<?xml version="1.0" encoding="UTF-8"?>
<rss version="2.0" xmlns:content="http://purl.org/rss/1.0/modules/content/" xmlns:wfw="http://wellformedweb.org/CommentAPI/" xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:atom="http://www.w3.org/2005/Atom" xmlns:sy="http://purl.org/rss/1.0/modules/syndication/" xmlns:slash="http://purl.org/rss/1.0/modules/slash/" xmlns:georss="http://www.georss.org/georss" xmlns:webfeeds="http://webfeeds.org/rss/1.0">
  <channel>
    <title>Tag: thermal-comfort | ArchDaily</title>
    <description>ArchDaily | Broadcasting Architecture Worldwide</description>
    <link>https://www.archdaily.com/</link>
    <lastBuildDate>Thu, 9 Jul 2026 00:00:00 +0000</lastBuildDate>
    <language>en-US</language>
    <atom:link rel="self" type="application/rss+xml" href="https://www.archdaily.com/show.xml"/>
    <sy:updatePeriod>hourly</sy:updatePeriod>
    <sy:updateFrequency>1</sy:updateFrequency>
    <webfeeds:logo>https://assets.adsttc.com/doodles/archdaily-logo-feedly.svg</webfeeds:logo>
    <webfeeds:accentColor>026CB6</webfeeds:accentColor>
    <webfeeds:analytics id="UA-73308-12" engine="GoogleAnalytics"/>
    <item>
      <title>
        <![CDATA[Designing Quietly: Rethinking Architecture’s Overlooked Surface]]>
      </title>
      <link>https://www.archdaily.com/1042609/designing-quietly-rethinking-architectures-overlooked-surface</link>
      <pubDate>Wed, 08 Jul 2026 06:09:40 +0000</pubDate>
      <dc:creator>Kiana Buchberger</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1042609/designing-quietly-rethinking-architectures-overlooked-surface</guid>
      <description>
        <![CDATA[<p>The <a href="https://www.archdaily.com/tag/ceilings">ceiling</a> is one of the largest continuous surfaces in a space, yet why is it rarely the first architectural element people notice? Often perceived as the plane that conceals structure and building services, it quietly recedes into the background while <a href="https://www.archdaily.com/tag/facade">facades</a>, <a href="https://www.archdaily.com/tag/building-materials">materials</a>, structural systems, and <a href="https://www.archdaily.com/tag/furniture">furniture</a> define a building's architectural identity. Yet few architectural elements influence the experience of a space as consistently as this one. The ceiling shapes how <a href="https://www.archdaily.com/tag/sound">sound</a> travels, how <a href="https://www.archdaily.com/tag/light">light</a> is reflected, how air moves through a room, and ultimately how architecture is experienced, bringing together technical performance and architectural expression through a single continuous surface.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/6a45/ffc1/ebd1/e401/893a/aa01/newsletter/designing-quietly-rethinking-architectures-overlooked-surface_25.jpg?1782972409"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Heat as a Design Partner: Trees, Soil, and Wind Corridors as Cooling Infrastructure]]>
      </title>
      <link>https://www.archdaily.com/1042329/heat-as-a-design-partner-trees-soil-and-wind-corridors-as-cooling-infrastructure</link>
      <pubDate>Fri, 12 Jun 2026 07:30:00 +0000</pubDate>
      <dc:creator>Jonathan Yeung</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1042329/heat-as-a-design-partner-trees-soil-and-wind-corridors-as-cooling-infrastructure</guid>
      <description>
        <![CDATA[<p>"By 2050, almost every child in the world — nearly 2.2 billion children — will be exposed to frequent heat waves." <a href="https://www.unicef.org/stories/heat-waves-impact-children?utm_medium=website&amp;utm_source=archdaily.com" target="_blank">UNICEF's warning</a> is often read as a public health forecast, but it is also a challenge to architecture and the way cities are built. As <a href="https://www.archdaily.com/1041076/tropical-modernism-beyond-aesthetics-the-politics-of-shade-and-air?ad_source=search&amp;ad_medium=search_result_articles">extreme heat</a> intensifies <a href="https://www.archdaily.com/1042205/world-environment-day-2026-coincides-with-record-heatwaves-renewing-focus-on-climate-adaptation-in-cities?ad_source=search&amp;ad_medium=projects_tab&amp;ad_source=search&amp;ad_medium=search_result_all" target="_blank" rel="noopener">across