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Quantifying Microorganisms and Their Activity CE 421/521 Environmental Biotechnology Lecture for September 19, 2006 Vaccari et al., Chapter 10.

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Presentation on theme: "Quantifying Microorganisms and Their Activity CE 421/521 Environmental Biotechnology Lecture for September 19, 2006 Vaccari et al., Chapter 10."— Presentation transcript:

1 Quantifying Microorganisms and Their Activity CE 421/521 Environmental Biotechnology Lecture for September 19, 2006 Vaccari et al., Chapter 10

2 Two Events Microbial Growth (dX/dt) Substrate Disappearance (dS/dt) During balanced growth can use a surrogate measure of growth –Oxygen consumption –Carbon dioxide production –Methane production (anaerobic systems)

3 Growth vs Substrate Disappearance

4 Batch Growth Curve

5 Exponential Growth Doubling (generation) time

6 CSTR or Chemostat V,X,S Q, X i, S i Q, X e, S e General mass balance; in – out – generation = accumulation air

7 CSTR with settling V,X,S Q, X i, S i Q+Q r, X, S Q-Q w, X e, S Q r, X r, S Return activated sludge, RAS http://www.water-technology.net /projects/chicago/images/Chicago01.jpg Waste activated sludge, WAS air

8 CSTR mass balance equations

9 Biogeochemcial Cycles (C, N, P, & S) composition of b_______ cell (molar formula: C 5 H 7 O 2 N with P 1/5 of the N requirement) limiting nutrients are _____ and _____

10

11 Nitrogen Atmosphere is _____% nitrogen, yet nitrogen is considered a l__________ n__________ required in p____________

12 Organic nitrogen N2N2 NO 3 - NH 4 + NO 2 - Nitrogen Cycle

13 Fixation 2x10 8 metric tons/y compared to 2.5x10 10 metric tons C/y cyanobacteria & few others –non-symbiotic – Clostridia –symbiotic – Rhizobium.nitrogenase – requires Mg 2+ & ATP (15 to 20 ATP/N 2 )

14 Assimilation NH 3 (NH 4 + ) preferred, will use NO 3 - but has to be reduced to NH 4 + C/N ratio is approximately –10:1 for aerobes –150:1 for anaerobes –50:1 for anaerobes in highly loaded (high rate) system cell composition is characterized by the empirical formula: ______________ with the P requirement as 1/5 the N requirement (alternatively C60H87O23N12P) in general cell composition is »50% C »20% O »10-15% N »8-10% H »1-3% P »0.5-1.5

15 Ammonification Breakdown of organic N to NH 4 + Examples: –Urea –proteins

16 Nitrification Two step process: requires 4.57 mg O 2 /mg NH 4 + - N converted to NO 3 - – N

17 Nitrification Kinetics where μ max = maximum specific growth rate, h-1 K S = half saturation coefficient for ammonia, mg/L as NH 4 -N K O = half saturation coefficient, mg/L as O2 Yield = mg biomass formed/mg ammonia utilized

18 Nitrification Kinetics

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