Metalliteollisuuden Standardisointiyhdistys

This document specifies dimensions, tolerances, materials, internal and external surface characteristics, and marking of stainless steels longitudinally fusion welded tubes for the food and chemical industry.

This document specifies tolerances on dimensions and form of extruded precision profiles in alloys EN AW-6060 and EN AW-6063, manufactured with and without a thermal barrier (see Figures 1 and 2). It applies to extruded products supplied without further surface treatment. Precision profiles covered in this document are distinguished from extruded profiles for general applications covered in EN 755-9 by the following characteristics:- they are mainly for architectural applications designed with mostly uniformly wall-thicknesses;- they are mainly used for architecture, mechanical engineering and automotive applications (except structural-parts and crash-elements); - the maximum weight per metre of 10 kg/m; - the max. wall-thickness proportion (S max/S min) of 3,5 mm. In the case of profiles which, due to the complexity of their design, are difficult to manufacture and specify, then special agreements between supplier and purchaser may need to be reached.NOTE The effect of the thermal barrier material on the dimensional tolerances is covered by this document although the actual thermal barrier material itself is not (see EN 14024).

This document, together with EN 1009-1:201X, specifies safety requirements and verification for the design and construction of mobile machinery for crushing, screening, feeding, conveying minerals and by-products: (cement, lime, gypsum. sand, gravel, industrial minerals, metaliferous ore, and hard and soft rock aggregates, coal) and by-products (slag and ashes, production and demolition waste) in construction and industry. In addition, this document specifies the type of information on safe working practices (including residual risks) to be provided by the manufacturer. The requirements of this document are complementary to the common requirements formulated in EN 1009-1, EN 1009-2, EN 1009-3, EN 1009-4, EN 1009-5. This part does not repeat the requirements from EN 1009-1, but adds or replaces them.When requirements of this document are different from those which are stated in EN 1009-1, EN 1009-2, EN 1009-3, EN 1009-4, EN 1009-5 the requirements of this document takes precedence over the requirements of EN 1009-1 for machines that have been designed and built according to the provisions of this document. This document, together with EN 1009-1, EN 1009-2, EN 1009-3, EN 1009-4, EN 1009-5 deals with all the identified significant hazards, hazardous situations and events relevant to machinery for cleaning, recycling, mud treatment when they are used as intended and under the conditions of misuse which are reasonably foreseeable by the manufacturer associated with the whole lifetime of the machine (see Annex A).This document does not cover:— design relating to road traffic regulations (e.g. lighting, dimensions, speed limit plate);— hazards arising from the use of the machines in potentially explosive atmospheres as well as from processing of explosive materials and risks related to electromagnetic compatibility; NOTE For travelling on public roads, national traffic regulations apply (e.g. braking, steering, lighting, towing etc.) until harmonised requirements are available.This European Standard is not applicable to mobile machines, which are manufactured before the date of publication of this European Standard by CEN.

This document specifies design criteria for closed water-based cooling systems in buildings. The requirements aim at achieving a proper technical quality level and maintaining the desired thermal indoor climate with minimum energy consumption.Systems for dissipating process heat from industrial processes, for example, are not covered by this document.This document does not amend product standards or product installation requirements. The standard covers cooling systems of the following type (see Figure 1):1) devices for the water-based heat rejection of the chilling system;2) devices for chilling and storage of chilled water;3) devices for the distribution of chilled water;4) devices for the absorption of heat ("cooling emission");5) control devices;6) safety devices.The design of such systems is described in this document. In the case of water-based cooling systems with local operating temperatures = 0 °C separate safety aspects may apply. The other Clauses of this document are still valid for those systems.This document does not cover the chilling system itself, but only the parts of the chilling system which are an integral part of the cooling system, including determination of the design performance.Furthermore this document does not cover:- the requirements for installation or instructions for operation, maintenance and use;- the design of the system components (e.g. recooler, chilling system, coolers, pipes, safety devices etc.).The relevant technical rules with regard to the prevention of corrosion are to be observed in the material selection for the system components and the nature of the heat transfer medium.