Asia, Europe, and beyond</a>, thermal comfort should not be reduced to merely an <a href="https://www.archdaily.com/1040825/podium-tower-urbanism-in-southeast-asia-density-management-and-the-disappearing-street?ad_source=search&amp;ad_medium=search_result_articles">indoor service</a> delivered by machines. Air-conditioning has become a life-support system for many cities, especially in dense, humid, and rapidly urbanizing regions. Yet to rely on it as the default answer is to treat heat as something that can simply be moved elsewhere (and in the process generating extra heat) — expelled from interiors into <a href="https://www.archdaily.com/1037748/designing-streets-through-the-lens-of-care?ad_source=search&amp;ad_medium=search_result_articles">streets</a>, service alleys, <a href="/tag/energy">energy</a> grids, and <a href="https://www.archdaily.com/1040962/designing-with-air-rethinking-architecture-beyond-the-wall?ad_source=search&amp;ad_medium=search_result_articles">the atmosphere</a>. Its expansion increases energy demand, produces waste heat, and reinforces unequal access to comfort. </p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/6a29/656d/8373/7501/8831/0ca6/newsletter/heat-as-a-design-partner-toward-more-than-human-cooling-in-apac-cities_2.jpg?1781097843"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[How Passive Design Strategies Shape Thermal Performance]]>
      </title>
      <link>https://www.archdaily.com/1042206/how-passive-design-strategies-shape-thermal-performance</link>
      <pubDate>Thu, 11 Jun 2026 06:45:00 +0000</pubDate>
      <dc:creator>Kiana Buchberger</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1042206/how-passive-design-strategies-shape-thermal-performance</guid>
      <description>
        <![CDATA[<p>Can architecture shape comfort before mechanical systems enter the equation? As buildings account for nearly 40% of global energy consumption and people spend close to 90% of their time indoors, <a href="https://www.archdaily.com/tag/thermal-comfort">thermal performance</a> has become one of architecture's most urgent concerns. Yet despite often being associated with <a href="https://www.archdaily.com/tag/insulation">insulation values</a>, energy ratings, or mechanical systems, thermal performance begins with spatial decisions made long before technical equipment is introduced. Orientation, airflow, daylight, and the placement of openings all influence how a building absorbs, retains, and releases heat throughout the day.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/6a22/a7a2/54de/fb01/89c8/f1d6/newsletter/the-fifth-facade-design-decisions-behind-thermal-performance_15.jpg?1780656092"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Designing with Air: Rethinking Architecture Beyond the Wall]]>
      </title>
      <link>https://www.archdaily.com/1040962/designing-with-air-rethinking-architecture-beyond-the-wall</link>
      <pubDate>Sat, 02 May 2026 07:30:00 +0000</pubDate>
      <dc:creator>Diogo Borges Ferreira</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1040962/designing-with-air-rethinking-architecture-beyond-the-wall</guid>
      <description>
        <![CDATA[<p>Architecture is traditionally chronicled through the persistence of the solid. We define the discipline by the weight of the lintel, the mass of the pier, and the resistance of the <a href="https://www.archdaily.com/tag/walls">wall</a>. <a href="https://www.archdaily.com/1040611/why-do-we-want-to-float-the-psychology-of-lightness-in-architecture?ad_campaign=special-tag" target="_blank" rel="noopener">Even when lightness is invoked</a>, it is usually understood as a subtractive act, the thinning of a section or the precarious reduction of a load. Yet there is a parallel history, less visible and harder to isolate, in which the primary material of construction is not what occupies space, but what moves through it.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/69ee/0c04/e2d9/9109/703c/ece3/newsletter/beyond-the-wall-designing-with-air_2.jpg?1777208331"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Designed Comfort, Purchased Comfort: Passive Design and Air Conditioning in Hong Kong]]>
      </title>
