{"id":23786,"date":"2023-05-18T10:58:19","date_gmt":"2023-05-18T15:58:19","guid":{"rendered":"\/?p=23786"},"modified":"2023-05-18T13:31:20","modified_gmt":"2023-05-18T18:31:20","slug":"how-to-conserve-water-in-evaporative-cooling-towers","status":"publish","type":"post","link":"https:\/\/spxcooling.com\/fr\/news\/how-to-conserve-water-in-evaporative-cooling-towers\/","title":{"rendered":"Comment conserver l&#039;eau dans les tours de refroidissement par \u00e9vaporation"},"content":{"rendered":"<div class=\"newsarticle\">\nEn ce qui concerne le rejet de chaleur dans les syst\u00e8mes m\u00e9caniques, les tours de refroidissement par \u00e9vaporation (ou solutions refroidies \u00e0 l&#039;eau) consomment moins d&#039;\u00e9nergie que les options refroidies par air, ce qui les rend plus \u00e9conomes en \u00e9nergie. Les tours de refroidissement peuvent utiliser des quantit\u00e9s importantes d\u2019eau car elles rejettent la chaleur en \u00e9vaporant une petite partie de l\u2019eau recircul\u00e9e dans l\u2019atmosph\u00e8re. Ce qui n\u2019est peut-\u00eatre pas \u00e9vident, cependant, c\u2019est que le refroidissement par \u00e9vaporation peut toujours \u00eatre l\u2019option la plus \u00e9conome en eau dans de nombreuses applications. Certains op\u00e9rateurs peuvent h\u00e9siter \u00e0 utiliser le refroidissement par \u00e9vaporation en se basant uniquement sur la consommation d&#039;eau sur site, en particulier lorsque l&#039;eau est rare dans la r\u00e9gion. Mais les syst\u00e8mes refroidis par eau peuvent conserver et g\u00e9rer l\u2019eau efficacement.<\/p>\n<div class=\"clear10\"><\/div>\n<p><img loading=\"lazy\" decoding=\"async\" class=\"aligncenter size-full wp-image-23789\" src=\"\/wp-content\/uploads\/SPX-Marley-Edith-Green-scaled.webp\" alt=\"Conserve water with a cooling tower\" width=\"2560\" height=\"1560\" srcset=\"\/wp-content\/uploads\/SPX-Marley-Edith-Green-scaled.webp 2560w, \/wp-content\/uploads\/SPX-Marley-Edith-Green-1280x780.webp 1280w, \/wp-content\/uploads\/SPX-Marley-Edith-Green-980x597.webp 980w, \/wp-content\/uploads\/SPX-Marley-Edith-Green-480x293.webp 480w\" sizes=\"(min-width: 0px) and (max-width: 480px) 480px, (min-width: 481px) and (max-width: 980px) 980px, (min-width: 981px) and (max-width: 1280px) 1280px, (min-width: 1281px) 2560px, 100vw\" \/><\/p>\n<div class=\"clear10\"><\/div>\n<h2>\u00c9vaporation et purge<\/h2>\n<p>Les tours de refroidissement par \u00e9vaporation utilisent de l&#039;eau qui est recircul\u00e9e dans une boucle, et une partie de cette eau quitte le processus de deux mani\u00e8res principales\u00a0: l&#039;\u00e9vaporation et la purge.<\/p>\n<p><strong>\u00c9vaporation:<\/strong> la partie de l&#039;eau transform\u00e9e en vapeur pour rejeter la chaleur.<br \/>\n<strong>Souffler:<\/strong> la quantit\u00e9 d&#039;eau \u00e9vacu\u00e9e du syst\u00e8me pour g\u00e9rer la concentration en min\u00e9raux et la qualit\u00e9 de l&#039;eau.<\/p>\n<p>G\u00e9n\u00e9ralement, la consommation d\u2019eau augmente \u00e0 mesure que la demande ou la charge de rejet de chaleur augmente, entra\u00eenant davantage d\u2019\u00e9vaporation et, par cons\u00e9quent, davantage de purge. La temp\u00e9rature et l\u2019humidit\u00e9 de l\u2019air ambiant affectent \u00e9galement la quantit\u00e9 d\u2019eau \u00e9vapor\u00e9e. Les facteurs m\u00e9t\u00e9orologiques sont difficiles \u00e0 contr\u00f4ler et ont un impact sur tout syst\u00e8me utilis\u00e9 dans un endroit donn\u00e9.<\/p>\n<h2>Fa\u00e7ons de limiter l\u2019\u00e9vaporation<\/h2>\n<p>Selon le Water Efficiency Management Guide de l&#039;EPA, \u00ab environ 1,8 gallons d&#039;eau sont \u00e9vapor\u00e9s pour chaque tonne-heure de refroidissement \u00bb. Mais cela peut changer radicalement lors de l\u2019utilisation de conceptions de tours sp\u00e9cifiques et\/ou de technologies de r\u00e9duction des panaches.