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Boekel Medium Digital Incubators (2.5 cu ft)

Boekel Medium Digital Incubators (2.5 cu ft)

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$2,247.30

Quick Overview

138325 & 138235-2
The medium forced convection digital incubator is excellent for a wide range of medical, research, and industrial applications such as E. coli testing and sample warming. Unit is supplied with two shelves and a timer. Incubator has an internal power outlet and feature a solid door or see-through door.

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$2,247.30

Details

Boekel Scientific’s line of Digital Incubators feature see-thru polycarbonate doors or solid doors. Available in either 115 or 230 volt options, the incubators are manufactured in the United States from 22 Ga steel and the exterior is powder coated for both scratch and stain resistance. The interior is easy-to-clean aluminum. The new system allows for digital setting and control of incubation temperature. An over-range safety thermostat with a red warning indicator light is standard on all units. The temperature range from ambient +10 to 90°C. Boekel Digital Incubators contain a blower fan for rapid heat-up and better uniformity of temperature. The units utilize a PID controller and a separate power switch. All units include a pocket size digital laboratory timer.

All 115 volt units meet UL and CSA requirements and all 230 volt units are CE marked. Boekel Digital Incubators are ideal for incubating and culturing of organisms, warming medias, and maintaining sample temperatures.

Features

  • Forced convection heating
  • See through or solid doors available
  • Digital timer and two shelves included
  • Internal power outlet

Applications

  • Pharmacy use
  • Warm packs for phlebotomy
  • Drinking water testing
  • Water quality testing
  • Incubating assays
  • Throat cultures
  • Incubating E. coli
  • Broth incubation
  • Incubating petrifilm
  • Heating histology slides
  • Food sample testing
  • Incubating petri dishes

Citations

Jensen, PH;Karlsson, NG;Kolarich, D;Packer, NH;. "Structural analysis of N- and O-glycans released from glycoproteins." Nat Protoc. 7 (2012): 1299-310. Web. <https://www.researchgate.net/profile/Daniel_Kolarich/publication/225283393_Structural_analysis_of_N-_and_O-glycans_released_from_glycoproteins/links/09e4150add36508506000000.pdf>

Kolarich, D;Jensen, PH;Altmann, F;Packer, NH;. "Determination of site-specific glycan heterogeneity on glycoproteins." Nat Protoc. 7 (2012): 1285-98. Web. <https://www.researchgate.net/profile/Daniel_Kolarich/publication/225284042_Determination_of_site-specific_glycan_heterogeneity_on_glycoproteins/links/09e4150add3371e684000000.pdf>

McCloskey, BD;Park, HB;Ju, H;Rowe, BW;Miller, DJ;Chun, BJ;Kin, K;Freeman, BD;. "Influence of polydopamine deposition conditions on pure water flux and foulant adhesion resistance of reverse osmosis, ultrafiltration, and microfiltration membranes." Polymer. 51 (2010): 3472?3485. Web. <https://www.researchgate.net/profile/Hao_Ju/publication/229004104_Influence_of_Polydopamine_Deposition_Conditions_on_Pure_Water_Flux_and_Foulant_Adhesion_Resistance_of_Reverse_Osmosis_Ultrafiltration_and_Microfiltration_Membranes/links/00b49519f7228acdf1000000.pdf>

Bao, F;Wells, JD;. "Population genetic structure of an invasive forensically important insect." Electrophoresis. 35 (2014): 3193-200. Web. <https://www.researchgate.net/profile/Jeffrey_Wells2/publication/263165984_Population_genetic_structure_of_an_invasive_forensically_important_insect/links/54ff13a30cf2741b69f23d3b.pdf>

Patrick, M;Berendes, D;Murphy, J;Bertrand, F;Husain, F;Handzel, T;. "Access to safe water in rural Artibonite, Haiti 16 months after the onset of the cholera epidemic." Am. J. Trop. Med. Hyg.. 89 (2013): 647-53. Web. <http://www.ajtmh.org/content/89/4/647.full>

Grützner, N;Heilmann, RM;Suchodolski, JS;Steiner, JM;Holzenburg, A;. "Cold-microwave enhanced enzyme-linked immunosorbent assays--a path to high-throughput clinical diagnostics." Anal. Biochem.. 457 (2014): 65-73. Web. <https://www.researchgate.net/profile/Romy_Heilmann/publication/279727825_Cold_Microwave-Enabled_Protein_Detection_and_Quantification/links/559d36de08aec72001824536.pdf>

Sawyere, DM;Lanz, OI;Dahlgren, LA;Barry, SL;Nichols, AC;Werre, SR;. "Cytokine and Growth Factor Concentrations in Canine Autologous Conditioned Serum." Vet Surg. 45 (2016): 582-6. Web. <https://vtechworks.lib.vt.edu/bitstream/handle/10919/71293/Sawyere_DM_T_2016.pdf?sequence=2&isAllowed=y>