      <link>https://www.archdaily.com/1040205/designed-comfort-purchased-comfort-passive-design-and-air-conditioning-in-hong-kong</link>
      <pubDate>Thu, 02 Apr 2026 07:30:00 +0000</pubDate>
      <dc:creator>Jonathan Yeung</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1040205/designed-comfort-purchased-comfort-passive-design-and-air-conditioning-in-hong-kong</guid>
      <description>
        <![CDATA[<p>Establishing <a href="https://www.archdaily.com/1039072/thermal-memory-how-climate-shapes-architectural-heritage?ad_source=search&amp;ad_medium=search_result_articles">thermal comfort</a> once demanded a far more deliberate and calibrated architectural intelligence—an interplay of orientation, massing, material behavior, <a href="https://www.archdaily.com/887460/cross-ventilation-the-chimney-effect-and-other-concepts-of-natural-ventilation?ad_source=search&amp;ad_medium=search_result_articles">ventilation potential</a>, shading, and the ways <a href="https://www.archdaily.com/1039147/light-from-above-measuring-and-designing-daylight-under-sloped-roofs?ad_source=search&amp;ad_medium=search_result_articles">daylight and surfaces</a> absorb and release heat. This was not simply a matter of taste, but of necessity. When many of Hong Kong's post-war modernist buildings were constructed in the late 1960s and 1970s, forming a substantial portion of the city's public housing and broader residential stock, air-conditioning was not yet a ubiquitous, default service. <a href="https://www.archdaily.com/1034438/rethinking-urban-cooling-a-case-for-low-energy-radiant-technology?ad_source=search&amp;ad_medium=search_result_articles">Cooling</a>, where present at all, was limited and unevenly distributed; comfort had to be negotiated through passive means, through section, façade depth, operable openings, and climatic detailing. It was only later, particularly through the 1970s and 1980s, as air-conditioning became increasingly standardized across the region, that mechanical cooling began to displace this earlier matrix of architectural decision-making.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/69cc/1ce1/0d84/a801/7d98/089e/newsletter/designed-comfort-purchased-comfort-passive-thermal-logic-and-the-age-of-ac-in-hong-kong_9.jpg?1774984425"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Negotiating Boundaries: Climate and the Building Envelope in Central American Architecture]]>
      </title>
      <link>https://www.archdaily.com/1039856/negotiating-boundaries-climate-and-the-building-envelope-in-central-american-architecture</link>
      <pubDate>Wed, 25 Mar 2026 04:00:00 +0000</pubDate>
      <dc:creator>Moises Carrasco</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1039856/negotiating-boundaries-climate-and-the-building-envelope-in-central-american-architecture</guid>
      <description>
        <![CDATA[<p>In temperate and cold climates, architecture typically begins with a defensive gesture. The <a href="https://www.archdaily.com/975257/as-climate-becomes-extreme-how-to-deal-with-facades?ad_source=search&amp;ad_medium=search_result_articles">building envelope</a> is a sealed boundary designed to resist the exterior environment through insulation, vapor barriers, and <a href="https://www.archdaily.com/898843/how-to-calculate-the-thermal-transmittance-u-value-in-the-envelope-of-a-building?ad_source=search&amp;ad_medium=search_result_articles">mechanical control</a>. In cold countries like <a href="https://www.archdaily.com/country/canada/page/1">Canada</a>, where winter temperatures can plunge well below freezing, airtightness is not a luxury. In this context, buildings must resist the exterior environment entirely to maintain interior comfort. However, in <a href="https://www.archdaily.com/tag/central-america">Central America</a>, a region spanning from <a href="https://www.archdaily.com/country/belize/page/1">Belize</a> to <a href="https://www.archdaily.com/country/panama">Panama</a>, architectural logic shifts from exclusion to negotiation. In this region, the envelope is not a wall of defense but a specialized filter.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/69be/e1fa/5102/3701/89e8/02de/newsletter/negotiating-boundaries-the-envelope-as-an-environmental-filter-in-central-american-architecture_11.jpg?1774117378"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Adaptive Cabins in Costa Rica: Designing for Humidity and Ventilation in the Jungle]]>
