04896nam 2200625 450 991082900670332120230801233033.00-309-25988-60-309-25986-X(CKB)3710000000103435(EBL)3379300(SSID)ssj0000789089(PQKBManifestationID)12350103(PQKBTitleCode)TC0000789089(PQKBWorkID)10739394(PQKB)11237276(MiAaPQ)EBC3379300(Au-PeEL)EBL3379300(CaPaEBR)ebr10863959(OCoLC)923290620(EXLCZ)99371000000010343520130117h20122012 uy| 0engurcnu||||||||txtccrAssessment of agent monitoring strategies for the Blue Grass and Pueblo chemical agent destruction pilot plants /Committee on Assessment of Agent Monitoring Strategies for the Blue Grass and Pueblo Chemical Agent Destruction Pilot Plants, Board on Army Science and Technology, Division on Engineering and Physical Sciences, National Research Council of the National AcademiesWashington, District of Columbia :National Academies Press,[2012]©20121 online resource (192 p.)Description based upon print version of record.0-309-25985-1 Includes bibliographical references (pages 125-136).Introduction -- BGCAPP and PCAPP designs and relevant procedures used at destruction facilities -- Agent monitoring practices for waste generated at BGCAPP and PCAPP."January 2012 saw the completion of the U.S. Army's Chemical Materials Agency's (CMA's) task to destroy 90 percent of the nation's stockpile of chemical weapons. CMA completed destruction of the chemical agents and associated weapons deployed overseas, which were transported to Johnston Atoll, southwest of Hawaii, and demilitarized there. The remaining 10 percent of the nation's chemical weapons stockpile is stored at two continental U.S. depots, in Lexington, Kentucky, and Pueblo, Colorado. Their destruction has been assigned to a separate U.S. Army organization, the Assembled Chemical Weapons Alternatives (ACWA) Element. ACWA is currently constructing the last two chemical weapons disposal facilities, the Pueblo and Blue Grass Chemical Agent Destruction Pilot Plants (denoted PCAPP and BGCAPP), with weapons destruction activities scheduled to start in 2015 and 2020, respectively. ACWA is charged with destroying the mustard agent stockpile at Pueblo and the nerve and mustard agent stockpile at Blue Grass without using the multiple incinerators and furnaces used at the five CMA demilitarization plants that dealt with assembled chemical weapons - munitions containing both chemical agents and explosive/propulsive components. The two ACWA demilitarization facilities are congressionally mandated to employ noncombustion-based chemical neutralization processes to destroy chemical agents."--Publisher's description. In order to safely operate its disposal plants, CMA developed methods and procedures to monitor chemical agent contamination of both secondary waste materials and plant structural components. ACWA currently plans to adopt these methods and procedures for use at these facilities. The Assessment of Agent Monitoring Strategies for the Blue Grass and Pueblo Chemical Agent Destruction Pilot Plants report also develops and describes a half-dozen scenarios involving prospective ACWA secondary waste characterization, process equipment maintenance and changeover activities, and closure agent decontamination challenges, where direct, real-time agent contamination measurements on surfaces or in porous bulk materials might allow more efficient and possibly safer operations if suitable analytical technology is available and affordable.Chemical weapons disposalKentuckyChemical weapons disposalColoradoChemical weapons disposalUnited StatesSafety measuresChemical agents (Munitions)United StatesSafety measuresHazardous wastesUnited StatesSafety measuresChemical weapons disposalChemical weapons disposalChemical weapons disposalSafety measures.Chemical agents (Munitions)Safety measures.Hazardous wastesSafety measures.358.34National Research Council (U.S.).Board on Army Science and Technology,MiAaPQMiAaPQMiAaPQBOOK9910829006703321Assessment of agent monitoring strategies for the Blue Grass and Pueblo chemical agent destruction pilot plants4042264UNINA01979nam0 2200409 i 450 VAN0010433220240806100725.791N978-81-322-1895-120151221d2014 |0itac50 baengIN|||| |||||Periodic solutions of first-order functional differential equations in population dynamicsSeshadev Padhi, John R. Graef, P. D. N. SrinivasuNew DelhiSpringer2014XIV, 144 p.ill.24 cmVAN00241442Periodic solutions of first-order functional differential equations in population dynamics140999734C25Periodic solutions to ordinary differential equation [MSC 2020]VANC022291MF34K13Periodic solutions to functional-differential equations [MSC 2020]VANC031512MFExistence of solutionsKW:KFixed Point TheoremKW:KFunctional differential equationsKW:KGlobal attractivityKW:KOrdinary Differential EquationsKW:KPeriodic solutions of functional differential equationsKW:KINNew DelhiVANL001098PadhiSeshadevVANV081369721184GraefJohn R.VANV04388942050SrinivasuPichika D. N.VANV081376721180Springer <editore>VANV108073650ITSOL20250411RICAhttp://dx.doi.org/10.1007/978-81-322-1895-1E-book – Accesso al full-text attraverso riconoscimento IP di Ateneo, proxy e/o ShibbolethBIBLIOTECA CENTRO DI SERVIZIO SBAVAN15NVAN00104332BIBLIOTECA CENTRO DI SERVIZIO SBA15CONS SBA EBOOK 4356 15EB 4356 20191106 Periodic solutions of first-order functional differential equations in population dynamics1409997UNICAMPANIA