1 / 34

JBT FoodTech PED 97/23 EC EN 378

JBT FoodTech PED 97/23 EC EN 378. Staffan Sundsten 2013-11-06. CE-marking…why?. Before all countries had there local regulations … Easier product trade in europe and worldwide Safer products both for environmental and humans

garin
Download Presentation

JBT FoodTech PED 97/23 EC EN 378

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. JBT FoodTech PED 97/23 EC EN 378 Staffan Sundsten 2013-11-06

  2. CE-marking…why? • Before all countrieshadtherelocalregulations… • Easierproducttrade in europe and worldwide • Saferproductsboth for environmental and humans • CE-mark securesmanufactortaking full responsibilityregardingeuropeandirectives • CE = “ConformitéEuropéenne” wich means fulfills CE-directives • CE-directives = European Law

  3. Refrigeration directives… • Pressure Equipment Directive - 97/23 EC (PED) • Machine directive - 2006/42 EC (MD) • Low Voltage directive - 2006/95/EC (LVD) • Electromagnetical directive - 2004/108/EG • EN 378-2 = C-standard Design according to this standard means Directives Fulfilled!

  4. Pressure Equipment Directive (PED 97/23 EC) The pressure equipment is classified according to 4 categories (I-IV) The categories are determined by: • Pressure (max pressure the equipment is made for) • Volume (for pipes: diameter) • Content (medium) The category is set with the help of nine (9) different diagrams

  5. Diagram 1- Pressure vessels, Ps= Max allowed pressure in bar that the supplier state that the pressure vessel are designed after.

  6. Diagram 7. Pipes, DN = The nominal size of the pipe.

  7. Pressure Equipment Directive (PED 97/23 EC) The category give a so called Module according to the table below. The Module gives the extent of the control required.

  8. Pressure Equipment Directive (PED 97/23 EC) technical file… Module G: • General descriptionassembly (system overview) • Flowchart • List ofused standards • Design calculation • Declarationsofconformity • Risk assessment PED/MD • Technicalfile installation (WPQ,PQR, NDT….)

  9. Design standard refrigeration systems worldwide European refrigeration standard: EN 378 American refrigeration standard: ISO/CD 5149 Australian refrigeration standard: AS/NZS 1677

  10. EN 378:2008 Refrigeration systems and heat pumps… • EN 378-1 Safety and environmental requirements. • EN 378-2 Design, construction, testing, marking and documentation. • EN 378-3 Installation site and personal protection. • EN 378-4 Operation, maintenance, repair and recovery. To fulfill directives there are harmonized standards…

  11. Other important standards related to EN 378-2… EN 13136 Refrigeration system (design capacity safety relief valves/lines) EN14276 (general requirements of pressure vessels/pipes refrigeration) EN 13480 (industrial piping…welding and materials) EN 13445 (design pressure vessels) EN 10216 (Approved Low temperature materials)…

  12. What do we sell? • Modules/units • Plant • Assembly • JBT delivers units and separate declaration of conformities • JBT delivers a complete unit but the customer is responsible for integration and an accredited notified body approves installation. CE certificates on sub units. • JBT delivers a complete assembly– JBT is integrator and supplies CE certificate on system

  13. Who is the integrator and responsible for the approval? There are three different players in the project that can take on the roll as an integrator: • Refrigeration contractor - The company installing piping and the other equipment. • JBT – In this case JBT delivers a complete refrigeration system with subunits from several different suppliers, including piping. • The customer – In this case the customer is building the system himself with internal resources.

  14. Important to buy components as part assemblies and decide who is integrator! Vessels Pipes Condensor Compressor Pack LVS

  15. Design & documentation communicated • Design • Declaration of conformity • Calculations safety relief line&pipes • Risk analysis etc Pressure test & 1stinspection • Approval installation refrigeration system • operators manual • Manufactorplate • Technicalfile installation company Approvaltechnicalfile Design and documentation according to EN 378-2 Approval process with notified body… Certificate Declaration of conformity JBT • Final approval • JBT declaration of conformity • Certificate from notifiedbody

  16. Declaration of Conformity according to 97/23 EC… • should contain: • Name and address manufacture • Description of pressure equipment/Assembly • Module and Category • Harmonized standards used • References of other applied directives • Name and address of notified body • Sign from authorized represented manufacture • Certificate examination • See example of JBT-declaration…

  17. Seeexampleof JBT-declaration… Word document

  18. Learnings approval process • Declaration of conformity according to PED 97/23 • Safety relief valves (calculations, pressure protocol, design etc) • To check that over flow valves are safety valve approved • Minimum Pipe thickness to be calculated all projects • Risk assessment according to MD 2006/42 and PED 97/23 all projects where JBT Foodtech is integrator. • To assure that installation company have welders certificate that covers pipe sizes

  19. Some remarks from inspections with notified body… Remark: Overflow valve not approved as safety valve! Action: Change valve and repipe. Remark: Safety valve flanges not approved! Action: Change flanges

