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State register of the hydraulic installations The hydraulic installations, covered by this Law, shall be entered in the State Register of the Hydraulic Installations (hereinafter referred to as “Register”). (...) Inspection of hydraulic installations 9 The inspection of hydraulic installations shall be organized and carried out by the State Supervision Authority. (...) Financial security for civil liability for harm, caused as a result of a breakdown of a hydraulic installation An owner of a hydraulic installation should have financial security for civil liability for harm, which may be caused as a result of a breakdown of its hydraulic installation (a complex of hydraulic installations).
Language:English
Score: 790626.1 - https://unece.org/fileadmin/DA.../ModelLawFinal22-11-06_eng.pdf
Data Source: un
Page 52 - ITU-T Focus Group on Aviation Applications of Cloud Computing for Flight Data Monitoring - Use cases and requirements           Basic HTML Version Table of Contents View Full Version Page 52 - ITU-T Focus Group on Aviation Applications of Cloud Computing for Flight Data Monitoring - Use cases and requirements P. 52 ITU-T Focus Group on Aviation Applications of Cloud Computing for Flight Data Monitoring Use cases and requirements (33) Hydraulic pressure low (each system); (34) Ground speed (when an information source is installed); (35) Ground proximity warning system; (36) Landing gear position or landing gear cockpit control selection; (37) Drift angle (when an information source is installed); (38) Wind speed and direction (when an information source is installed); (39) Latitude and longitude (when an information source is installed); (40) Stick shaker/pusher (when an information source is installed); (41) Wind shear (when an information source is installed); (42) Throttle/power lever position; (43) Additional engine parameters (as designated in appendix F of this part); (44) Traffic alert and collision avoidance system; (45) DME 1 and 2 distances; (46) Navigation 1 and 2 selected frequency; (47) Selected barometric setting (when an information source is installed); (48) Selected altitude (when an information source is installed); (49) Selected speed (when an information source is installed); (50) Selected mach (when an information source is installed); (51) Selected vertical speed (when an information source is installed); (52) Selected heading (when an information source is installed); (53) Selected flight path (when an information source is installed); (54) Selected decision height (when an information source is installed); (55) Electronic flight instrument system (EFIS) display format; (56) Multi-function/engine/alerts display format; (57) Thrust command (when an information source is installed); (58) Thrust target (when an information source is installed); (59) Fuel quantity in (the centre of gravity(CG)) trim tank (when an information source is installed); (60) Primary navigation system reference; (61) Icing (when an information source is installed); (62) Engine warning each engine vibration (when an information source is installed); (63) Engine warning each engine over temperature (when an information source is installed); (64) Engine warning each engine oil pressure low (when an information source is installed); (65) Engine warning each engine over speed (when an information source is installed; (66) Yaw trim surface position; (67) Roll trim surface position; (68) Brake pressure (selected system); (69) Brake pedal application (left and right); 42     47     48     49     50     51     52     53     54          
Language:English
Score: 780681.7 - https://www.itu.int/en/publica...q/files/basic-html/page52.html
Data Source: un
Article 1. List of nuclear installations and radioactive waste management facilities of national significance Nuclear installations and radioactive waste management facilities of national significance include: nuclear power stations; nuclear heat supply stations; research nuclear reactors; radioactive waste treatment facilities (except for installations forming part of nuclear installation’s technological cycle and radioactive waste repositories); storage facilities for spent nuclear fuel or high-level radioactive waste with design storage period of over 30 years (except for installations forming part of nuclear installation’s technological cycle); repositories for spent nuclear fuel or radioactive waste. (...) The Verkhovna Rada of Ukraine makes a decision on siting, designing, and construction of nuclear installations and radioactive waste management facilities only after local bodies of executive power and bodies of local self-governance concerned have agreed to location of these installations or facilities in the territory under their jurisdiction. (...) Procedure of expanding existing nuclear installations and radioactive waste management facilities of national significance A decision to expand existing nuclear installations and radioactive waste management facilities of national significance, if the expansion is necessitated by the construction of reactors or storage facilities (except for interim storage facilities within the industrial site of a nuclear installation) not governed by this Law, shall be approved according to the same procedure as the approval of siting, designing and construction of nuclear installations and radioactive waste management facilities of national significance.
