Draft:Cold Jet

  • Comment: The "Technology" section isn't about the company at all, and the remaining sections are sourced almost entirely to primary sources. These are fine for verification of simple fact, but you can't have an article based on them. We need far better sourcing (significant coverage, independent of the company, in reliable sources) to have an article and this isn't there yet. WeirdNAnnoyed (talk) 22:37, 30 March 2026 (UTC)
  • Comment: I'm not going to do a full review of all 49 references, but patents and interviews aren't independent, Broadway world isn't reliable, and neither are ScienceDirect topic pages. Most of the scientific articles don't contain in-depth coverage of Cold Jet — reference 4 comes the closest, but even that isn't really about Cold Jet, it just compares it to a bunch of other products. Reference 5 looks like a press release to me. Ref 13 is about the Particle Control System, not about Cold Jet. This doesn't convince me that an in-depth review of all 49 would show notability. Your best bet is to select the three sources that you think best meet the requirements at WP:42, and that way it'll be easier for a reviewer to tell you whether Cold Jet is notable or not. JustARandomSquid (talk) 10:08, 14 March 2026 (UTC)
  • Comment: In accordance with the Wikimedia Foundation's Terms of Use, I disclose that I have been paid by my employer for my contributions to this article. Matt220945 (talk) 12:02, 13 March 2026 (UTC)


Cold Jet
Company type
Private
IndustryIndustrial machinery
Founded1988; 38 years ago (1988)
HeadquartersLoveland, Ohio, United States
Key people
Gene Cooke (CEO)
ProductsDry ice blasting equipment, dry ice production equipment
Websitecoldjet.com

Cold Jet is a global manufacturer of dry ice blasting and dry ice production equipment, headquartered in Loveland, Ohio. The company holds the original patents for single-hose dry ice blasting technology[1][2] and launched the first commercially available single-hose dry ice blasting machine in 1988.[3][4]

Cold Jet operates manufacturing facilities in the United States, Denmark, and Poland. The company has been featured on the History Channel series Modern Marvels[5] and the National Geographic series Showdown of the Unbeatables.[6]

History

Cold Jet was founded in 1988 in Loveland, Ohio. The company introduced a single-hose dry ice blasting system, which uses a single hose to deliver compressed air and dry ice particles to a surface. The original patents for this technology were awarded to David Moore of CRYOBLAST Inc., a predecessor company to Cold Jet, in 1986 (U.S. Patent 4,617,064) and 1988 (U.S. Patent 4,744,181).[1][2] The single-hose design was central to the technology's commercial viability, allowing dry ice particles to achieve higher velocities throughout the entire hose length compared to two-hose systems, thereby increasing the kinetic energy of particles at impact.[7][3]

Dry ice blasting technology traces its origins to the 1940s, when the United States Navy began experimenting with dry ice blasting for degreasing applications in 1945.[4] In the 1970s, Lockheed Corporation further developed dry ice blasting as a method for removing paint from aircraft.[8]

Technology innovations

Cold Jet has introduced several patented technologies and innovations in dry ice blasting.

In 1997, Cold Jet patented the Multiple Expansion Reflection Nozzle (MERN) technology.[9] This nozzle design uses a single contoured wall opposite a flat reflection wall to direct supersonic airflow and dry ice particles, departing from symmetrical nozzle configurations. The design is intended to minimize particle breakage and sublimation before impact.[10]

In 2012, Cold Jet patented variable fragmenting technology[11] to control dry ice particle size during blasting. The system uses adjustable pins positioned downstream of the nozzle throat that can be rotated to fragment pellets into variable sizes, allowing operators to select whole pellets, mixed sizes, or fine fragments to match application requirements.

In 2019, Cold Jet patented and introduced the Particle Control System,[12] which enables operators to select specific particle sizes. The technology cuts standard 3 mm dry ice pellets into particles ranging from 0.3 mm to 3 mm, allowing operators to match particle size to specific surface or substrate requirements.[13]

Acquisitions and investments

In 2003, Cold Jet acquired Alpheus, a competing dry ice blasting machine manufacturer.[14] In 2016, the company acquired IceTech, a Danish manufacturer of dry ice blasting and dry ice production machines with operations in Denmark and Poland, which Cold Jet continues to operate.[15] In 2022, Cold Jet acquired the dry ice production and CO2 recovery product lines from Aquila Triventek, adding small-volume pelletizers and CO2 recovery units to its portfolio.[16] Also in June 2022, Cold Jet received a minority investment from Seidler Equity Partners.[17][18]

COVID-19 vaccine distribution

During the COVID-19 pandemic, Cold Jet supplied dry ice production equipment to Pfizer and other pharmaceutical and logistics companies to support global vaccine distribution.[19][20][21][22] The Pfizer–BioNTech COVID-19 vaccine required storage at approximately −70 °C, necessitating dry ice for transport and temporary storage.[23][24][25][26] Cold Jet's dry ice production machines were deployed at pharmaceutical packaging lines and global logistics distribution centers throughout the vaccine cold chain.[27]

Technology

Dry ice blasting

The dry ice blasting process, also known as dry ice cleaning, uses recycled solid carbon dioxide (CO2) pellets or microparticles that are propelled at supersonic speeds toward a surface.[28] Upon impact, the dry ice sublimates, changing directly from a solid to a gas, which lifts contaminants from the underlying surface without leaving residue or secondary waste.[29]

Dry ice blasters are used for industrial cleaning, surface preparation, and parts finishing to remove burrs and flash. The technology is used across multiple industries,[30] including aerospace,[31] automotive detailing and restoration,[32] food and beverage,[33][34][35] plastics,[36][37] restoration and remediation,[38] and semiconductor manufacturing.