  20. Second hand Pressure equipment • PED 97/23 EC • The application of and compliance with the Directive is mandatory from 29 May 2002. • Equipment manufactured before : • Fulfill directive 89/655 EC (minimum directive for working equipment ) or to fulfill local rules • Need to check with local notified body the demand of: • Documentation • Risk assessment

  21. SOME REFRIGERANTS AND ITS IMPACT ON ENVIRONMENT AND HUMAN SAFETY

  22. NATURAL REFRIGERANTSNatural refrigerants are the answer for high capacity and high efficiency operation. • Air - R 729 • Water - R 718 • Ammonia - R 717 • Carbon dioxide - R 744 • Hydrocarbons, such as propane - R 290 and isobutane - R 600a

  23. NH3 – Ammonia- Because of the characteristic smell, ammonia it is the only refrigerant in the world that warns long before it is dangerous and gives persons chance to move away. - Ammonia is toxic when inhaling, corrosive to the eyes, respiratory, skin and flammable at certain conditions.- Therefor it has to be treated with care and all ammonia systems must be designed with safety in mind. - At the same time, unlike most refrigerants, Ammonia has a characteristic smell that can be detected by humans at very low concentrations which give a warning signal if having leakage. - Already at around 20-25 ppm you will feel very uncomfortable.

  24. Energy efficiency Ammonia is one of the most energy-efficient applications, the application range from high to low temperature. Normally flowing ammonia system is 15-20% more energy efficient than a DX R404A counterpart. EnvironmentAmmonia is the most environmentally friendly refrigerant. It belongs to the group of so-called "natural" refrigerants, and it has both GWP (Global Warming Potential) and ODP (ozone depletion potential) of zeroSmaller pipe sizesBoth vapour and liquid ammonia requires smaller diameter than most chemical refrigerants.

  25. Better heat transferAmmonia has better heat transfer properties than the majority of chemical refrigerants and therefore allows devices with a smaller heat transfer area used. These properties also favours the thermodynamic efficiency of the system andreduces the operational costs of the system.Refrigerant costIn many countries, the cost of ammonia (per kg) significantly lower than the cost of HFCSafetyAs described earlier, Ammonia is toxic when inhaling, corrosive to the eyes, respiratory, skin and flammable at certain conditions. That is why it must be handled carefully, and all the ammonia systems must be designed with safety in mind.

  26. In Sweden: NGV (24 h): 20 ppm TGV (15 min): 50 ppmAlarm levels:C: Leakage, non acute: 50 - 300ppm B: Acute: 500 - 1000ppm A. High level , plant is stopped = Protection of people > 3000ppm

  27. SYNTHETIC REFRIGERANTS1. CFC (Clorofluorcarbon - a member of the FC family containing only chlorine, fluorine and carbon.)The Montreal Protocol of 1987 has phased out the production of CFC refrigerants. CFC is not to be used at all since January 1, 2000. The actual CFC refrigerants are: R 12, and azeotropic blend R 502.

  28. 2. HCFC (Hydrofluorocarbon - a member of FC family containing hydrogen, chlorine, fluorine and carbon.) HCFC has limited future for new design. HCFC are not allowed to be used in new installations or to re fill. A total stop is expected from Jan 1, 2015. The main HCFC refrigerant is: R 22 and blends with R 22.

  29. 3. HFC (Fluorohydrocarbons - a family of chemicals containing fluorine hydrogen and carbon.) HFC refrigerants are the answer to many refrigeration applications. Pure HFC or blends should be avoided for large size food freezing and food preservation.Below some HFC as alternatives to R 22

  30. R134a can be an option upon conversion in cases where a power loss can be accepted or if the compressor displacement can be increased enough without other factors adversely affected. Suitable mainly for chilling applications. Oil change requiredR404a (R507) is usually the best option in the refrigerator and freezer facilities but an increase in power output and higher condensing pressure must be considered. In air conditioning the energy efficiency is reduced and electrical output will increase significantly. Oil change required.

  31. R407Cis a proven alternative in facilities with appropriate heat exchangers but requires that the oil is changed to ester oil except in rotary compressors which typically special low viscosity alkyl benzene oils are recommended. R417A (Isceon 59) is poorly documented but is interesting when the cost of oil change is considered too high while capacity reduction and some uncertainty is acceptable, for example, if the unit is to be replaced relatively soon. R410Ais not an option for conversion of existing R22 systems

  32. For small refrigeration plants (~30-50 kW), HFC is attractive since the investment is much less than if installing an ammonia plant. Freon's are not normally considered as dangerous for people, but it is well known that Freon's has a very big impact on the environment.

  33. GWP Global warming potential, compared to the GWP of CO2. All GWP figures here are based on the 100 year time horizon.ODP Ozone Depletion Potential - compared to ODP of R 11 which is defined as 1.Refrigerant ODP GWPR 22 HCFC 0.055 1700R 134a HFC pure refrigerant 0 1300R 404A HFC zeotropic blend 0 3800R 407C HFC zeotropic blend 0 1600R 410A HFC zeotropic blend 0 1900R 507 HFC azeotropic blend 0 3800R 290 propane 0 3R 600a isobutane 0 3R 717 ammonia 0 0R 744 carbon dioxide 0 1

  34. The END

More Related