Find the standard you are looking for at Engineering360. Documents are available for purchase from the IHS Standards Store.

1 - 17 of 17 results

HI/HYDRAUL - HI 40.7 - HYDRAULIC INSTITUTE PROGRAM GUIDE FOR PUMP TEST LABORATORY APPROVAL - A141 Organization: HI/HYDRAUL
Date: 2015-01-01
HI/HYDRAUL - HI 6 - HYDRAULIC INSTITUTE STANDARDS FOR CENTRIFUGAL, ROTARY & RECIPROCATING PUMPS Organization: HI/HYDRAUL
HI - ANSI/HI 1.6 - CENTRIFUGAL PUMP TESTS (M104) Organization: HI
Date: 2000-01-01
Description: The other, promulgated by the Hydraulic Institute (HI), designated HI 1.6, Centrifugal Pump Tests, and HI 2.6, Vertical Pump Tests, also provides for two levels of test in which the test procedures are less restrictive.
HI/HYDRAUL - ANSI/HI 2.6 - VERTICAL PUMP TESTS (M108) Organization: HI/HYDRAUL
Date: 2000-01-01
Description: The other, promulgated by the Hydraulic Institute (HI), designated HI 1.6, Centrifugal Pump Tests, and HI 2.6, Vertical Pump Tests, also provides for two levels of test in which the test procedures are less restrictive.
AWWA E103 - HORIZONTAL AND VERTICAL LINE-SHAFT PUMPS Organization: AWWA
Date: 2015-06-07
Description:   Pump types included in this standard.  Horizontal pumps. Refer to Hydraulic Institute (HI) Standard ANSI/HI 1.1-1.2 for a description of types: 1.
SAE/TP - 2011-01-2587 - TRANSIENT THERMOHYDRAULIC MODELING OF CAPILLARY PUMPED LOOP Organization: SAE/TP
Date: 2011-10-18
Description: Thanks to their heat transport capacity and their passive pumping, two-phase fluid capillary pumped loops appear among identified alternative solutions.
HI/HYDRAUL - ANSI/HI 4.1-4.6 - SEALLESS, MAGNETICALLY DRIVEN ROTARY PUMPS FOR NOMENCLATURE, DEFINITIONS, APPLICATION, OPERATION, AND TEST - A111 Organization: HI/HYDRAUL
Date: 2010-01-01
Description: 2) Use of Hydraulic Institute Standards is completely voluntary. Existence of Hydraulic Institute Standards does not in any respect preclude a member from manufacturing or selling products not conforming to the Standards.
SAE/TP - 2012-01-2039 - ANALYSIS OF THE METERING BEHAVIOR AND THE ENERGY EFFICIENCY OF A DOSING PUMP Organization: SAE/TP
Date: 2012-09-24
Description: A general study of the energy conversion process in the pump is presented. Besides mechanics and the hydraulic system, the model also contains a simplified form of the electromagnetic actuator.
NEMA - C50.12 - REQUIREMENTS FOR SALIENT-POLE SYNCHRONOUS GENERATORS AND GENERATOR/MOTORS FOR HYDRAULIC TURBINE APPLICATIONS - THIS IS NOW COPYRIGHTED BY IEEE Organization: NEMA
Date: 1982-01-01
Description: The requirements in this standard apply to all types of 60-hertz salient-pole synchronous generators and generator/motors rated 5000 kVA (kilovolt amperes) and above to be used for hydraulic turbine or hydraulic pump/turbine applications. Definitions, characteristics, and test methods not specifically covered in this standard shall comply with the following documents insofar as they are applicable: American National Standard General Requirements for Synchronous Machines, ANSI C50.10-1977 Test Procedures for Synchronous Machines, IEEE 115-1982 (available from the Institute of Electrical and Electronics Engineers, 345 East 47 Street, New York, N.Y. 10017)
ANSI C50.12 - REQUIREMENTS FOR SALIENT-POLE SYNCHRONOUS GENERATORS AND GENERATOR/MOTORS FOR HYDRAULIC TURBINE APPLICATIONS Organization: ANSI
Date: 1982-01-01
Description: The requirements in this standard apply to all types of 60-hertz salient-pole synchronous generators and generator motors rated 5000 kVA (kilovolt amperes) and above to be used for hydraulic turbine or hydraulic pump turbine applications. Definitions, characteristics, and test methods not specifically covered in this standard shall comply with the following documents insofar as they are applicable: American National Standard General Requirement for Synchronous Machines, ANSI C50.10-1977 Test Procedures for Synchronous Machines, IEEE 115- 1982 (available from the Institute of Electrical and Electronics Engineers, 345 East 47 Street, New York, N.Y. 10017)