      </title>
      <link>https://www.archdaily.com/1039635/adaptive-cabins-in-costa-rica-designing-for-humidity-and-ventilation-in-the-jungle</link>
      <pubDate>Wed, 18 Mar 2026 04:00:00 +0000</pubDate>
      <dc:creator>Moises Carrasco</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1039635/adaptive-cabins-in-costa-rica-designing-for-humidity-and-ventilation-in-the-jungle</guid>
      <description>
        <![CDATA[<p><a href="https://www.archdaily.com/country/costa-rica/page/1">Costa Rica</a> is a small country in <a href="https://www.archdaily.com/tag/central-america">Central America</a>, internationally renowned for its tourism, biodiversity, and tropical climate. Given this context, tropical design strategies for <a href="https://www.archdaily.com/1038309/tropical-hotels-in-costa-rica-six-projects-to-explore-climate-sensitive-architecture-in-central-america?ad_source=search&amp;ad_medium=projects_tab&amp;ad_source=search&amp;ad_medium=search_result_all">hotel design</a> are often more studied, but residential cabin projects can represent a more surgical approach to understanding the landscape. Often situated in remote forest or jungle locations, these cabins, apart from the <a href="https://www.archdaily.com/928807/design-guidelines-for-contemporary-tropical-architecture?ad_source=search&amp;ad_medium=search_result_articles">common tropical design strategies,</a> have to prioritize long-term durability and low-maintenance costs, particularly in regions where access for repairs is logistically difficult. This necessitates a design philosophy that favors both structural and climatic resilience.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/69b5/a897/785c/2724/7893/1d84/newsletter/adaptive-cabin-enclosures-managing-humidity-and-ventilation-in-costa-ricas-forest-and-jungle-contexts_5.jpg?1773512863"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Understanding U-Value: The Foundation of Energy-Efficient Envelopes]]>
      </title>
      <link>https://www.archdaily.com/898843/how-to-calculate-the-thermal-transmittance-u-value-in-the-envelope-of-a-building</link>
      <pubDate>Tue, 03 Mar 2026 07:30:00 +0000</pubDate>
      <dc:creator>José Tomás Franco</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/898843/how-to-calculate-the-thermal-transmittance-u-value-in-the-envelope-of-a-building</guid>
      <description>
        <![CDATA[<p data-start="460" data-end="773">Much more than merely as a protective skin, the building envelope functions as a thermal regulator that influences operational energy demand, indoor comfort, and long-term efficiency. And before renewable systems or mechanical strategies are introduced, performance begins in section. The way walls, roofs, windows and floors are layered determines how much heat is lost in winter, gained in summer, and ultimately how much energy a building consumes. At the center of this evaluation lies a fundamental metric: the thermal transmittance, or U-value. Understanding how to calculate it is essential for assessing whether an envelope conserves energy or allows it to escape.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/5b57/851d/f197/ccd2/5000/0136/newsletter/feature.jpg?1532462359"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Thermal Memory: How Climate Shapes Architectural Heritage]]>
      </title>
      <link>https://www.archdaily.com/1039072/thermal-memory-how-climate-shapes-architectural-heritage</link>
      <pubDate>Fri, 27 Feb 2026 05:00:00 +0000</pubDate>
      <dc:creator>Ananya Nayak</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1039072/thermal-memory-how-climate-shapes-architectural-heritage</guid>
      <description>
