
<ns0:uwmetadata xmlns:ns0="http://phaidra.univie.ac.at/XML/metadata/V1.0" xmlns:ns1="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0" xmlns:ns10="http://phaidra.univie.ac.at/XML/metadata/provenience/V1.0" xmlns:ns11="http://phaidra.univie.ac.at/XML/metadata/provenience/V1.0/entity" xmlns:ns12="http://phaidra.univie.ac.at/XML/metadata/digitalbook/V1.0" xmlns:ns13="http://phaidra.univie.ac.at/XML/metadata/etheses/V1.0" xmlns:ns2="http://phaidra.univie.ac.at/XML/metadata/extended/V1.0" xmlns:ns3="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/entity" xmlns:ns4="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/requirement" xmlns:ns5="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/educational" xmlns:ns6="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/annotation" xmlns:ns7="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/classification" xmlns:ns8="http://phaidra.univie.ac.at/XML/metadata/lom/V1.0/organization" xmlns:ns9="http://phaidra.univie.ac.at/XML/metadata/histkult/V1.0">
  <ns1:general>
    <ns1:identifier>o:9115</ns1:identifier>
    <ns1:title language="sr">Engineering Zeolite Acidity and Porosity for Improved Esterification: A Review of Mechanisms, Kinetics, and Sustainability Processes</ns1:title>
    <ns1:language>en</ns1:language>
    <ns1:description language="en">Abstract: Esterification, the reaction between carboxylic acids and alcohols that produces esters and
water, plays a vital role in many industries, especially in biodiesel and pharmaceutical
manufacturing. Traditional methods using homogeneous mineral acids pose environmental
issues, prompting the search for sustainable alternatives—solid acid catalysts. Zeolites offer
unique structural advantages, including shape selectivity and adjustable acidity, which
improve reaction efficiency and reduce waste. This review provides a detailed examination
of how zeolite topology—particularly pore structure and connectivity—influences the
kinetics of long-chain fatty acid (LCFA) esterification. It investigates the optimization
of acid sites via modifications to the silicon-to-aluminum ratio (Si/Al), ion exchange,
and pore engineering to improve mass transfer. The study investigates key reaction
mechanisms, specifically the Langmuir–Hinshelwood (LH) and Eley–Rideal (ER) models, to
address issues such as mass-transfer limitations and water inhibition. The paper highlights
recent advances in sustainable catalyst design, such as hierarchical zeolites and membraneintegrated
reactors, for converting biomass-derived feedstocks into valuable esters. It also
discusses current research challenges and suggests future directions, including the use
of 3D-printed monoliths and machine learning integration, to develop next-generation,
eco-friendly zeolite catalysts.</ns1:description>
    <ns1:keyword language="en">zeolites; solid catalysts; esterification; clinoptilolite; solid acids</ns1:keyword>
    <ns2:identifiers>
      <ns2:resource>1552099</ns2:resource>
      <ns2:identifier>10.3390/min16020179</ns2:identifier>
    </ns2:identifiers>
  </ns1:general>
  <ns1:lifecycle>
    <ns1:upload_date>2026-02-18T11:37:52.477Z</ns1:upload_date>
    <ns1:status>44</ns1:status>
    <ns2:peer_reviewed>no</ns2:peer_reviewed>
    <ns1:contribute seq="0">
      <ns1:role>46</ns1:role>
      <ns1:entity seq="0">
        <ns3:firstname>Jelena </ns3:firstname>
        <ns3:lastname>Pavlović</ns3:lastname>
        <ns3:institution>Institute of Soil Science</ns3:institution>
        <ns3:orcid>0000-0001-9424-1080</ns3:orcid>
      </ns1:entity>
    </ns1:contribute>
    <ns1:contribute seq="1">
      <ns1:role>46</ns1:role>
      <ns1:entity seq="0">
        <ns3:firstname>Nevenka </ns3:firstname>
        <ns3:lastname>Rajić</ns3:lastname>
        <ns3:institution>Faculty of Ecology and Environmental Protection, University “Union—Nikola Tesla”, Cara Dušana 62–64, 11158 Belgrade, Serbia</ns3:institution>
      </ns1:entity>
    </ns1:contribute>
  </ns1:lifecycle>
  <ns1:technical>
    <ns1:format>application/pdf</ns1:format>
    <ns1:size>6402315</ns1:size>    
<ns1:location>https://unilib.phaidrabg.rs/o:9115</ns1:location>
  </ns1:technical>
  <ns1:rights>
    <ns1:cost>no</ns1:cost>
    <ns1:copyright>yes</ns1:copyright>
    <ns1:license>1</ns1:license>
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  <ns1:classification>
    <ns1:purpose>70</ns1:purpose>
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  <ns1:organization>
    <ns8:hoschtyp>92000002</ns8:hoschtyp>
    <ns8:orgassignment>
      <ns8:faculty>71A05</ns8:faculty>
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  <ns12:digitalbook>
    <ns12:name_magazine language="en">Minerals</ns12:name_magazine>
    <ns12:releaseyear>2026</ns12:releaseyear>
  </ns12:digitalbook>
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