DS/EN 62097 + CD-ROM - HYDRAULIC MACHINES, RADIAL AND AXIAL - PERFORMANCE CONVERSION METHOD FROM MODEL TO PROTOTYPE Organization: DS
Date: 2009-06-10
Description: 1.1 General remarks Advances in the technology of hydraulic turbo-machines used for hydroelectric power plants indicate the necessity of revising the scale effect formula given in IEC Publication 60193-1999. (1) The advance in knowledge of scale effects originates from work done by research institutes, manufacturers and relevant working groups within the organizations of IEC and IAHR. (2) - (7) The method of calculating prototype efficiencies, as given in this code, is supported by experimental work and theoretical research on flow analysis and has been simplified for practical reasons and agreed as a convention. (8) - (10) The method is representing the present state of knowledge of the scale-up of performance from model to a homologous prototype.
HI/HYDRAUL - ANSI/HI 9.8 - ROTODYNAMIC PUMPS FOR PUMP INTAKE DESIGN - A123 Organization: HI/HYDRAUL
Date: 2012-01-01
Description: 2) Use of Hydraulic Institute Standards is completely voluntary. Existence of Hydraulic Institute Standards does not in any respect preclude a member from manufacturing or selling products not conforming to the Standards.
HI - ANSI/HI 9.6.1 - ROTODYNAMIC PUMPS GUIDELINE FOR NPSH MARGIN - A118 Organization: HI
Date: 2012-01-01
Description: 2) Use of Hydraulic Institute Standards is completely voluntary. Existence of Hydraulic Institute Standards does not in any respect preclude a member from manufacturing or selling products not conforming to the Standards.
HI - ANSI/HI 9.1–9.5 - GENERAL GUIDELINES (M117) Organization: HI
Date: 2000-01-01
Description: 2) Use of Hydraulic Institute Standards is completely voluntary. Existence of Hydraulic Institute Standards does not in any respect preclude a member from manufacturing or selling products not conforming to the Standards.
API VOCATIONAL BOOK 6 - GAS LIFT BOOK 6 OF THE VOCATIONAL TRAINING SERIES - THIRD EDITION Organization: API
Date: 1994-01-01
Description: The four basic types of artificial lift used in the oil industry are: rod pumping, electric submersible pumping, hydraulic pumping, and gas lift. As the name implies, gas lift is the only one of the artificial lift systems that does not use some form of mechanical pump to physically force the fluid from one place to another.
SAE/TP - 2007-01-3192 - ADVANCED LOOP HEAT PIPE EVAPORATOR WITH CERAMIC NANOSTRUCTURED COMPOSITE OF ALUMINA, ALUMINA-SILICA OXIDE AS A WICK STRUCTURE Organization: SAE/TP
Date: 2007-07-09
Description: Wick structure is a key element which plays at least two roles: capillary pump to move a working fluid from condenser to the heat-loaded zone and thermal and hydraulic breaker between liquid and vapor in LHP (CPL).
ASTM C1286 - STANDARD CLASSIFICATION FOR ADVANCED CERAMICS Organization: ASTM
Date: 1994-11-15
Description: This relationship is illustrated by the following examples: 1.4.4.1 In structural applications, advanced ceramic products are found in motor vehicle parts and accessories (SIC 3714), steam, gas, and hydraulic turbines (SIC 3511), motors and generators (SIC 3621), aircraft engines and parts (SIC 3724); 1.4.4.2 In mechanical applications, advanced ceramic products appear in cutting tools (SIC 3545), ball and roller bearings (SIC 3562), pumps and pumping equipment (SIC 3561), and fabricated metal products (SIC 3499); and 1.4.4.3 Applications in electronics are found in electronic capacitors (SIC 3675), semiconductors (SIC 3674), electronic resistors (SIC 3676), and electronic components, not elsewhere classified (SIC 3679).

1 - 17 of 17 results