<\/p>\n<h3>Conception de la tour<\/h3>\n<p>La s\u00e9lection d\u2019une tour de refroidissement \u00e9conome en eau pendant le processus de conception peut \u00eatre un moyen de contribuer \u00e0 \u00e9conomiser l\u2019eau. De nombreux fabricants proposent <a href=\"\/fr\/evaporative-fluid-coolers\/\">tours de refroidissement en circuit ferm\u00e9<\/a>, \u00e9galement appel\u00e9s refroidisseurs de fluide, con\u00e7us pour refroidir une solution eau\/glycol dans un serpentin ferm\u00e9. De nombreux refroidisseurs de fluide permettent un fonctionnement saisonnier \u00e0 sec dans certains climats. Les temp\u00e9ratures de point de commutation plus \u00e9lev\u00e9es offertes par le <a href=\"\/fr\/evaporative-fluid-coolers\/marley-dt-fluid-cooler\/\">Refroidisseur de fluide Marley DT<\/a> permettre des p\u00e9riodes plus longues de fonctionnement \u00e0 sec, r\u00e9duisant ainsi la consommation d&#039;eau du site, minimisant les co\u00fbts de traitement de l&#039;eau et simplifiant le fonctionnement dans des conditions de gel. Les refroidisseurs de fluide peuvent r\u00e9duire les co\u00fbts de traitement de l\u2019eau et le volume d\u2019eau lors du processus de purge.<\/p>\n<p>D&#039;autres mod\u00e8les \u00ab hybrides \u00bb, comme le <a href=\"\/fr\/cooling-towers\/marley-ncwd\/\">Tour de refroidissement Marley NCWD<\/a>, fonctionnent comme une tour de refroidissement humide avec une section s\u00e8che suppl\u00e9mentaire install\u00e9e parall\u00e8lement aux supports de transfert de chaleur traditionnels. Cela permet un fonctionnement en mode \u00e9vaporatif uniquement ou en mode combin\u00e9 humide\/sec, pour limiter l&#039;\u00e9vaporation de l&#039;eau et le panache.<\/p>\n<h3>Technologie de r\u00e9duction des panaches pour les tours de refroidissement \u00e9rig\u00e9es sur site<\/h3>\n<p>La r\u00e9duction du panache \u2013 le \u00ab nuage \u00bb de vapeur visible qui quitte la tour de refroidissement \u2013 peut \u00eatre un facteur de conception important pour diverses raisons, notamment l\u2019esth\u00e9tique (immeubles de grande hauteur), la s\u00e9curit\u00e9 et la faible visibilit\u00e9 (a\u00e9roports, passages \u00e0 niveau). La r\u00e9duction du panache contribue \u00e9galement \u00e0 r\u00e9duire la consommation d\u2019eau et les co\u00fbts associ\u00e9s. Les syst\u00e8mes de r\u00e9duction du panache, comme le <a href=\"\/fr\/cooling-towers\/marley-clearsky-plume-abatement\/\">Syst\u00e8me brevet\u00e9 Marley ClearSky\u00ae<\/a>, utilisez une s\u00e9rie de modules d&#039;\u00e9changeur de chaleur en PVC dans le pl\u00e9num de la tour pour condenser la vapeur d&#039;eau avant qu&#039;elle ne sorte de la tour. Lorsqu&#039;il fonctionne en mode r\u00e9duction des panaches, le syst\u00e8me ClearSky r\u00e9duit la consommation d&#039;eau jusqu&#039;\u00e0 20% ou plus.<\/p>\n<h2>Fa\u00e7ons de r\u00e9duire les purges<\/h2>\n<p>Lorsque l&#039;eau pure s&#039;\u00e9vapore d&#039;une tour, elle laisse derri\u00e8re elle des solides dissous (calcium, magn\u00e9sium, silice, etc.) pr\u00e9sents dans l&#039;eau en recirculation. Finalement, l\u2019accumulation de concentrations de min\u00e9raux dans l\u2019eau est r\u00e9duite gr\u00e2ce \u00e0 un processus appel\u00e9 \u00ab purge \u00bb ou \u00ab purge \u00bb. La purge dirige l\u2019eau \u00e0 forte concentration min\u00e9rale vers le drain et est remplac\u00e9e par de l\u2019eau douce, appel\u00e9e eau \u00ab d\u2019appoint \u00bb. Ce processus continu aide \u00e0 prot\u00e9ger les composants de la tour des d\u00e9p\u00f4ts min\u00e9raux et \u00e0 pr\u00e9server les performances de la tour. La meilleure fa\u00e7on de limiter les besoins en purge est de pr\u00e9conditionner l\u2019eau d\u2019appoint. Cela n\u00e9cessite un syst\u00e8me de traitement de l\u2019eau tel qu\u2019un \u00ab optimiseur d\u2019utilisation de l\u2019eau \u00bb.