Language:English
Score: 779457.3 - https://unece.org/sites/defaul...ations%20and%20waste%20Eng.pdf
Data Source: un
ACTIVITIES CARRIED OUT ON FIELD INSTALLATIONS  As a definitive training milestone, the configuration, installation and commissioning of the three BTSs was conducted successfully by the MDENP engineers under the supervision of the Codium engineering team. • The NOC was installed in Ouagadougou and the configuration of the NOC servers and related software was completed. • One site in Ouagadougou (Ouaga1) was installed for all RF, network and power equipment installation including all the hardware, software and ancillaries. (...) Fig.5 The Core Router, Expedience, EMS Servers and networking elements installed in the NOC installed in Ouagadougou  ​ ​ Fig. 6 Networking equipment installed in the NOC​ Supervision of RF equipment installation, including all the hardware, software and ancillaries The engineering team presented the RF planning work undertaken using advanced RF simulation tools. (...) During the filed installations, professional training of ANPTIC technical staff was undertaken regarding all the parts of a successful operation (antennas and BTS installation, antennas' proper azimuth orientation and down-tilt setup, indoor equipment installation and the secure power supply installation)
Language:English
Score: 778876.2 - https://www.itu.int/en/ITU-D/T...y/Pages/McCaw-BURKINAFASO.aspx
Data Source: un
Floating techniques for installation of fibre-optic cables L.57: Air-assisted installation of fibre-optic cables This Recommendation describes air-assisted methods for installing fibre-optic cables in ducts. (...) Other installation techniques L.35: Installation of fibre-optic cables in the access network The Recommendation gives guidance for installation in ducts, aerial installation and directly buried cables in the access network. L.77: Installation of fibre-optic cables in sewer ducts This Recommendation describes methods to install ducts/fibre-optic cables inside sewer ducts.
Language:English
Score: 777703.03 - https://www.itu.int/dms_pub/it.../0B/04/T0B0400003B2C01PDFE.pdf
Data Source: un
Question 4/6 - Infrastructure and installation considerations for cables and equipment Français   Español   Print Version   Home : ITU-T Home : Study Period 2001-2004 Question 4/6 - Infrastructure and installation considerations for cables and equipment (New) Background and justification The privatization of telecommunication distribution and the growth of the internet has led to an increased number of trunk links on routes originally established by utilities to provide internal communication. (...) Recommendations to address the issues of new installations techniques are required to aid the establishment of the techniques. Study items Installation of cables along the railways Installation of cables along or within the gas pipelines and the oil pipelines Installation of optical fibre cables by blowing method Installation of optical fibre cables by floating technique Installation of signalling devices along underground cables Installation of equipment for the different kinds of fibre applications Infrastructure characteristics for cable installation (aerial, underground and inside buildings) Relationships IEC SC86A ISO 138/SC 5 Deliverables Recommendations on: Installation of fibre optic cables along the railways 2003 Cable installation by blowing and floating techniques 2003 Infrastructure characteristics for telecommunication elements inside buildings 2003   Top  -  Feedback  -  Contact Us  -  Copyright © ITU 2004  All Rights Reserved Contact for this page :  TSB EDH Updated : 2004-10-21    
Language:English
Score: 773125.93 - https://www.itu.int/ITU-T/2001-2004/com06/sg6-q4.html
Data Source: un
Ensure that the intended installation site is cleared and ready for immediate installation to commence; 10. (...) Minimum staff required on site, for installation purposes: - Engineers and/or technicians from the installation service supplier. (...) Are all installation sites ready for installation? l) Who in the CO can be contacted for queries?