1.1 This document specifies safety and hygiene requirements for the design and manufacture of craft bakery and pastry depositors which:a) are intended to be used:— to deposit only pasty food (i.e.: cream, dough, batter etc.);— to deposit only on trays;— as standalone machines;— with manual loading of the dough in the hopper;b) are intended to be used with manual loading and unloading of the tray/s on/from the conveyor;c) can carry out only the following movements and relevant directions (see Figure 1a)):— Z: Vertical movement of the table and/or the deposit unit;— X: Horizontal movement of the conveyor;— Y: possible horizontal component of the movement only of the nozzles themselves inside the deposit unit;d) are fitted with one or more hoppers whose capacity is = 60 dm3 each; ande) have a total length of the tray conveyor = 1 600 mm;f) have a vertical movement between nozzles and conveyor = 200 mm;g) have a maximum deposit performance:— = 60 cycles/minute with up/down movement of the table or the deposit unit;— = 100 cycles/minute without up/down movement of the table or the deposit unit;h) have a maximum trays performance = 4 trays/minute.These machines are intended only for professional use.NOTE The machine is provided for being used by one operator at a time.The loading of the dough in the hopper can be done by means of a separate automatic loading system, but in that case the hazards arising from the use of the automatic hopper loading system are not covered by this document.This document deals with all significant hazards, hazardous situations and events relevant to adjustment, operation and cleaning of craft bakery and pastry depositors, when they are used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer.This document covers requirements for the safe operation of the machine, including loading, depositing, unloading, cleaning and maintenance.1.2 The following hazards are not covered by this document:— hazards arising from the use of an automatic hopper loading system;— hazards due to packaging, handling or transport;— hazards arising from electromagnetic compatibility issues;— hazards due to dismantling and disassembling;— hazards due to the noise emitted by the machine;— hazards due to control devices;— hazards due to operational stop;— hazards due to selection of control or operating modes;— hazards due to failure of the power supply;— hazards due to surfaces, edges or angles;— hazards due to combined machinery;— hazards due to variations in operating conditions;— hazards due to uncontrolled movements;— hazards due to adjustable guards restricting access;— hazards due to errors of fitting;— hazards due to radiation;— hazards due to laser radiation;— hazards due to isolation of energy sources;— hazards due to information and warnings on the machinery;— hazards due to information and information devices.The significant hazards covered by this document are described in Annex A.1.3 The following machines are excluded from the scope of this document:a) machines which deposit pasty food by means of needles (injection);b) machines where the trays are put onto and/or removed from the conveyor automatically;c) machines which require a blade for the cutting system;d) domestic appliances;e) machines for industrial production;f) machines to deposit other products than food for bakery and pastry products.1.4 In drafting this document, it has been assumed that the depositors falling within the scope are operated only by trained personnel. This document is not applicable to machines which are manufactured before the date of publication of this European Standard.

Standardi ehdotetaan vahvistettavaksi myös kansallisena SFS-ISO-standardina. This document specifies a spectrophotometric method for the determination of the phosphorus content in nickel, ferronickels and nickel alloys between 0,000 5 % (by mass) and 0,05 % (by mass). Arsenic, chromium, hafnium, niobium, silicon, tantalum, titanium and tungsten interfere, but the interferences can be avoided by complexation or volatilisation (for chromium). The lowest phosphorus content [0,000 5 % (by mass)] can only be reached in samples with low contents of these interfering elements.

This document specifies design and performance criteria arising out of the combination of a reciprocating internal combustion (RIC) engine and an alternating current (a.c.) generator when operating as a unit. This unit can run paralleling or not to the grid. It applies to a.c. generating sets driven by RIC engines for land and marine use, excluding generating sets used on aircraft or to propel land vehicles and locomotives. For some specific applications (e.g. essential hospital supplies and high-rise buildings), supplementary requirements can be necessary. The provisions of this document are a basis for establishing any supplementary requirements. For generating sets driven by other reciprocating-type prime movers (e.g. steam engines), the provisions of this document can be used as a basis for establishing these requirements.