<\/p>\n<h3>Syst\u00e8mes de traitement de l&#039;eau<\/h3>\n<p><a href=\"\/fr\/water-management\/\">Traitement de l&#039;eau des tours de refroidissement<\/a> peut aider \u00e0 augmenter les cycles de concentration s\u00fbrs (COC) du syst\u00e8me, ou le nombre de fois o\u00f9 la concentration de solides totaux dissous (TDS) dans l&#039;eau de la tour de refroidissement est multipli\u00e9e par rapport au TDS dans l&#039;eau d&#039;appoint. Le traitement de l&#039;eau via des produits chimiques et une filtration peuvent limiter les TDS circulant dans la tour et r\u00e9duire la fr\u00e9quence des purges et la consommation d&#039;eau.<\/p>\n<p>UN <a href=\"\/fr\/water-management\/\">programme de gestion de l&#039;eau<\/a> et un entretien r\u00e9gulier sont essentiels au fonctionnement de la tour de refroidissement. Un professionnel comp\u00e9tent en traitement de l\u2019eau appliquera divers traitements chimiques pour ajuster la chimie de l\u2019eau et utilisera des syst\u00e8mes de filtration pour \u00e9liminer les ions, les sels et les particules de l\u2019eau de source.<\/p>\n<h3>Syst\u00e8me d&#039;optimisation de l&#039;utilisation de l&#039;eau<\/h3>\n<p>Un optimiseur d&#039;utilisation de l&#039;eau, comme le <a href=\"\/fr\/water-management\/marley-watergard\/\">Syst\u00e8me de filtration Marley WaterGard\u2122<\/a> est une technologie plus r\u00e9cente qui conditionne l\u2019eau d\u2019appoint. Il bloque physiquement les min\u00e9raux que l&#039;on trouve couramment dans les cours d&#039;eau municipaux (chlorures, carbonate de calcium, silice, etc.), r\u00e9duisant ainsi la teneur en min\u00e9raux de l&#039;eau d&#039;appoint et permettant un COC de fonctionnement plus \u00e9lev\u00e9. L&#039;optimiseur de consommation d&#039;eau Marley WaterGard peut r\u00e9duire la consommation d&#039;eau jusqu&#039;\u00e0 59% et r\u00e9duire les eaux us\u00e9es jusqu&#039;\u00e0 88% dans certaines conditions.<\/p>\n<h2>Utilisation de l&#039;eau dans le refroidissement par \u00e9vaporation<\/h2>\n<p><a href=\"\/fr\/news\/a-review-of-evaporative-coolings-efficiency-and-environmental-value\/\">Une \u00e9tude r\u00e9cemment publi\u00e9e<\/a> indique que les solutions refroidies \u00e0 l&#039;eau peuvent utiliser moins d&#039;eau totale que les options refroidies \u00e0 l&#039;air lorsque l&#039;eau sur site et l&#039;eau utilis\u00e9e en amont de la centrale \u00e9lectrique sont prises en compte. L\u2019utilisation de m\u00e9thodes de conservation de l\u2019eau comme celles cit\u00e9es ci-dessus peut contribuer \u00e0 r\u00e9duire la consommation d\u2019eau des tours de refroidissement.<\/p>\n<p>L\u2019essentiel est que les m\u00e9thodes de conservation de l\u2019eau peuvent \u00eatre utilis\u00e9es efficacement avec les solutions de refroidissement par \u00e9vaporation, y compris les tours de refroidissement nouvelles et existantes. Un bon premier pas vers <a href=\"\/fr\/rep-search\/\">consulter un repr\u00e9sentant technique<\/a>.<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":"<p>En ce qui concerne le rejet de chaleur dans les syst\u00e8mes m\u00e9caniques, les tours de refroidissement par \u00e9vaporation (ou solutions refroidies \u00e0 l&#039;eau) consomment moins d&#039;\u00e9nergie que les options refroidies par air, ce qui les rend plus \u00e9conomes en \u00e9nergie.<\/p>","protected":false},"author":2,"featured_media":23789,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"_et_pb_use_builder":"","_et_pb_old_content":"","_et_gb_content_width":"","content-type":"","_relevanssi_hide_post":"","_relevanssi_pin_for_all":"","_relevanssi_pin_keywords":"","_relevanssi_unpin_keywords":"","_relevanssi_related_keywords":"","_relevanssi_related_include_ids":"","_relevanssi_related_exclude_ids":"","_relevanssi_related_no_append":"","_relevanssi_related_not_related":"","_relevanssi_related_posts":"","_relevanssi_noindex_reason":"","footnotes":""},"categories":[31,30],"tags":[],"class_list":["post-23786","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-expert-opinion-whitepapers","category-news"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v21.2 (Yoast SEO v27.2) - 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