Dry ice cleaning is also used in historical restoration.[39] Cold Jet dry ice blasting equipment was used by conservators at the Mariners' Museum in Newport News, Virginia, to remove marine corrosion from the recovered turret of the USS Monitor.[40][41]

Dry ice production

The dry ice production process uses pressurized liquid carbon dioxide (LCO2), which is expanded in a chamber to form carbon dioxide snow. This snow is then compacted under high pressure by a dry ice production machine to form high-density dry ice pellets, nuggets, or slices.[42]

Dry ice production equipment enables on-site production of dry ice, which can be used for dry ice blasting, cold chain management, and temperature maintenance in food processing applications. Machine types include pelletizers, which utilize liquid CO2 to produce high-density dry ice pellets, as well as reformers and slicers that convert dry ice pellets into blocks or slices.

Dry ice production systems are used globally by food processing,[43] food home delivery,[44] pharmaceutical,[45] industrial gas,[46] and logistics companies[47] for cooling during transport and processing.

References

  1. ^ a b US 4617064, Moore, D. E., "Cleaning method and apparatus", issued 1986 
  2. ^ a b US 4744181, Moore, D. E. & Crane, N. D., "Particle-blast cleaning apparatus and method", issued 1988 
  3. ^ a b Dzido, A.; Krawczyk, P. (2023). "Abrasive Technologies with Dry Ice as a Blasting Medium—Review". Energies. 16 (3): 1014. doi:10.3390/en16031014.
  4. ^ a b Vega-Bosch, A.; Santamarina-Campos, V.; Osete-Cortina, L.; Sánchez-Pons, M.; Bosch-Roig, P. (2024). "Efficient and Sustainable Cleaning: A Comparative Analysis of Cryogenic Technology". Applied Sciences. 14 (15): 6591.
  5. ^ "Cold Jet to be featured on History Channel's Modern Marvels". Restoration & Remediation Magazine. 2008-09-10. Retrieved 2025-11-25.
  6. ^ "Nat Geo Premieres New Series SHOWDOWN OF THE UNBEATABLES Tonight". BroadwayWorld. 2014-04-04. Retrieved 2025-11-25.
  7. ^ "Cold Jet, LLC: The leader in dry ice blasting". Business View Magazine. 2017-07-18. Retrieved 2025-11-25.
  8. ^ US 4038786, Fong, C. C., "Sandblasting with pellets of material capable of sublimation", issued 1977 
  9. ^ US 5660580, Moore, D. E., "Nozzle for cryogenic particle blast system", issued 1997 
  10. ^ Dzido, A.; Krawczyk, P.; Kurkus-Gruszecka, M. (2019). "Numerical Analysis of Dry Ice Blasting Convergent-Divergent Supersonic Nozzle". Energies. 12 (24): 4787.
  11. ^ US 8187057, Broecker, R., "Blast nozzle with blast media fragmenter", issued 2012 
  12. ^ US 20190321942, Mallaley, D. & Broecker, R. J., "Particle blast apparatus", issued 2019 
  13. ^ "Cleaning Dry Ice Blaster Offers Variable Particle Size Control". Plastics Technology. Retrieved 2025-11-25.
  14. ^ "CAE Alpheus". PitchBook. Retrieved 2025-11-24.
  15. ^ "Cold Jet closes acquisition of IceTech". Rubber News. 2016-01-15. Retrieved 2025-11-25.
  16. ^ "Cold Jet makes Aquila Triventek acquisition, strengthens dry ice solutions". gasworld. 2022. Retrieved 2025-11-25.
  17. ^ "Cold Jet enters investment partnership with two firms". Plastics News. 2022-06-14. Retrieved 2025-11-25.
  18. ^ "June 14, 2022: Audax Invests in Wealth Management North of the Border". Middle Market Growth. 2022-06-14. Retrieved 2025-11-25.
  19. ^ "Loveland-based Cold Jet assists with vaccine rollout to put pandemic on ice". WCPO. 2021. Retrieved 2025-11-25.
  20. ^ "Putting the vaccine on ice". gasworld. 2021. Retrieved 2025-11-25.
  21. ^ "Cold Jet Provides Dry Ice That is Essential for COVID-19 Vaccine Distribution". MoldMaking Technology. 2020. Retrieved 2025-11-25.
  22. ^ "Cold Jet helping COVID-19 vaccine distribution". Plastics News. 2020. Retrieved 2025-11-25.
  23. ^ "Covid-19 Vaccines Start a Frenzy for Dry Ice: 'It's Like a Herd of Mustangs'". The Wall Street Journal. 2020. Retrieved 2025-11-25.
