PDF Publication Title:
Text from PDF Page: 020
Capstone Turbine Corporation 21211 Nordhoff Street Chatsworth CA 91311 USA Technical Reference: C200 Hazardous Location Fire Suppression System 6. Fire Suppression System Operation The following steps describe what happens in a CO2 discharge sequence. For more information about the operation of the FSS Controller, refer to the Installation, Operation, and Maintenance Manual for the Kidde AEGISTM Conventional Fire Alarm Suppression Control Unit (P/N 06-236716-001) located in Table 1. 6.1. Sequence of Operation – Alarm Condition The FSS Controller continuously monitors the heat detectors and pressure activated switch at the Detector 1 terminals and the manual pull station at the Manual Release terminals. 1. If the FSS Controller detects that a heat detector or the CO2 pressure activated switch has been activated, the following sequence will occur: a. The FSS Controller electrically activates the control head on the main release tank and discharges CO2. b. The FSS Controller activates the two horn/strobes assemblies. c. The FSS Controller will actuate relays to notify the microturbine Hazloc Controller of the alarm status. 2. Discharge of CO2 by the main release tank results in the following sequence: a. The primary release tank discharges CO2 through the 1⁄2-inch main release line and the main release nozzles. b. Increased pressure in the 1⁄2-inch main release line also pressurizes the 1⁄4-inch stainless steel tube connected to the pneumatic pressure trip. This causes the CO2 louver to close. c. Increased pressure in the 1⁄2-inch main release line activates the pressure activated switch. d. Increased pressure in the 1⁄2-inch main release line activates the discharge indicator, providing visual indication that CO2 has been discharged. e. Increased pressure in the 1⁄2-inch main release line breaks open the odorizing cartridge, which releases an odorizing agent into the discharged CO2. f. Increased pressure in the 1⁄2-inch main release line activates the pressure operated control head on the extended release tank. This causes the extended release tank to discharge CO2 through the 1⁄4-inch extended release line and the extended release nozzles. 410089 Rev A (February 2013) Page 20 of 54 Capstone reserves the right to change or modify, without notice, the design, specifications, and/or contents of this document without incurring any obligation either with respect to equipment previously sold or in the process of construction.PDF Image | Technical Reference C200 Hazloc Fire Suppression System
PDF Search Title:
Technical Reference C200 Hazloc Fire Suppression SystemOriginal File Name Searched:
410089A_TR_C200_HAZLOC_PKG_FIRE_SUPPRESSION_SYSTEM.pdfDIY PDF Search: Google It | Yahoo | Bing
Capstone Turbine and Microturbine: Capstone microturbines used and new surplus for sale listing More Info
Consulting and Strategy Services: Need help with Capstone Turbine, sizing systems, applications, or renewable energy strategy, we are here to assist More Info
Container Lumber Dry Kiln: Since 1991 developing and innovating dry kilns using standard shipping containers More Info
Supercritical CO2 Lumber Dry Kiln: Compact fast drying in 3 days or less for small amounts of wood and lumber drying More Info
BitCoin Mining: Bitcoin Mining and Cryptocurrency... More Info
Publications: Capstone Turbine publications for microturbine and distributed energy More Info
FileMaker Software for Renewable Energy Developing database software for the renewable energy industry More Info
CO2 Gas to Liquids On-Demand Production Cart Developing a supercritical CO2 to alcohol on-demand production system (via Nafion reverse fuel cell) More Info
Stranded Gas for low cost power Bitcoin Mining Using stranded gas for generators may provide breakthrough low power costs for cryptocurrency miners. More Info
CONTACT TEL: 608-238-6001 Email: greg@globalmicroturbine.com (Standard Web Page)