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object(stdClass)#96 (3) { ["hits"]=> array(10) { [0]=> object(stdClass)#97 (17) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(5) { [0]=> string(6) "ENV13B" [1]=> string(6) "AGR11A" [2]=> string(6) "EEN03F" [3]=> string(8) "SCEA0175" [4]=> string(6) "SCES06" } ["edition"]=> int(1) ["id"]=> int(301134) ["imprint"]=> string(9) "CRC Press" ["isbn"]=> string(13) "9780415620857" ["isbn10"]=> string(10) "0415620856" ["keywords"]=> string(43) "SITU REMEDIATION ARSENIC CONTAMINATED SITES" ["originators"]=> array(2) { [0]=> object(stdClass)#98 (3) { ["id"]=> int(5411253) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#99 (3) { ["id"]=> int(5411254) ["name"]=> string(18) "Hartmunt Hollander" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2012-11-30T19:00:00-05:00" ["relevance"]=> float(6.6444087) ["series"]=> string(26) "Arsenic in the environment" ["seriesCodes"]=> string(5) "ASENV" ["shortDescription"]=> string(296) "Providing an introduction, the scientific background, case studies and future perspectives of in-situ arsenic remediation technologies for soils, soil water and groundwater at geogenic and anthropogenic contaminated sites. The case studies present in-situ technologies about natural arsenic," ["sku"]=> string(6) "K14388" ["subjectGroup"]=> string(9) "Reference" ["title"]=> string(49) "In-Situ Remediation of Arsenic-Contaminated Sites" } [1]=> object(stdClass)#100 (17) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(6) { [0]=> string(6) "CLE11A" [1]=> string(8) "SCEC5060" [2]=> string(8) "SCEC0793" [3]=> string(8) "SCEC0790" [4]=> string(6) "WSE18A" [5]=> string(6) "WSE01A" } ["edition"]=> int(1) ["id"]=> int(301332) ["imprint"]=> string(9) "CRC Press" ["isbn"]=> string(13) "9780415620895" ["isbn10"]=> string(10) "0415620899" ["keywords"]=> string(51) "APPLICATIONS FRESHWATER ENERGY RENEWABLE PRODUCTION" ["originators"]=> array(2) { [0]=> object(stdClass)#101 (3) { ["id"]=> int(5416244) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#102 (3) { ["id"]=> int(5416245) ["name"]=> string(11) "Jan Hoinkis" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2012-03-28T19:00:00-05:00" ["relevance"]=> float(6.6444087) ["series"]=> string(31) "Sustainable Energy Developments" ["seriesCodes"]=> string(4) "SUED" ["shortDescription"]=> string(295) "Worldwide, many regions have a great potential to cover part of their pressing water needs by renewable energy powered water treatment processes using either thermal or membrane based technologies. Not only arid and semiarid regions are increasingly exposed to water shortage but also many other" ["sku"]=> string(6) "K14418" ["subjectGroup"]=> string(9) "Reference" ["title"]=> string(55) "Renewable Energy Applications for Freshwater Production" } [2]=> object(stdClass)#103 (17) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(4) { [0]=> string(6) "WSE05A" [1]=> string(8) "SCEC0793" [2]=> string(8) "SCEA0131" [3]=> string(5) "GEO03" } ["edition"]=> int(1) ["id"]=> int(278980) ["imprint"]=> string(9) "CRC Press" ["isbn"]=> string(13) "9780415668101" ["isbn10"]=> string(10) "0415668107" ["keywords"]=> string(62) "SYSTEMS MODELING GEOTHERMAL GEOCHEMICAL SYS VADOSE GROUNDWATER" ["originators"]=> array(2) { [0]=> object(stdClass)#104 (3) { ["id"]=> int(4432114) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#105 (3) { ["id"]=> int(4458629) ["name"]=> string(19) "Michael Zilberbrand" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2011-12-22T19:00:00-05:00" ["relevance"]=> float(6.6444087) ["series"]=> string(21) "Multiphysics Modeling" ["seriesCodes"]=> string(4) "MUMO" ["shortDescription"]=> string(291) "Geochemical