-
227497-14
Thomas Scientific
BOD Bottle, 300 ml, Robotic Stopper, No. 313-336
Price: $660.94List Price: $734.38BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227497-15
Thomas Scientific
BOD Bottle, 300 ml, Robotic Stopper, No. 337-360
Price: $658.22List Price: $731.35BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227497-16
Thomas Scientific
BOD Bottle, 300 ml, Robotic Stopper, No. 361-384
Price: $657.70List Price: $730.78BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227497-17
Thomas Scientific
BOD Bottle, 300 ml, Robotic Stopper, No. 385-408
Price: $657.26List Price: $730.29BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227497-03BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical
-
227497-04BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical
-
227497-05
Thomas Scientific
BOD Bottle, 300 ml, Robotic Stopper, No. 97-120
Price: $658.66List Price: $731.85BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227497-00
Thomas Scientific
BOD Bottle, 300 ml, Robotic Stopper, Unnumbered
Price: $623.06List Price: $692.29BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227494-99G
Thomas Scientific
BOD Bottle, 60 ml, Penny-Head Stopper, Custom
Price: $2,073.44List Price: $2,303.82BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227494-00G
Thomas Scientific
BOD Bottle, 60 ml, Penny-Head Stopper, Unnumbered
Price: $1,525.04List Price: $1,694.49BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227494-01
Thomas Scientific
BOD Bottle, 60 ml, Robotic Stopper, No. 1-36
Price: $1,723.90List Price: $1,915.45BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical -
227494-02
Thomas Scientific
BOD Bottle, 60 ml, Robotic Stopper, No. 37-72
Price: $1,727.66List Price: $1,919.62BOD bottles are suitable for incubating diluted samples of sewage, sewage effluents, polluted waters, and industrial wastes to determine the amount of oxygen required during the stabilization of the decomposable organic matter by aerobic biochemical