G. W. Macpherson Philips scite author profile

G. W. Macpherson Philips

3Publications

48Citation Statements Received

23Citation Statements Given

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A Comparison of the Lactate Pro, Accusport, Analox GM7 and Kodak Ektachem Lactate Analysers in Normal, Hot and Humid Conditions

McNaughton

Thompson

Philips³

et al. 2002

Int J Sports Med

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This study aimed to compare the performance of a new portable lactate analyser against other standard laboratory methods in three conditions, normal (20 +/- 1.3 degrees C; 40 +/- 5 % RH), hot (40 +/- 2.5 degrees C; 40 +/- 5 % RH), and humid (20 +/- 1.1 degrees C; 82 +/- 6 % RH) conditions. Seven healthy males, ([Mean +/- SE]: age, 26.3 +/- 1.3 yr; height, 177.7 +/- 1.6 cm; weight, 77.4 +/- 0.9 kg, .VO(2)max, 56.1 +/- 1.9 ml x kg x min(-1)) undertook a maximal cycle ergometry test to exhaustion in the three conditions. Blood was taken every 3 min at the end of each stage and was analysed using the Lactate Pro LT-1710, the Accusport, the Analox GM7 and the Kodak Ektachem systems. The MANOVA (Analyser Type x Condition x Workload) indicated no interaction effect (F(42,660), = 0.45, p > 0.99, Power = 0.53). The data across all workloads indicated that the machines measured significantly differently to each other (F(4,743) = 14.652, p < 0.0001, Power = 1.00). The data were moderately to highly correlated. We conclude that the Lactate Pro is a simple and effective measurement device for taking blood lactate in a field or laboratory setting. However, we would caution against using this machine to compare data from other machines.

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The recovery of essence from Florida orange juices

Morgan¹,

Veldhuis²,

Eskew³

et al. 1954

Vacuum

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Experimental Unit for Recovery of Volatile Flavors

Philips¹,

Eskew²,

Claffey³

et al. 1951

Ind. Eng. Chem.

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Eng:nTringProcess development fluctuations in the frequency range under consideration appears to be valid. It TTas noted above that the difference In amplitude between the pressure fluctuations associated with the length of duct for cold and hot flow could not be immediately accounted for. However, it is apparent that the coupling between the fuel injector and the burner might well act as an amplifier so that the initial amplitude of the duct tone could be increased by interaction with the fuel injector, thus providing larger ainplitudes under burning conditions. I n general, the amplitude of the pressure fluctuations in the range 100 to 120 cycles per second was somewhat larger Ivith injector I11 than with injectoi I1 (Figure 8). It is also interesting to consider the possibility of using a ducted burner of the type herein discussed as an audio amplifier by means of modulating the fuel flow. If the frequency response of the burning process to changes in fuel flow is sufficiently high, it would seem that amplification factors of considerable magnitude might be obtainable over n useful range.ACKNOWLEDGMENT iLIany members of the staff of Experiment Incorporated have contributed to this study. To all of these the authors extend their thanks. I n particular, however, they are indebted to James W.

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