Language:English
Score: 772177.34 - https://www.unicef.org/supply/...n-Cold-Rooms-Freezer-Rooms.pdf
Data Source: un
Question 6/6 - Installation of underground telecommunication cables in small trenches Français   Español   Print Version   Home : ITU-T Home : Study Period 2001-2004 Question 6/6 - Installation of underground telecommunication cables in small trenches (New)   Background and justification The need to save costs and to reduce time for the construction of underground infrastructures and for the installation of Telecommunications cables and the requirement to reduce the social impact of the excavation work, moves the operating companies to use new construction and installation techniques. (...) Recommendations to address the issues of these new installation techniques and the related cables and components are required to aid their establishment. Study items Mini-trench installation technique Micro-trench installation technique Cable and components for mini-trench and micro-trench installation techniques Relationships Not identified Deliverables Recommendations on: Mini-trench installation technique 2002 Micro-trench installation technique 2002 Design and characteristics of optical cable to be installed in micro-trench 2002 Design and characteristics of splice closures for micro-trench technique 2003   Top  -  Feedback  -  Contact Us  -  Copyright © ITU 2004  All Rights Reserved Contact for this page :  TSB EDH Updated : 2004-10-21    
Language:English
Score: 771376.46 - https://www.itu.int/ITU-T/2001-2004/com06/sg6-q6.html
Data Source: un
K.20 : Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Français   Español     Home : ITU-T : Publications : Recommendations : K Series : K.20 Recently posted  -  Search Recommendations     K.20 : Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents Recommendation K.20 In force components Number Title Status K.20 (06/21)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   In force Guide (04/2012)   Guide on the use of the overvoltage resistibility Recommendations   This guide assists test laboratories in implementing the correct tests for ITU-T K.20, K.21, and K.45 compliance testing. (...) In force     Superseded and Withdrawn components Number Title Status K.20 (11/88)   Resistibility of telecommunication switching equipment to overvoltages and overcurrents   Superseded K.20 (03/91)   Resistibility of telecommunication switching equipment to overvoltages and overcurrents   Superseded K.20 (03/93)   Resistibility of telecommunication switching equipment to overvoltages and overcurrents   Superseded K.20 (10/96)   Resistibility of telecommunication switching equipment to overvoltages and overcurrents   Superseded K.20 (02/00)   Resistibility of telecommunication equipment installed in a telecommunications centre to overvoltages and overcurrents   Superseded K.20 (07/03)   Resistibility of telecommunication equipment installed in a telecommunications centre to overvoltages and overcurrents   Superseded K.20 (2003) Erratum 1 (01/04)   Correction to table 7/K.20   Superseded K.20 Amendment 1 (11/04)   New Appendix I - Floating transverse power induction and earth potential rise test for ports connected to external symmetric pair cables   Superseded K.20 (04/08)   Resistibility of telecommunication equipment installed in a telecommunications centre to overvoltages and overcurrents   Superseded K.20 (11/11)   Resistibility of telecommunication equipment installed in a telecommunications centre to overvoltages and overcurrents   Superseded K.20 (04/15)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded K.20 (06/16)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded K.20 (12/16)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded K.20 (07/17)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded K.20 (10/18)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded K.20 (07/19)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded K.20 (11/19)   Resistibility of telecommunication equipment installed in a telecommunication centre to overvoltages and overcurrents   Superseded   Top  -  Feedback  -  Contact us  -  Copyright © ITU  2008 All Rights Reserved Contact for this page :  ITU-T Publications Updated : 2021-09-13  
Language:English
Score: 769483.15 - https://www.itu.int/rec/T-REC-K.20
Data Source: un
Issues to ensure before the starting the installation 1.1 The user has “full administrative rights” with the account he is using. 1.2 Microsoft Access (>=2003) has to be present on the machine and the “usage of the macros have to be enabled” during the installation. 1.3 Sufficient disk space if the user elects to perfume a local installation with copy to local disk. 2. (...) The installation will proceed fine (TerRaRevQ, then TerRaNV), but of course the IDWM won’t be installed. It is important to remember to install it manually at the end (please see 2.3 below).
Language:English
Score: 768752.25 - https://www.itu.int/en/ITU-R/t...FO-3-E_BRIFIC_installation.pdf
Data Source: un