This document specifies fire type-testing requirements and a fire type-test method for valves with one or more obturators. It is not applicable to the testing requirements for valve actuators other than manually operated gearboxes or similar mechanisms when these form part of the normal valve assembly. Other types of valve actuators (e.g. electrical, pneumatic or hydraulic) can need special protection to operate in the environment considered in this valve test, and the fire testing of such actuators is outside the scope of this document. This document specifies the measurement and assessment criteria for: This document specifies the rules whereby the fire-type testing qualification for a valve can be extended to untested sizes, pressure ratings, and materials of construction of the same basic design type. Fire test reports of valves tested according to previous editions of ISO 10497 are acceptable when submitted together with the full and compliant fire test report as per 6.7 of the edition under which it was tested. Additional testing is specified for double seated valves where the body cavity relief valve setting was not recorded in the original fire test report.

This document defines terms relating to lubricating systems. ISO 2710 gives a classification of reciprocating internal combustion engines and defines basic terms of such engines and their characteristics.

This document specifies performance requirements for treatment of wastewater using the activated sludge process for plants over 50 PT.A variety of activated sludge systems has been developed. This document has not attempted to specify all available systems. This document provides fundamental information about single stage systems.The informative Annexes A, B and C provide design information.

This document specifies data which is necessary for the planning, design, bidding, performance guarantees, construction, start-up and compliance testing of a wastewater treatment plant or parts of it. Differences in wastewater treatment throughout Europe have led to a variety of practices being developed. This document gives fundamental information about the practices; this document has not attempted to specify all available practices.

This document specifies the requirements for chemical treatment of wastewater by precipitation/flocculation for removal of phosphorus and suspended solids.The application of polymers is not described in this document.Differences in wastewater treatment throughout Europe have led to a variety of practices being developed. This document gives fundamental information about the practices; this standard has not attempted to specify all available practices.NOTE Chemical treatment can be performed in combination with primary and more commonly with secondary treatment, but it can also be performed as separate tertiary treatment, usually in combination with filtration (see EN 12255-16). Chemical treatment can provide a potential contribution to the circular economy through the recovery of materials, such as phosphorus, from wastewater or sludge.

This document defines minimum safety requirements to be observed in the planning, construction or reconstruction of wastewater treatment plants.The purpose of this document is to ensure the protection of people.

This document establishes the general principles to be adopted to minimize the effects of stray currentcorrosion caused by direct-current (d.c.) on buried or immersed pipeline systems. A brief description ofalternating current (a.c.) effects is provided.The document is intended to offer guidance for:— the design of cathodic protection systems which may produce stray currents;— the design of pipeline systems, or elements of pipeline systems, which are to be buried or immersed and which may be subject to stray current corrosion;— the selection of appropriate protection or mitigation measures.The effects of a.c. induced voltages are not dealt with in detail in this document because they arecovered in ISO 18086. General principles and guidelines are, however, provided.Stray current corrosion can also occur internally in systems containing a conducting electrolyte e.g.near insulating joints or high resistance pipe joints in pipelines transporting conductive fluids.Internal corrosion risks from stray currents are not dealt with in detail in this document but principlesand measures described here can be applicable for minimizing the interference effects.Stray currents can also cause other effects such as overheating. These other effects are not covered inthis document.A.C. currents can induce unacceptable touch voltages on above-ground appurtenances of pipelinesystems. These are not covered in detail in this document. They are covered in EN 50443, EN 61140,IEC 60364-4-41, IEC TS 60479-1, IEC 60364-5-52, IEC /TS 61201, and IEC TR 60479-5.Systems which may be affected by stray currents include buried or immersed metal structures such as:a) pipeline systems;b) metal sheathed cables;c) tanks and vessels;d) earthing systems;e) steel reinforcement in concrete;f) sheet steel piling.This document provides details only for pipeline systems although the principles can be applied toother buried structures. The EN 50162 series of standards also provide guidance for railway relatedstructures.