        <![CDATA[<p>On a hot afternoon in May, when the air over western India turns metallic with heat, no one remembers façade composition. <a href="https://www.archdaily.com/1038054/how-cities-design-public-life-in-the-shade?ad_campaign=normal-tag">They remember where the shade falls.</a> They remember which corridor breathed. They remember the house that was cooler than the street. What stays in memory is comfort beyond the form. Repeated thermal <a href="https://www.archdaily.com/1031146/heat-resilient-design-how-city-leaders-use-building-materials-to-fight-urban-heat?ad_source=search&amp;ad_medium=projects_tab&amp;ad_source=search&amp;ad_medium=search_result_all" target="_blank" rel="noopener">preference stabilizes into spatial configuration</a>, and over time, those configurations become building types.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/699e/8f4d/dfc9/5e01/885a/a8a8/newsletter/thermal-heritage-how-climate-writes-architecture-across-centuries_10.jpg?1771999057"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Framing Interiors and Landscapes in Aluminum and Glass to Master the View]]>
      </title>
      <link>https://www.archdaily.com/1034016/framing-interiors-and-landscapes-in-aluminum-and-glass-to-master-the-view</link>
      <pubDate>Wed, 24 Sep 2025 01:30:00 +0000</pubDate>
      <dc:creator>Enrique Tovar</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1034016/framing-interiors-and-landscapes-in-aluminum-and-glass-to-master-the-view</guid>
      <description>
        <![CDATA[<p><a href="https://www.archdaily.com/1031017/the-windows-of-venice-how-history-inspired-modernity?ad_campaign=normal-tag">Windows have long held an ambivalent role in architecture</a>, as they both define and enclose interiors while simultaneously creating a link to the outdoors. This dual function goes beyond simply meeting construction needs <a href="https://www.archdaily.com/910699/why-norman-foster-scoops-daylight-into-his-buildings?ad_source=search&amp;ad_medium=search_result_articles">or providing daylight</a>, directly influencing how occupants experience and engage with the views. The 20th century saw the introduction of materials such as steel, aluminum, and glass, which enabled <a href="https://www.archdaily.com/992145/different-types-of-windows-and-how-to-use-them?ad_source=search&amp;ad_medium=search_result_articles">different types of windows</a> with thinner frames and expansive panes, enhancing transparency and reinforcing the visual connection with the surrounding setting.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/68c1/9675/8791/b75d/c549/2acd/newsletter/framing-interiors-and-landscapes-in-aluminum-and-glass-to-master-the-view_5.jpg?1757517473"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[The Greener Future of Automatic Door Systems: A Shift in Design and Performance]]>
      </title>
      <link>https://www.archdaily.com/1029498/the-greener-future-of-automatic-door-systems-a-shift-in-design-and-performance</link>
      <pubDate>Thu, 22 May 2025 01:30:00 +0000</pubDate>
      <dc:creator>Enrique Tovar</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1029498/the-greener-future-of-automatic-door-systems-a-shift-in-design-and-performance</guid>
      <description>
        <![CDATA[<p>Throughout history, <a href="https://www.archdaily.com/tag/doors">doors</a>—and later <a href="https://www.archdaily.com/search/us/products/companies/assa-abloy/search/products/categories/finishes_doors-partitions_doors">automatic doors</a>—have served a far greater purpose than merely marking an entrance or exit. They define thresholds, guide the flow of movement, and subtly shape the way people interact within a space. We can trace their evolution back to the 1st century, when <a href="https://www.artefacts-berlin.de/portfolio-item/heron-of-alexandira-automated-temple-doors/?utm_medium=website&amp;utm_source=archdaily.com" target="_blank">Heron of Alexandria devised a steam-powered door</a>—an early example of technology merging with architecture. Since then, contactless automatic door systems have incorporated technological advancements that enhance operation and redefine their role within buildings. Today, they are integrated across a range of building types and scales, acting as transitional elements that <a href="https://www.archdaily.com/tag/comfort">enhance comfort</a>, <a href="https://www.archdaily.com/tag/energy-efficiency">energy efficiency</a>, and the overall quality of indoor spaces.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/680b/ae7a/03de/f601/7f0d/9ef7/newsletter/an-introductory-guide-to-automatic-doors-functionality-technology-and-sustainability_10.jpg?1745596033"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Designing for Temperature Gradients: 6 Central American Projects that Use Transitional Spaces to Mitigate Heat]]>
