The Inland Steel Headquarters Building in Chicago was Chicago's first fully air conditioned building.
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| geographicus "Sackett and Wilhelms (c. 1887 - 1945), often as the Sackett and Wilhelms Lithographing and Printing Company, was a lithographic printer based in New York City, and more specifically in Brooklyn. The firm was best known for their printing of chromolithographic illustrations for the satirical magazine Judge, but they also produced broadsides, maps, and books, and were especially active in producing posters to support the U.S. war effort in the First World War. The company's printshop in Brooklyn was notable for being the home to the world's first modern air-conditioning system, designed by Willis Carrier (1876 - 1950), working at the time for the Buffalo Forge Company. Because of humidity in the summertime, paper would shrink and expand throughout the day, causing the colored inks, applied one at a time, to be misaligned. Desperate for a solution, Sackett and Wilhelms turned to Buffalo Forge, who tasked their promising young engineer Carrier with finding a solution, leading him to devise methods for controlling humidity in addition to cooling air." |
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| Forgotten Stories posted Brooklyn, 1902. The Sackett-Wilhelms Lithographing and Publishing Company had a problem that was costing them contracts and reputation. They were one of the premier color printing companies in New York, but they couldn't produce consistent high-quality color work during summer months. The issue was humidity. When humid air filled the printing plant, paper absorbed moisture and expanded. When dry air returned, paper contracted. This constant expansion and contraction meant that when they printed multiple colors—each color requiring a separate pass through the press—the colors wouldn't align properly. Registration was off. The final product looked blurry and unprofessional. Customers were rejecting jobs. The company was desperate. They'd tried various solutions. Opening windows at night to let in cooler air. Installing fans to circulate air. Nothing worked because none of these approaches controlled humidity, just temperature. The company contacted Buffalo Forge Company, a heating equipment manufacturer, hoping their engineers could design something to solve the problem. Buffalo Forge assigned the project to Willis Carrier, a recent Cornell University engineering graduate who'd been with the company for about a year. He was twenty-five years old with minimal field experience. But he understood thermodynamics and he was willing to think systematically about a problem everyone else was treating as unsolvable. Carrier approached it methodically. The problem wasn't heat alone—it was moisture in the air. If he could remove moisture from the air consistently, paper dimensions would remain stable. But how do you remove moisture from air mechanically? He knew that cold surfaces cause water vapor to condense. That's why cold glass gets foggy. If he could pass humid air over cold coils, moisture would condense on the coils and drip away, leaving drier air. The challenge was controlling this process precisely so the air coming out had consistent temperature and humidity regardless of what was happening outside. Carrier designed a system using cooling coils filled with cold water. Air blown through the plant would pass over these coils. The coils would be cold enough to cause moisture to condense out of the air. By controlling the temperature of the water in the coils, he could control exactly how much moisture was removed. This would give the printing plant air with consistent humidity year-round. The temperature would drop as a side effect of the cooling process, but temperature control wasn't the primary goal. Humidity control was the innovation that mattered. The system was installed in July 1902. It worked. Paper stopped expanding and contracting. Color registration remained consistent. Sackett-Wilhelms could produce high-quality color printing regardless of season or weather. They could take contracts during summer that they'd previously had to refuse. The financial impact was immediate and substantial. But more importantly, Carrier had invented something that didn't previously exist: mechanical humidity control. This was the birth of modern air conditioning. The term "air conditioning" didn't exist yet when Carrier built that first system. He called it "treating air." The phrase "air conditioning" was coined later by textile engineer Stuart Cramer in 1906, and Carrier adopted it. But regardless of terminology, what Carrier had created was revolutionary. Previous cooling systems just lowered temperature. Carrier's system controlled humidity independently of temperature, which was the breakthrough that made countless industrial processes possible. The applications extended far beyond printing. Textile mills needed consistent humidity for thread strength. Pharmaceutical companies needed controlled environments for manufacturing. Food processing required specific temperature and humidity conditions. Hospitals wanted clean, cool air for patients and operating rooms. Carrier's invention made all of this possible. He spent the next decade refining the technology, designing systems for various industries, and figuring out how to scale the equipment for different applications. In 1915, Carrier founded Carrier Engineering Corporation with six other engineers. The company focused on designing and installing air conditioning systems for industrial clients. Movie theaters became major customers in the 1920s—air conditioning made summer movie-going pleasant, which dramatically increased summer ticket sales. Department stores installed air conditioning and advertised it to attract customers who wanted to escape summer heat. The 1925 installation at the Rivoli Theater in New York City's Times Square was a turning point. Thousands of people attended specifically to experience air-conditioned comfort. Carrier continued innovating. In 1922, he developed the centrifugal chiller, which was safer and more efficient than previous systems using ammonia. This made air conditioning more practical for larger buildings. By the 1930s and 1940s, air conditioning was becoming common in public spaces. Office buildings. Hospitals. Government buildings. The technology that started as a solution to a printing problem had become an infrastructure technology reshaping American life. Post-World War II, residential air conditioning became feasible and gradually affordable for middle-class families. This fundamentally changed American geography. Cities in the South and Southwest that had been limited by brutal summer heat became viable places to live year-round. The Sunbelt population boom from the 1950s onward was directly enabled by air conditioning. Phoenix, Las Vegas, Houston, Miami—these cities' explosive growth would have been impossible without the technology Carrier invented to solve a Brooklyn printing company's humidity problem. Willis Carrier died in 1950 at age seventy-three. By then, air conditioning was transforming global architecture, economics, and demographics. Buildings could be designed differently when internal climate was mechanically controlled. Industries could locate anywhere, not just in climate-friendly regions. Global supply chains became possible because temperature-sensitive products could be manufactured, stored, and transported under controlled conditions. The invention that started as a humidity control system for paper had become fundamental infrastructure for modern civilization. The story of Willis Carrier's invention illustrates how solutions to specific industrial problems can create technologies with applications nobody initially imagined. Carrier wasn't trying to make people comfortable—he was trying to keep paper from expanding. But the humidity control system he designed to solve that narrow problem ended up changing where people lived, how buildings were designed, what industries were possible, and how global commerce functioned. The printing plant in Brooklyn just wanted consistent color registration. What they got was the first step toward a technology that would reshape human civilization's relationship with climate. |
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| Facebook Reel |
The implication on this webpage is that this was the device that Carrier designed for humidity control.
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| WillisCarrier "Wilhelms plant late in the summer of 1902 along with fans, ducts, heaters, perforated steam pipes for humidification, and temperature controls. "Cooling water was drawn from an artesian well that first summer and supplemented by an ammonia compressor in the spring of 1903 to meet the demands of the first full summer of operation. "This system of chilled coils was designed to maintain a constant humidity of 55 percent year-round and have the equivalent cooling effect of melting 108,000 pounds of ice per day." |
Some sample of the printing technology.
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| Art Institute Chicago, 1918 |






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