  24. ^ Leonard, M. (2020-11-25). "UPS amps up dry ice production to ready coronavirus vaccine distribution". Supply Chain Dive. Retrieved 2025-11-25.
  25. ^ "Pfizer readies herculean effort to distribute coronavirus vaccine". NBC News. 2020-11-09. Retrieved 2025-11-25.
  26. ^ "The icy challenge ahead for COVID-19 vaccine distributors". CBS News. 2020-11-20. Retrieved 2025-11-25.
  27. ^ "Industry meets surge in demand for dry ice". gasworld. 2021. Retrieved 2025-11-25.
  28. ^ Onofre, A.; Godina, R.; Carvalho, H.; Catarino, I. (2020). "Eco-innovation in the cleaning process: An application of dry ice blasting in automotive painting industry". Journal of Cleaner Production. 272: 122987. doi:10.1016/j.jclepro.2020.122987.{{cite journal}}: CS1 maint: article number as page number (link)
  29. ^ Kohli, R. (2019). "Applications of Solid Carbon Dioxide (Dry Ice) Pellet Blasting for Removal of Surface Contaminants". Developments in Surface Contamination and Cleaning: Applications of Cleaning Techniques. Elsevier. pp. 117–169.
  30. ^ Máša, V.; Horňák, D.; Petrilák, D. (2021). "Industrial use of dry ice blasting in surface cleaning". Journal of Cleaner Production. 329: 129630.
  31. ^ Orndorff, B. (2006-06-20). "A cold day in Hill: ice blaster saves money, manpower". Air Force Materiel Command. Retrieved 2025-11-25.
  32. ^ Fitzgerald, C. (2021-04-06). "Dry ice cleaning: The coolest way to remove rust, grime, and undercoating". Hagerty Media. Retrieved 2025-11-25.
  33. ^ "Cold Jet Novel Technique for Cleaning and Decontaminating". United States Department of Agriculture, National Agricultural Library. Retrieved 2025-11-25.
  34. ^ Witte, A. K.; Bobal, M.; David, R.; Blättler, B.; Schoder, D.; Rossmanith, P. (2017). "Investigation of the potential of dry ice blasting for cleaning and disinfection in the food production environment". LWT – Food Science and Technology. 75: 735–741. doi:10.1016/j.lwt.2016.10.024.
  35. ^ "Dry ice cleaning: The clean-in-place solution". The National Provisioner. 2017. Retrieved 2025-11-25.
  36. ^ "Dry Ice Cleaning Pays Off Big For High-Tech Molder". Plastics Technology. Retrieved 2025-11-24.
  37. ^ Johnson, S. (2013-02-05). "Mold Cleaning Technologies Save Time, Money and Aggravation". Plastics Business. Retrieved 2025-11-25.
  38. ^ Gilman, G. (2006-04-25). "Dry-Ice Blasting: The Icing on the Restoration Cake". PropertyCasualty360. Retrieved 2025-11-25.
  39. ^ Cutulle, C.; Kim, S. (2015). "Dry ice blasting in the conservation of metals: A technical assessment as a conservation technique and practical application in the removal of surface coatings". Objects Specialty Group Postprints, Volume Twenty-Two (PDF). The American Institute for Conservation of Historic & Artistic Works. pp. 77–100.
  40. ^ Erickson, M. S. J. (2015-12-02). "Monitor Turret Conservation". Daily Press. Retrieved 2025-11-25.
  41. ^ King, L. (2023-06-08). "Dry ice blasting in the tank farm!". The Mariners' Museum and Park. Retrieved 2025-11-25.
  42. ^ Assaf, J. C.; Issa, C.; Flouty, T.; El Marji, L.; Nakad, M. (2025). "A Comparative Review on Dry Ice Production Methods: Challenges, Sustainability and Future Directions". Processes. 13 (9): 2848. doi:10.3390/pr13092848.
  43. ^ "In Focus: Dry Ice in Food and Beverages". gasworld. Retrieved 2025-11-24.
  44. ^ Kamps, H. J. (2022-11-04). "Why ButcherBox built two dry ice factories during the pandemic". TechCrunch. Retrieved 2025-11-25.
  45. ^ "Cold Jet technology enabling safe transportation of medical equipment amid coronavirus". gasworld. 2020. Retrieved 2025-11-25.
  46. ^ "Welding supply company finds success in making, selling dry ice". Indianapolis Business Journal. 2017-10-12. Retrieved 2025-11-25.
  47. ^ Berman, J. (2020-12-09). "Dry ice is a critical supply chain component of COVID-19 vaccine distribution efforts". Logistics Management. Retrieved 2025-11-25.

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