ASME PTC-50:2002 pdf download

12-18-2022 comment

ASME PTC-50:2002 pdf download FUELCELL POWERSYSTEMS PERFORMANCE PERFORMANCE TEST CODES
1.1 OBJECT
This Code provides test procedures, methods, anddefinitions for the performance characterization offuel cell power systems. Fuel cell power systemsinclude all components required in the conversionof input fuel and oxidizer into output electrical andthermal energy.Performance characterization of fuelsystems includes evaluating system energy inputsand electrical and thermal outputs to determine fuel.to-electrical energy conversion efficiency and whereapplicable,the overall thermal effectiveness. Theseefficiencies will be determined to an absolute uncer-tainty of less than +2% at a 95% confidence level.(For example, for a calculated efficiency of 40%the true value lies between 38% and 42%.]
1.2 SCOPE
This Code applies to all fuel cell power systemsregardless of the electrical power output, thermaoutput, fuel cell type, fuel type, or system application.Fuel cell power systems contain an assembly otelectrochemical cells, which oxidize a fuel to gener-ate direct current electricity. Balance-of-plant subsys.tems may include controls, thermal management, afuel processor and a power conditioner. Some fuelcell power systems may contain additional powergenerating equipment such as steam generators, gasturbine generators, or micro-turbine generators. Thenet power output and all the fuel input to the systemshall be taken into account in the performance testcalculations.
This Code applies to the performance of overallfuel cell power svstems. The Code addresses com-bined heat and power systems, that is, the generationof electricity and usable heat at specific thermalconditions.It does not address the performance ofspecific subsystems nor does it apply to energystorage systems, such as repenerative fuel cells orbatteries. It also does not address emissions. reliabil-ity, safety issues, or endurance.
This Code contains methods and procedures forconducting and reporting fuel cell system testing including instrumentation to be used, testing tech.niques,and methods for calculating and reportingresults.
The Code defines the test boundary for fuel andoxidant input, secondary energy input and net electrical and thermal energy output, At these boundariesthis Code provides procedures for measuring temperature,pressure,input fuel flow and compositionelectrical power,and thermal output.
The Code provides procedures for determination ofelectrical efficiency or heat rate and overall thermaeffectiveness at rated or any other steady-state condition.The Code also provides the method to correctresults from the test to reference conditions.
1.3 TEST UNCERTAINTY
In accordance with ASME PTC 19.1,proceduresare provided for determining the uncertainty associ-ated with the calculated performance parameters ofthis Code (energy input, electrical energy and thermaloutputs,and electrical efficiency or heat rate). Inthe measurements made to determine performanceparameters, there are systematic errors produced bythe procedures and instrumentation recommendedin this Code. A table of these systematic errors maybe found in Section 4 of this Code.
Sample calculations of the uncertainties associatedwith the system performance parameters, which illustrate the effects of systematic errors and data,arepresented in Mandatory Appendix I of this Code.
A pretest uncertainty analysis is recommendedThe pretest analysis allows corrective action to betaken prior to the test, which will either decreasethe uncertainty to an appropriate level consistentwith the overall objective of the test or will reducethe cost of the test while still attaining the testuncertainty.
A post-test uncertainty analysis is mandatory. ltwill make use of empirical data to determine randommeasurement errors and test observations to establishwhether or not the required uncertainty has beenachieved.
This uncertainty procedure serves as a guide forpretest and post-test uncertainty calculations whenthe Code is used.

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