LEADER 02054nam  2200301z- 450 
001 9911007260303321
005 20250606222123.0
010   $a1-5231-5654-6
035   $a(CKB)5850000000468681
035   $a(EXLCZ)995850000000468681
100   $a20231226c2023uuuu  -u-         -
101 0 $aeng
200 00$aGuide for resilient energy systems design in hot and humid climates /$feditor: Dr. Alexander Zhivov
210   $cAmerican Society of Heating Refrigerating and Air-Conditioning Engineers Inc. (ASHRAE)
311 08$a1-955516-43-X 
330   $aHHC provide unique challenges to HVAC, plumbing, and thermal energy system designers. Considering facility operation in the context of high OA temperatures and humidity, system reliability and building resiliency cannot be understated. This Guide describes best practice examples of robust and reliable systems emphasizing redundancy, durability, and functionality.  The target audience for this Guide is technical experts involved in building and energy systems design, renovation, operation, and maintenance; architectural and engineering professionals; and energy service companies. The content of this Guide may also be of interest to building owners, executive decision-makers, and energy managers of public, government, and military organizations.  The Guide was developed with partial support from the DOD Environmental Security Technology Certification Program, the Office of the Deputy Assistant Secretary of the Army (Energy and Sustainability), and the International Energy Agency Energy in Buildings and Communities Program Annex 73.
606   $aHydronics$xClimatic factors
606   $aHydronics$xHot weather conditions
606   $aHumidity
615  0$aHydronics$xClimatic factors.
615  0$aHydronics$xHot weather conditions.
615  0$aHumidity.
702   $aZhivov$b Alexander M.
712 02$aASHRAE (Firm),
906   $aBOOK
912   $a9911007260303321
996   $aGuide for resilient energy systems design in hot and humid climates$94393295
997   $aUNINA