      </title>
      <link>https://www.archdaily.com/1030029/transitional-spaces-for-the-heat-6-central-american-projects-that-cool-from-the-outside-in</link>
      <pubDate>Sat, 17 May 2025 07:30:00 +0000</pubDate>
      <dc:creator>Moises Carrasco</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1030029/transitional-spaces-for-the-heat-6-central-american-projects-that-cool-from-the-outside-in</guid>
      <description>
        <![CDATA[<p>Understanding the <a href="https://nrc-publications.canada.ca/eng/view/ft/?id=45c7f820-6eda-44de-b79a-520ac413f538&amp;utm_medium=website&amp;utm_source=archdaily.com" target="_blank">temperature gradient</a> in a building is essential in cold or temperate climates, where airtight enclosures and continuous insulation are used to prevent heat loss. However, this approach is not suitable for tropical areas like <a href="https://www.archdaily.com/tag/central-america">Central America</a>, where <a href="https://www.britannica.com/place/Central-America?utm_medium=website&amp;utm_source=archdaily.com" target="_blank">the climate</a> is marked by a consistent alternation between wet and dry seasons rather than four distinct ones. Factors such as proximity to the sea, elevation, and local topography influence microclimates across short distances, but <a href="https://www.archdaily.com/1027537/designing-with-humidity-how-architecture-adapts-to-the-worlds-dampest-climates?ad_source=search&amp;ad_medium=search_result_articles">high humidity</a> remains a common challenge. Sealed, <a href="https://www.archdaily.com/1023046/bioclimatic-architecture-in-central-america-lessons-from-angela-stassanos-work-in-honduras?ad_source=search&amp;ad_medium=projects_tab&amp;ad_source=search&amp;ad_medium=search_result_all">airtight walls with no ventilation</a> can quickly become breeding grounds for mold, making the thermal strategies of temperate climates problematic. In response, local designers have developed alternative approaches that embrace, rather than resist, the outdoor environment, allowing airflow and evaporation to manage interior comfort.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/681f/a925/77df/3e01/8750/1940/newsletter/transitional-spaces-for-the-heat-6-central-american-houses-that-cool-from-the-outside-in_2.jpg?1746905391"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Exploring the Boundaries of Polycarbonate: 25 Exemplary Projects Showcasing Its Versatility]]>
      </title>
      <link>https://www.archdaily.com/874215/let-light-in-17-projects-using-polycarbonate</link>
      <pubDate>Sat, 12 Oct 2024 07:30:00 +0000</pubDate>
      <dc:creator>Fernanda Castro</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/874215/let-light-in-17-projects-using-polycarbonate</guid>
      <description>
        <![CDATA[<p><a href="https://www.archdaily.com/tag/polycarbonate" target="_blank" rel="noopener">Polycarbonate</a>, commonly used in roofing and industrial cladding, has gone beyond its initial <a href="https://www.archdaily.com/search/projects/materials/Plastic" target="_blank" rel="noopener">applications</a> to become a material widely used across various architectural typologies. Its combination of strength, lightness, easy installation, and ability to allow natural light to pass through has made it an attractive option for <a href="https://www.archdaily.com/search/projects/categories/housing" target="_blank" rel="noopener">residential,</a> <a href="https://www.archdaily.com/search/projects/categories/educational-architecture" target="_blank" rel="noopener">educationa</a>l, and even <a href="https://www.archdaily.com/search/projects/categories/cultural-architecture" target="_blank" rel="noopener">cultural</a> architecture projects. In homes, polycarbonate not only helps create <a href="https://www.archdaily.com/958579/how-to-ensure-comfort-and-well-being-in-small-spaces" target="_blank" rel="noopener">bright and comfortable environments </a>but also allows for creative use of translucency to generate private spaces without sacrificing visual connection to the outdoors.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/66f0/6a4f/2684/7b29/c1c8/dff2/newsletter/la-versatilidad-del-policarbonato-en-17-obras-ejemplares_31.jpg?1727031895"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Skylights in Tropical Architecture: 20 Homes That Redefine Natural Lighting]]>