McCloskey, BD;. "Novel surface modifications and materials for fouling resistant water purification membranes." Thesis. (2009): . Web. <https://repositories.lib.utexas.edu/bitstream/handle/2152/7521/mccloskeyb71979.pdf?sequence=2&origin=publication_detail>

Alfonso, E;Rojas, R;Herrera, JG;Ortega, ME;Lemus, C;Cortez, C;Ruiz, J;Pinto, R;Gómez, H;. "Polymorphism of the prolactin gene (PRL) and its relationship with milk production in American Swiss cattle." African Journal of Biotechnology. 11 (2012): 7338-7343. Web. <http://www.ajol.info/index.php/ajb/article/viewFile/102338/92366>

de Planell-Saguer, M;Rodicio, MC;Mourelatos, Z;. "Rapid in situ codetection of noncoding RNAs and proteins in cells and formalin-fixed paraffin-embedded tissue sections without protease treatment."Nat Protoc. 5 (2010): 1061-73. Web. <http://www.nature.com/nprot/journal/v5/n6/full/nprot.2010.62.html>

McCloskey, BD;Park, HB;Ju, H;Rowe, BW;Miller, DJ;Chun, BJ;Kin, K;Freeman, BD;. "Influence of polydopamine deposition conditions on pure water flux and foulant adhesion resistance of reverse osmosis, ultrafiltration, and microfiltration membranes." Polymer. 51 (2010): 3472?3485. Web. <https://www.researchgate.net/profile/Hao_Ju/publication/229004104_Influence_of_Polydopamine_Deposition_Conditions_on_Pure_Water_Flux_and_Foulant_Adhesion_Resistance_of_Reverse_Osmosis_Ultrafiltration_and_Microfiltration_Membranes/links/00b49519f7228acdf1000000.pdf>

Patrick, M;Berendes, D;Murphy, J;Bertrand, F;Husain, F;Handzel, T;. "Access to safe water in rural Artibonite, Haiti 16 months after the onset of the cholera epidemic." Am. J. Trop. Med. Hyg.. 89 (2013): 647-53. Web. <http://www.ajtmh.org/content/89/4/647.full>

Specs

  CCC 0.5d CCC 1.4d CCC 2.5d
Chamber Volume 0.5 cu. ft. 1.4 cu. ft. 2.5 cu. ft.
Chamber Dimen. (in.) 9-1/2 x 9-1/2 x 9-1/2 13-1/2 x 13-1/2 x 13-1/2 17 x 17 x 15
W x D x H (cm) 24.1 x 24.1 x 24.1 34.3 x 34.3 x 34.3 43.2 x 43.2 x 38.1
Temperature Range Ambient +10°C
to 90°C
Ambient +10°C
to 90°C
Ambient +10°C
to 90°C
Stability @ 37°C ±0.5°C ±0.5°C ±0.5°C
Uniformity @ 37°C ±0.7°C ±0.7°C ±0.7°C
Shelves Included 1 2 2
Max. No. Shelves* 3 4 5
Shelf Area 0.63 ft.2 1.26 ft.2 2.0 ft.2
Dimensions (in.) 11-5/8 x 15-1/2 x 15-1/2 15 1/8 x 19 x 19 1/2 19 1/8 x 23 x 21
W x D x H (cm) 29.5 x 39.4 x 39.4 38.4 x 48.3 x 49.5 48.6 x 58.4 x 53.3
Shipping Weight 24 lbs./10.9 kg 36 lbs./16.3 kg 47.5 lbs./21.5 kg

Ordering Information

Catalog NumberSizeElectricalDoor Style
CCC 0.5d Digital Incubator      
138000 0.5 cu. ft. 115 volt/60 Hz Solid
138000-2 0.5 cu. ft. 230 volt/50-60 Hz* Solid
138025 0.5 cu. ft. 115 volt/60 Hz See-thru
138025-2 0.5 cu. ft. 230 volt/50-60 Hz* See-thru
CCC 1.4d Digital Incubator      
138200 1.4 cu. ft. 115 volt/60 Hz Solid
138200-2 1.4 cu. ft. 230 volt/50-60 Hz* Solid
138225 1.4 cu. ft. 115 volt/60 Hz See-thru
138225-2 1.4 cu. ft. 230 volt/50-60 Hz* See-thru
CCC 2.5d Digital Incubator      
138325 2.5 cu. ft. 115 volt/60 Hz See-thru
138325-2 2.5 cu. ft. 230 volt/50-60 Hz* See-thru
*230V units are supplied with continental European plug.

Attachments

View FileIncubators & Ovens Brochure    Size: (12.44 MB)
View FileAnalog and Digital Incubators Manual    Size: (171.17 KB)