers in parallel The proper method of achieving maximum tonnage from the efficient machine in a two-chiller installation is (1) to provide equal flow to the chillers and secure equal return temperatures to them and (2) to adjust the chiller leaving temperatures to place more load on the more efficient chiller By raising the leaving water temperature 2 F on the inefficient chiller and lowering the temperature 2 F on the efficient machine, more of the load is transferred to the efficient machine The correct leaving water temperature is still achieved because the flow is equal in each machine Another method to minimize energy use is to hold the percentage of load on the inefficient machine constant at the point of lowest kilowatts per ton and to transfer the remaining load to the efficient machine There is no exact method to determine these optimized points of operation and temperature differences except by actual operation of the chillers and to record the total kilowatts with various transition points These are the proper methods of operating efficient chillers in the same system with inefficient chillers Utilization of the total kilowatt per ton efficiency for a chiller plant enables the operator to make such adjustments to achieve the lowest possible kilowatts per ton for the entire chilled water plant
Recognize Data Matrix ECC200 In Visual Studio .NET
Using Barcode recognizer for .NET framework Control to read, scan read, scan image in VS .NET applications.
Data Matrix 2d Barcode Generation In None
Using Barcode encoder for Word Control to generate, create Data Matrix ECC200 image in Word applications.
Note The data included in Tables 145 and 146 are typical of electric motor driven centrifugal chillers of approximately 800 tons capacity These energy consumptions are representations and should not be used
Code 39 Full ASCII Printer In None
Using Barcode encoder for Font Control to generate, create Code 3/9 image in Font applications.
Bar Code Generator In Java
Using Barcode generation for Android Control to generate, create bar code image in Android applications.
Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2006 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
Chillers and Their Pumps 396 Pumps for Closed HVAC Cooling Systems
for any actual installation of chillers of this size The energy consumption of any chiller, in kilowatts or kilowatts per ton, should be secured from its manufacturer and verified at the design load point conditions 147 Fuel-Fired Absorption Chillers Chilled water pumping for fuel-fired absorption chillers should be treated substantially like that for other chillers The principal difference in the two types of chillers is the minimum firing rate for the burners of fuel-fired chillers Most burners for this type of chiller have a minimum firing rate of around 30 percent of maximum fuel consumption If the load on the chilled water system drops below 30 percent of the capacity of the smallest chiller, unsatisfactory cycling may occur There are several methods of solving this problem The most common method with multiple chillers is (1) to select the chillers to handle the total load on the chilled water system and (2) at minimum load on the system, to operate the smallest chiller within 30 to 100 percent of its design load Another method that may offer a satisfactory solution is to employ chilled water storage as shown in Fig 131 With this arrangement, the normal chiller bypass becomes a chilled water storage tank that allows the chiller to run at a higher firing rate and cycle on and off in a reasonable manner by storing the excess chiller capacity in the storage tank On small systems, a pressuretype tank can be used, which will virtually eliminate the problems caused by open tanks On larger installations, the installed cost and space requirements of a pressurized tank may preclude its use When used, the installation of open storage tanks should be designed in accordance with the provisions of Chap 13
148 Connecting Primary Pumps to Chillers (Primary-Secondary) There are several methods of connecting primary pumps to multiple parallel chillers Figure 148a describes the simplest installation with an individual pump for each chiller that can be sized to the requirements of the individual chiller A simple balancing valve should be installed on each chiller to set the actual flow through each unit Many chiller manufacturers prefer this method of connection, because each pump can be started and stopped individually by the chiller control This enables the chiller manufacturer to program the pump to operate for a short time after the chiller has been stopped; this procedure helps to ensure that residual refrigerant will pass out of the evaporator If the headers and bypass are sized for minimum
Downloaded from Digital Engineering Library @ McGraw-Hill (wwwdigitalengineeringlibrarycom) Copyright 2006 The McGraw-Hill Companies All rights reserved Any use is subject to the Terms of Use as given at the website
Copyright © OnBarcode.com . All rights reserved.