      </title>
      <link>https://www.archdaily.com/1021425/skylights-in-tropical-architecture-20-homes-that-redefine-natural-lighting</link>
      <pubDate>Wed, 02 Oct 2024 07:30:00 +0000</pubDate>
      <dc:creator>Camilla Ghisleni</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1021425/skylights-in-tropical-architecture-20-homes-that-redefine-natural-lighting</guid>
      <description>
        <![CDATA[<p>From subtle light beams to wide openings, <a href="https://www.archdaily.com/tag/skylights" target="_blank" rel="noopener">skylights</a> transform natural light into a <a href="https://www.archdaily.com/896044/systems-to-incorporate-natural-lighting-in-your-projects" target="_blank" rel="noopener">powerful architectural tool</a>, creating a <a href="https://www.archdaily.com/999158/between-light-and-shadow-exploring-lighting-to-create-atmospheres-in-architecture" target="_blank" rel="noopener">dynamic interplay of light and shadow</a> that adds movement and vitality to buildings. <a href="https://www.archdaily.com/975929/light-as-a-design-statement-inspiring-ways-to-manage-natural-lighting" target="_blank" rel="noopener">This intricate dance</a> captivates not only with <a href="https://www.archdaily.com/972975/geometric-patterns-of-light-and-shadow-7-projects-with-perforated-skins" target="_blank" rel="noopener">the patterns the light casts</a> on surfaces but also with the practical benefits of <a href="https://www.archdaily.com/872254/lit-up-16-projects-illuminated-by-skylights" target="_blank" rel="noopener">overhead lighting</a>, such as improved <a href="https://www.archdaily.com/tag/thermal-comfort" target="_blank" rel="noopener">thermal comfort</a> and enhanced <a href="https://www.archdaily.com/search/projects/categories/wellbeing" target="_blank" rel="noopener">well-being</a>.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/66eb/6154/77c5/e143/2c9c/62b3/newsletter/claraboias-na-arquitetura-tropical-20-casas-que-reinventaram-a-iluminacao-natural_23.jpg?1726701928"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Timeless Vernacular Wisdom for Tomorrow's Cold-Climate Buildings]]>
      </title>
      <link>https://www.archdaily.com/1021127/timeless-vernacular-wisdom-for-tomorrows-cold-climate-buildings</link>
      <pubDate>Tue, 17 Sep 2024 07:30:00 +0000</pubDate>
      <dc:creator>Eduardo Souza</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1021127/timeless-vernacular-wisdom-for-tomorrows-cold-climate-buildings</guid>
      <description>
        <![CDATA[<p>Vernacular construction technologies are based on centuries of practical wisdom, refined through countless trials and errors. This process eliminates all irrelevant aspects, creating highly efficient and simple systems that are intrinsically adapted to the local climate and resources. These methods demonstrate how to conserve heat with minimal energy, offering valuable insights for modern buildings, promoting energy efficiency, and environmental harmony. In this article, we have already <a href="https://www.archdaily.com/996595/reimagining-air-conditioning-traditional-cooling-methods-for-the-future" target="_blank" rel="noopener">covered traditional passive cooling techniques</a>, such as Persian wind towers and Arab mashrabiya. Now, we turn our focus to strategies applicable to cold climates, exploring effective solutions for heat retention and space heating.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/66e4/61c8/2e09/f12a/5662/6add/newsletter/sabedoria-vernacular-atemporal-para-edificios-sustentaveis-em-climas-frios_10.jpg?1726243289"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[What is Over-Providing?  A Strategy for Resilient Architecture]]>
      </title>