modeling is an important tool in environmental studies, and in the areas of subsurface and surface hydrology, pedology, water resources management, mining geology, geothermal resources, hydrocarbon geology, and related areas dealing with the exploration and extraction of natural" ["sku"]=> string(6) "K13045" ["subjectGroup"]=> string(9) "Reference" ["title"]=> string(66) "Geochemical Modeling of Groundwater, Vadose and Geothermal Systems" } [3]=> object(stdClass)#106 (18) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(10) { [0]=> string(8) "SCEC0757" [1]=> string(6) "MTH09C" [2]=> string(6) "WSE05A" [3]=> string(6) "SCCM25" [4]=> string(6) "SCMA20" [5]=> string(8) "SCEC0725" [6]=> string(8) "SCEC0793" [7]=> string(8) "SCEC0790" [8]=> string(5) "CMS03" [9]=> string(8) "SCCM2520" } ["edition"]=> int(1) ["id"]=> int(233191) ["imprint"]=> string(16) "Taylor & Francis" ["isbn"]=> string(13) "9780415401678" ["isbn10"]=> string(10) "0415401674" ["keywords"]=> string(423) "VERY PROPERTIES MODELLING CASE CASES AQUIFERS NUMERICAL MODELS SOLUTE AQUEOUS HEAT SYSTEMS P12 FUNDAMENTALS P11 SUBSURFACE METHODS PAUTHORS GROUNDWATER ISOTHERMAL PRINCIPAL TRANSPORT ELABORATION PRINCIPLES MODEL GEOCHEMICAL ENERGY ROCK P10 GEOCHEMISTRY ROCKS STUDIES PFOREWORD PREFACE SOFTWARE APPLICATIONS MODELING P INTRODUCTION REAL P9 P8 SPECIAL FLOW P5 P4 FLUID P7 P6 POROELASTIC P1 P3 HETEROGENEOUS P2 GEOTHERMAL MASS" ["originators"]=> array(2) { [0]=> object(stdClass)#107 (3) { ["id"]=> int(3106209) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "VE" } [1]=> object(stdClass)#108 (3) { ["id"]=> int(3106210) ["name"]=> string(23) "Mario César Suárez A." ["roleCode"]=> string(2) "VE" } } ["publicationDate"]=> string(25) "2010-07-04T19:00:00-05:00" ["relevance"]=> float(5.823318) ["series"]=> string(21) "Multiphysics Modeling" ["seriesCodes"]=> string(4) "MUMO" ["shortDescription"]=> string(299) "This book provides an introduction to the scientific fundamentals of groundwater and geothermal systems. In a simple and didactic manner the different water and energy problems existing in deformable porous rocks are explained as well as the corresponding theories and the mathematical and numerical" ["sku"]=> string(6) "SW1674" ["subjectGroup"]=> string(9) "Reference" ["subtitle"]=> string(70) "Fundamentals of Mass, Energy and Solute Transport in Poroelastic Rocks" ["title"]=> string(76) "Introduction to the Numerical Modeling of Groundwater and Geothermal Systems" } [4]=> object(stdClass)#109 (17) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(8) { [0]=> string(6) "ENV04H" [1]=> string(8) "SCPC0505" [2]=> string(6) "CHE01A" [3]=> string(8) "SCPC0530" [4]=> string(8) "SCEC0790" [5]=> string(8) "SCBS8617" [6]=> string(6) "WSE17A" [7]=> string(8) "SCEA0130" } ["edition"]=> int(1) ["id"]=> int(262252) ["imprint"]=> string(9) "CRC Press" ["isbn"]=> string(13) "9780415585101" ["isbn10"]=> string(10) "0415585104" ["keywords"]=> string(60) "JEAN TAIWAN SHOWCASE CRISIS ARSENIC GLOBAL BUNDSCHUH PROBLEM" ["originators"]=> array(7) { [0]=> object(stdClass)#110 (3) { ["id"]=> int(3161082) ["name"]=> string(14) "Jiin-Shuh Jean" ["roleCode"]=> string(2) "VE" } [1]=> object(stdClass)#111 (3) { ["id"]=> int(3161083) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "VE" } [2]=> object(stdClass)#112 (3) { ["id"]=> int(3270939) ["name"]=> string(14) "Chien-Jen Chen" ["roleCode"]=> string(2) "VE" } [3]=> object(stdClass)#113 (3) { ["id"]=> int(3270940) ["name"]=> string(11) "How-Ran Guo" ["roleCode"]=> string(2) "VE" } [4]=> object(stdClass)#114 (3) { ["id"]=> int(3270941) ["name"]=> string(14) "Chen-Wuing Liu" ["roleCode"]=> string(2) "VE" } [5]=> object(stdClass)#115 (3) { ["id"]=> int(3270942) ["name"]=> string(13) "Tsair-Fuh Lin" ["roleCode"]=> string(2) "VE" } [6]=> object(stdClass)#116 (3) { ["id"]=> int(3270943) ["name"]=> string(12) "Yen-Hua Chen" ["roleCode"]=> string(2) "VE" } } ["publicationDate"]=> string(25) "2010-05-27T19:00:00-05:00" ["relevance"]=> float(2.9495) ["series"]=> string(26) "Arsenic in the environment" ["seriesCodes"]=> string(5) "ASENV" ["shortDescription"]=> string(288) "In the 1950s, the residents of the southwestern coastal areas of Taiwan suffered greatly from Blackfoot disease (BFD) due to the consumption of arsenic-contaminated groundwater. Groundwater with high levels of arsenic in southwestern and northeastern Taiwan received much attention. After" ["sku"]=> string(6) "K11830" ["subjectGroup"]=> string(9) "Reference" ["title"]=> string(59) "The Taiwan Crisis: a showcase of the global arsenic problem" } [5]=> object(stdClass)#117 (18) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(7) { [0]=> string(6) "ENV04H" [1]=> string(8) "SCPC0505" [2]=> string(6) "CHE01A" [3]=> string(8) "SCEC0793" [4]=> string(8) "SCEC0790" [5]=> string(8) "SCBS8617" [6]=> string(6) "WSE17A" } ["edition"]=> int(1) ["id"]=> int(254182) ["imprint"]=> string(9) "CRC Press" ["isbn"]=> string(13) "9780415575218" ["isbn10"]=> string(10) "0415575214" ["keywords"]=> string(55) "SAFE WATER ARSENIC GLOBAL PROBLEM PRODUCTION CHALLENGES" ["originators"]=> array(7) { [0]=> object(stdClass)#118 (3) { ["id"]=> int(3194777) ["name"]=> string(11) "Nalan Kabay" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#119 (3) { ["id"]=> int(3194778) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [2]=> object(stdClass)#120 (3) { ["id"]=> int(3194779) ["name"]=> string(12) "Bruce Hendry" ["roleCode"]=> string(2) "HG" } [3]=> object(stdClass)#121 (3) { ["id"]=> int(3194780) ["name"]=> string(12) "Marek Bryjak" ["roleCode"]=> string(2) "HG" } [4]=> object(stdClass)#122 (3) { ["id"]=> int(3194781) ["name"]=> string(18) "Kazuharu Yoshizuka" ["roleCode"]=> string(2) "HG" } [5]=> object(stdClass)#123 (3) { ["id"]=> int(3194782) ["name"]=> string(19) "Prosun Bhattacharya" ["roleCode"]=> string(2) "HG" } [6]=> object(stdClass)#124 (3) { ["id"]=> int(3194783) ["name"]=> string(9) "Suer Anac" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2010-04-25T19:00:00-05:00" ["relevance"]=> float(3.3600454) ["series"]=> string(26) "Arsenic in the environment" ["seriesCodes"]=> string(5) "ASENV" ["shortDescription"]=> string(298) "A prevalent and increasingly important issue, arsenic removal continues to be one of the most important areas of water treatment. Conventional treatment plants may employ several methods for removing arsenic from water. Commonly used processes include oxidation, sedimentation, coagulation and" ["sku"]=> string(6) "K11503" ["subjectGroup"]=> string(9) "Reference" ["subtitle"]=> string(36) "Challenges for Safe Water Production" ["title"]=> string(26) "The Global Arsenic Problem" } [6]=> object(stdClass)#125 (16) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(8) { [0]=> string(6) "ENV04H" [1]=> string(6) "CHE03A" [2]=> string(8) "SCEC0790" [3]=> string(8) "SCBS8617" [4]=> string(10) "SCEA015015" [5]=> string(6) "WSE17A" [6]=> string(6) "SCAG55" [7]=> string(8) "SCEA0130" } ["edition"]=> int(1) ["id"]=> int(259878) ["imprint"]=> string(9) "CRC Press" ["isbn"]=> string(13) "9780415578981" ["isbn10"]=> string(10) "0415578981" ["keywords"]=> string(90) "THIRD HUMAN DISEASES ARSENIC INTERNATIONAL CONGRESS 2010 GEOSPHERE ENVIRONMENT PROCEEDINGS" ["originators"]=> array(3) { [0]=> object(stdClass)#126 (3) { ["id"]=> int(2309814) ["name"]=> string(14) "Jiin-Shuh