Fuel cell technologies — Part 3-100: Stationary fuel cell power systems — Safety (Adopted IEC 62282-3-100:2019, second edition, 2019-02, with Canadian and U.S. deviations)
This is the first edition of CSA/ANSI FC 1 • CSA C22.2 No. 62282-3-100, Fuel cell technologies — Part 3-100: Stationary fuel cell power systems — Safety, which is an adoption with Canadian and U.S. deviations of the identically titled IEC (International Electrotechnical Commission) Standard 62282-3-100 (second edition, 2019-02). It replaces ANSI/CSA FC 1-2014 (adopted IEC 62282-3-100:2012, with U.S. deviations). It also replaces CSA C22.2 No. 62282-3-100:15 (adopted IEC 62282-3-100:2012, with Canadian deviations).
The Canadian and U.S. deviations are intended to
a) correct inaccuracies; and
b) replace references to IEC Standards with references to Canadian and U.S. Standards, where applicable.
This Standard has been developed in compliance with Standards Council of Canada requirements for National Standards of Canada. It has been published as a National Standard of Canada by CSA Group.
This Standard has been approved by the American National Standards Institute (ANSI) as an American National Standard.
This part of IEC 62282 applies to stationary packaged, self-contained fuel cell power systems or fuel cell power systems comprised of factory matched packages of integrated systems which generate electricity through electrochemical reactions.
This document applies to systems
a) intended for electrical connection to mains direct, or with a transfer switch, or to a stand-alone power distribution system;
b) intended to provide AC or DC power;
c) with or without the ability to recover useful heat;
d) intended for operation on the following input fuels:
1) natural gas and other methane rich gases derived from renewable (biomass) or fossil fuel sources, for example, landfill gas, digester gas, coal mine gas;
2) fuels derived from oil refining, for example, diesel, gasoline, kerosene, liquefied petroleum gases such as propane and butane;
3) alcohols, esters, ethers, aldehydes, ketones, Fischer-Tropsch liquids and other suitable hydrogen-rich organic compounds derived from renewable (biomass) or fossil fuel sources, for example, methanol, ethanol, di-methyl ether, biodiesel;
4) hydrogen, gaseous mixtures containing hydrogen gas, for example, synthesis gas, town gas.
This document does not cover:
• micro fuel cell power systems;
• portable fuel cell power systems;
• propulsion fuel cell power systems.
NOTE For special applications such as marine auxiliary power, additional requirements can be given by the relevant marine ship register standard.
This document is applicable to stationary fuel cell power systems intended for indoor and outdoor commercial, industrial and residential use in non-hazardous areas.
This document contemplates all significant hazards, hazardous situations and events, with the exception of those associated with environmental compatibility (installation conditions), relevant to fuel cell power systems, when they are used as intended and under the conditions foreseen by the manufacturer.
This document deals with conditions that can yield hazards on the one hand to persons, and on the other to damage outside the fuel cell power system only. Protection against damage to the fuel cell power system internals is not addressed in this document, provided it does not lead to hazards outside the fuel cell power system.
1DV Add the following:
This Standard applies to the safety of stationary fuel cell systems intended for installation and use in accordance with CSA C22.1, Canadian Electrical Code, Part I.
Fuel cell technologies - Part 3-100: Stationary fuel cell power systems - Safety (Adopted IEC 62282-3-100:2012, first edition, 2012-02, with Canadian deviations) | Technologies des piles à combustible - Partie 3-100 : Systèmes d'alimentation de piles à combustible fixes - Sécurité (norme IEC 62282-3-100:2012 adoptée, première édition, 2012-02, avec exigences propres au Canada)