      <link>https://www.archdaily.com/1020689/what-is-over-providing-a-strategy-for-resilient-architecture</link>
      <pubDate>Mon, 02 Sep 2024 03:00:00 +0000</pubDate>
      <dc:creator>Jonathan Yeung</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1020689/what-is-over-providing-a-strategy-for-resilient-architecture</guid>
      <description>
        <![CDATA[<p>Over-providing traditionally implies offering <a href="https://www.archdaily.com/1019866/more-than-a-classroom-the-multifunctionality-of-educational-spaces-in-global-south-communities">more than is necessary</a>, often carrying a negative connotation due to the potential for excess and waste. However, could there be scenarios within the built environment where over-providing proves advantageous? The question critically examines how overprovisioning might enhance a building's flexibility and adaptability to diverse and evolving conditions.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/66d1/97c0/f999/c666/7f87/9a8f/newsletter/what-is-over-providing-a-strategy-for-resilient-architecture_1.jpg?1725011911"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[Passive Design and Urban Heat Islands: Strategies from the United Arab Emirates and India]]>
      </title>
      <link>https://www.archdaily.com/1019127/passive-design-and-urban-heat-islands-strategies-from-the-united-arab-emirates-and-india</link>
      <pubDate>Mon, 22 Jul 2024 07:30:00 +0000</pubDate>
      <dc:creator>Ankitha Gattupalli</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1019127/passive-design-and-urban-heat-islands-strategies-from-the-united-arab-emirates-and-india</guid>
      <description>
        <![CDATA[<p>As temperatures rise globally, the impacts of urban heat islands—once considered an invisible threat—are becoming increasingly pronounced <a href="https://www.archdaily.com/985742/how-are-cities-adapting-to-heatwaves-in-the-face-of-climate-change" target="_blank" rel="noopener">and ever more dangerous</a>. Despite this mounting threat, however, the public realm which constitutes about 30% of cities offers immense potential to provide respite from scorching heat and introduce new opportunities to improve urban resilience efforts. As global temperatures rise, cities in regions like the <a href="/tag/united-arab-emirates">United Arab Emirates</a> and <a href="/tag/india">India</a> are facing unprecedented challenges in maintaining livable urban spaces.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/669c/2dea/df91/fa3e/4685/4ea6/newsletter/passive-urban-design-in-tropical-climates-strategies-from-the-united-arab-emirates-and-india_6.jpg?1721511433"></enclosure>
    </item>
    <item>
      <title>
        <![CDATA[ICON Reveals New 3D-Printed Residential Development in Wimberley, Texas]]>
      </title>
      <link>https://www.archdaily.com/1018953/icon-reveals-new-3d-printed-residential-development-in-wimberley-texas</link>
      <pubDate>Wed, 17 Jul 2024 06:30:00 +0000</pubDate>
      <dc:creator>Maria-Cristina Florian</dc:creator>
      <guid isPermaLink="false">https://www.archdaily.com/1018953/icon-reveals-new-3d-printed-residential-development-in-wimberley-texas</guid>
      <description>
        <![CDATA[<p><a href="https://www.archdaily.com/tag/icon">ICON</a>, the office that pioneered large-scale <a href="https://www.archdaily.com/tag/3d-printer">3D printing</a>, has announced a new residential development of 3D-printed homes to take shape at <a href="/tag/wimberley">Wimberley</a> Springs, in <a href="/tag/texas">Texas</a>, <a href="/tag/united-states">United States</a>. The complex, comprising 8 single-family homes, features designs from ICON’s <a href="https://codex.iconbuild.com/all?utm_medium=website&amp;utm_source=archdaily.com" target="_blank">CODEX Digital Architecture Catalog</a>. The houses, currently under construction and available for sale, leverage ICON’s robotic technologies to create an energy-efficient, low-carbon construction process.</p>]]>
      </description>
      <content:encoded>
      </content:encoded>
      <enclosure url="https://images.adsttc.com/media/images/6697/8cbf/c8b7/c801/7c1a/5a67/newsletter/icon-reveals-new-3d-printed-residential-development-in-wimberley-texas_1.jpg?1721208025"></enclosure>
    </item>
  </channel>
</rss>