Jean" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#127 (3) { ["id"]=> int(3270795) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [2]=> object(stdClass)#128 (3) { ["id"]=> int(3270796) ["name"]=> string(19) "Prosun Bhattacharya" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2010-04-25T19:00:00-05:00" ["relevance"]=> float(5.0022273) ["shortDescription"]=> string(292) "The congress "Arsenic in the Environment" offers an international, multi- and interdisciplinary discussion platform for arsenic research aimed at short-term solutions of problems with considerable social impact, rather than only focusing on cutting edge and breakthrough research in physical," ["sku"]=> string(6) "K11608" ["subjectGroup"]=> string(11) "Proceedings" ["subtitle"]=> string(87) "Proceedings of the Third International Congress on Arsenic in the Environment (As-2010)" ["title"]=> string(53) "Arsenic in Geosphere and Human Diseases; Arsenic 2010" } [7]=> object(stdClass)#129 (18) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(6) { [0]=> string(8) "SCEC0731" [1]=> string(8) "SCEC2750" [2]=> string(8) "SCEA0140" [3]=> string(8) "SCEC0762" [4]=> string(6) "EOC15A" [5]=> string(8) "SCEA0131" } ["edition"]=> int(1) ["id"]=> int(233687) ["imprint"]=> string(16) "Taylor & Francis" ["isbn"]=> string(13) "9780415476287" ["isbn10"]=> string(10) "0415476283" ["keywords"]=> string(79) "MODELING COUPLED NUMERICAL PRACTICAL USE EXAMPLES ENGINEERING PHENOMENA SCIENCE" ["originators"]=> array(3) { [0]=> object(stdClass)#130 (3) { ["id"]=> int(1573091) ["name"]=> string(28) "Mario César Suárez Arriaga" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#131 (3) { ["id"]=> int(1573092) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [2]=> object(stdClass)#132 (3) { ["id"]=> int(1573093) ["name"]=> string(31) "Francisco Javier Dominguez-Mota" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2008-11-30T19:00:00-05:00" ["relevance"]=> float(4.181136) ["series"]=> string(21) "Multiphysics Modeling" ["seriesCodes"]=> string(4) "MUMO" ["shortDescription"]=> string(293) "Mathematics is a universal language. Differential equations, modeling, numerical methods, and computation form the deep infrastructure of engineering and sciences. In this context mathematical modeling is a very powerful tool for studying engineering, natural systems, and human society. This" ["sku"]=> string(6) "K00026" ["subjectGroup"]=> string(9) "Reference" ["subtitle"]=> string(26) "Practical Use and Examples" ["title"]=> string(66) "Numerical Modeling of Coupled Phenomena in Science and Engineering" } [8]=> object(stdClass)#133 (17) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(8) { [0]=> string(6) "CHE19H" [1]=> string(6) "WSE05A" [2]=> string(8) "SCPC0530" [3]=> string(8) "SCEC0793" [4]=> string(8) "SCEC0790" [5]=> string(6) "WSE17A" [6]=> string(10) "SCEA013140" [7]=> string(8) "SCEA0130" } ["edition"]=> int(1) ["id"]=> int(211134) ["imprint"]=> string(16) "Taylor & Francis" ["isbn"]=> string(13) "9780415407717" ["isbn10"]=> string(10) "0415407710" ["keywords"]=> string(380) "EMISSIONS PPREFACE SOCIAL LATIN WATERS TOXICOLOGY AQUIFERS WATER PROBLEMS ANALYTICAL OVERVIEW METHODS LOCALLY GROUNDWATERS HARD GROUNDWATER SOIL AMERICA 3 2 1 ROCK METABOLISM CHEMICAL REMEDIATION OTHER TECHNOLOGIES PFOREWORD SOILS SEDIMENTARY REGIONALLY P ARSENIC RICH OCCURRENCE PLANTS TREATMENT GENERAL MATERIALS P5 P4 P7 P6 GENESIS P1 AVAILABLE P3 P2 DETECTION NATURAL SELECTED" ["originators"]=> array(6) { [0]=> object(stdClass)#134 (3) { ["id"]=> int(1712125) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "HG" } [1]=> object(stdClass)#135 (3) { ["id"]=> int(1712126) ["name"]=> string(14) "M. A. Armienta" ["roleCode"]=> string(2) "HG" } [2]=> object(stdClass)#136 (3) { ["id"]=> int(1712127) ["name"]=> string(12) "Peter Birkle" ["roleCode"]=> string(2) "HG" } [3]=> object(stdClass)#137 (3) { ["id"]=> int(1712128) ["name"]=> string(19) "Prosun Bhattacharya" ["roleCode"]=> string(2) "HG" } [4]=> object(stdClass)#138 (3) { ["id"]=> int(1712129) ["name"]=> string(17) "Jörg Matschullat" ["roleCode"]=> string(2) "HG" } [5]=> object(stdClass)#139 (3) { ["id"]=> int(1712130) ["name"]=> string(15) "A. B. Mukherjee" ["roleCode"]=> string(2) "HG" } } ["publicationDate"]=> string(25) "2008-09-22T19:00:00-05:00" ["relevance"]=> float(3.3600454) ["series"]=> string(26) "Arsenic in the environment" ["seriesCodes"]=> string(5) "ASENV" ["shortDescription"]=> string(298) "Groundwater resources naturally contain high levels of arsenic in many parts of the world. Over the last two decades, the As-containing groundwater in South-East Asia has received much attention, but the situation is just as crucial in Latin America, where the number of studies is still relatively" ["sku"]=> string(6) "SW7710" ["subjectGroup"]=> string(11) "Proceedings" ["title"]=> string(48) "Natural Arsenic in Groundwaters of Latin America" } [9]=> object(stdClass)#140 (15) { ["bindingStyleCode"]=> string(4) "HARD" ["categories"]=> array(7) { [0]=> string(6) "CLE11A" [1]=> string(6) "EOE37A" [2]=> string(6) "SCEC31" [3]=> string(8) "SCEA0140" [4]=> string(6) "PHY09A" [5]=> string(8) "SCEC1360" [6]=> string(8) "SCEC3110" } ["edition"]=> int(1) ["id"]=> int(210345) ["imprint"]=> string(16) "Taylor & Francis" ["isbn"]=> string(13) "9780415401685" ["isbn10"]=> string(10) "0415401682" ["keywords"]=> string(728) "VERSUS WATERS DOMESTIC TECHNIQUES ACTUAL DEMAND TYPES SOURCE BENEFITS LOW EMISSION HEAT SYSTEMS OVERCOMING MEASUREMENTS FORECASTS OVERVIEW METHODS USING BARRIERS GEOPHYSICAL FUEL POTENTIAL FOSSIL MITIGATION 3 2 1 GEOCHEMICAL 5 4 ENERGY EXPLORATION WARMING ELECTRICITY REDUCTION RURAL ACTIVE ENTHALPY THERMAL CHEMICAL 2030 WORLD ZONES WORLDWIDE COLLISION PFOREWORD HYDROELECTRIC TECTONICS CHARACTERISTICS POWER CONSTITUENTS GENERATION RIFT P FIELDS MARKETS INTRODUCTION MIX TECTONIC CLASSIFICATION RESISTIVITY DISSOLVED FLOW SOLUTION P5 CONTINENTAL DEVELOPMENTS HIGH P4 UNTIL P7 ELECTRICAL P6 P1 AVAILABLE P3 ELECTRIFICATION GEOLOGICAL P2 WITHIN THROUGH VOLCANISM IMPORTS GEOTHERMAL USE RIFTS GLOBAL RESOURCES REGIONAL ASSOCIATED" ["originators"]=> array(2) { [0]=> object(stdClass)#141 (3) { ["id"]=> int(2855960) ["name"]=> string(18) "D. Chandrasekharam" ["roleCode"]=> string(2) "VE" } [1]=> object(stdClass)#142 (3) { ["id"]=> int(2855961) ["name"]=> string(16) "Jochen Bundschuh" ["roleCode"]=> string(2) "VE" } } ["publicationDate"]=> string(25) "2008-06-30T19:00:00-05:00" ["relevance"]=> float(6.6444087) ["shortDescription"]=> string(299) "In many developing countries the exponentially growing electricity demand can be covered by using locally available, sustainable low-enthalpy geothermal resources (80-150 °C). Such low-enthalpy sources can make electricity generation more independent from oil imports or from the over-dependence on" ["sku"]=> string(6) "SW1682" ["subjectGroup"]=> string(9) "Reference" ["title"]=> string(54) "Low-Enthalpy Geothermal Resources for Power Generation" } } ["query"]=> object(stdClass)#143 (5) { ["bindingPriority"]=> string(54) "PAPE,HARD,PCK,PKCC,PKCD,PKWE,EBK,DVD,CDRM,AUDC,WEB,AUD" ["size"]=> int(10) ["sort"]=> object(stdClass)#144 (2) { ["key"]=> string(21) "SortByPublicationDate" ["direction"]=> string(10) "Descending" } ["start"]=> int(1) ["suggestSpelling"]=> bool(false) } ["totalHits"]=> int(12) }