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Section 13 14 15 Page 16 17 Introduction to Part III 13-1 Module Design 13-2 Component Design and Qualification 13-2 Submodule Assembly and Qualification 13-3 Pump Testing and Evaluation 13-4 Chlorine Hydrate Formation and Decomposition 13-4 Module Assembly 13-4 Initial Testing 13-4 Module Design 14-1 Introduction 14-1 Design Points and Projected Performance 14-1 System Description 14-3 Energy Balance 14-5 Heat and Mass Balance 14-6 Module Component Design andQualification 15-1 Introduction 15-1 Stack 15-2 Electrolyte and Gas Pumps 15-2 Electrolyte Manifold 15-4 Valving 15-6 Heat Exchangers 15-7 Hydrogen/Chlorine Reactor 15-11 Module Cases 15-12 Control System 15-13 Submodule Design, Assemblyand Qualification 16-1 Introduction 16-1 Design 16-1 Assembly 16-3 Qualification 16-10 Discussion 16-11 Pump Testing and Evaluation 17-1 Battery Pumping Requirements 17-1 Description of Pumping Equipment 17-3 Testing Requirements 17-8 Description of Test Equipment 17-10 PART III — 45kWh BATTERY MODULE DESIGN, ASSEMBLY, AND TESTING Experimental Results Discussion and Future Work Reference 17-13 17-18 17-23 xiPDF Image | Development of the Zinc-Chlorine Battery for Utility
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