Removal of water-borne microorganisms in floating media filter-microfiltration system for water treatment

Floating plastic media pre-filter (PP) in combination with microfiltration membrane (MF) was applied to the removal of water-borne microorganism from surface water. The system was operated with and without coagulant addition. Jar-test results suggested that alum and polyaluminum chloride could effectively remove turbidity, fecal coliforms (FC) and algae at their optimum doses. Nevertheless, none of those coagulants could accomplish high coliphage (CP) removal. Microorganism removal in the system was increasing along with time in the PP unit operated at 5-m³/m²/h filtration rate but opposite trend was observed at higher filtration rates (10-15 m³/m²/h). Different coagulant types and filtration rates employed in the PP unit also affected microorganism removal in MF unit. The operation of PP unit at a filtration rate of 15 m³/m²/h and MF unit at a filtration rate of 0.6 m³/m²/d could achieve satisfactory turbidity and overall microorganism removal.     

Effect of salinity on filtration rates of mussels Mytilus edulis with special emphasis on dwarfed mussels from the low-saline Central Baltic Sea

The effect of salinity on the filtration rate of blue mussels, Mytilus edulis, from the brackish Great Belt (Denmark) and the low-saline Central Baltic Sea, respectively, was studied. First, we measured the effect of long-term (weeks) constant ambient salinities between 5 and 30 psu on the filtration rate of M. edulis collected in the Great Belt where the mean salinity is 17 psu. At salinities between 10 and 30 psu, the filtration rates did not vary much, but at 5 psu the filtration rates were significantly lower. Next, we studied dwarfed M. edulis (<25 mm shell length) from Central Baltic Sea (Askö, Sweden) where the mean salinity is 6.5 psu. The maximum filtration rate (F, ml min^?1 ind.^?1) as a function of shell length (L, mm) and dry weight of soft parts (W, mg) were found to be: F = 0.003L ^2.71 and F = 0.478W ^0.92, respectively, and these results indicate that the filtration rates of dwarfed Baltic Sea mussels are comparable to filtration rates of Great Belt mussels of similar size exposed to salinities >10 psu. When Baltic Sea mussels acclimatized to 20 psu in the laboratory were exposed to 6.5 psu this caused a drastic reduction in the filtration rate, but after about 2 days the previous high filtration rate was regained at 6.5 psu, and further, a similar pattern was observed when the 6.5 psu exposed mussels were finally re-exposed to 20 psu. The observed lack of Great Belt mussels to completely adjust to 5 psu, in contrast to the ease of Baltic Sea mussels to adjust back and forth between 6.5 and 20 psu, is remarkable and may perhaps be explained by different genotypes of Great Belt and Baltic Sea mussels.     

Filtration and ingestion rates of Salpa fusiformis Cuvier (Tunicata : Thaliacea): Effects of size,individual weight and algal concentration

Filtration and ingestion rates of Salpa fusiformis Cuvier were determined while fed Phaeodactylumtricomutum Bohlin at concentrations of 2?64 × 10³ cells·ml^?1. Filtration and ingestion rates increase exponentially with increasing length and body protein. The relations between protein content and body length, and between filtration rate and weight are similar for blastozooids and oozooids. A capture efficiency of the order of 6–32% is calculated: Salpa fusiformis seems to have a low retention efficiency, but its very high filtration rate gives it pride of place amongst filter-feeders. Specific filtration rates are independent of weight; specific ingestion rates are independent of weight for blastozooids, but for oozooids they seem to diminish with increasing weight. The mean daily ration (μg C ingested · μg body C^?1) is 107% for a blastozooid and 117% for an oozooid. Specific filtration rates decrease exponentially as particle concentration rises, as for many other filter-feeders, and the specific ingestion rate follows an Ivlev relation.     

Renal response to saline infusion in chicks of Leach's storm petrel (Oceanodroma leucorhoa)

The renal response to infusion of three different saline solutions was studied in chicks of Leach's storm petrel (Oceanodroma leucorhoa). Each of the solutions (125 mmol·1^-1 NaCl at 5.3 ml·h^-1, 250 mmol·l^-1 NaCl at 2.6 ml·h^-1, and 550 mmol·l^-1 NaCl at 1.2 ml·h^-1) provided the same delivery of Nacl but in different volumes of water. Birds infused with 125 mmol·l^-1 NaCl had a glomerular filtration rate of 25.7 ml·h^-1, a urine flow rate of 4.4 ml·h^-1, and excreted 71% of the infused Na⁺ load in the urine. With infusion of 250 mmol·l^-1 NaCl, the glomerular filtration rate was unchanged (23.3 ml·h^-1), but urine flow rate was reduced to 0.93 ml·h^-1 and only 35% of the Na⁺ load was excreted in the urine. Infusion of 550 mmol·l^-1 NaCl induced a sharp decrease in glomerular filtration rate (to 3.8 ml·h^-1) and urine flow rate (to 0.08 ml·h^-1), and only 1.4% of the infused Na⁺ was excreted in the urine. The contribution of different nephron populations to filtration was assessed by the pattern of staining of glomeruli by alcian blue infused during the last 30 min of the saline infusion. The numbers of stained glomeruli did not differ between birds infused with 125 and 250 mmol·l^-1 NaCl (59000 and 55000 glomeruli per kidney, respectively), and the patterns of staining were similar for birds in these two groups. Birds infused with 550 mmol·l^-1 NaCl had lighter staining overall and fewer stained glomeruli (37000 per kidney). This absence of staining was predominant in the smaller size classes of glomeruli, suggesting a selective shutdown of smaller (reptilian-type) nephrons during times of osmotic challenge in these birds. This may be part of an overall suite of water-conserving strategies employed by these chicks during their long confinement with irregular feeding in the nesting burrow.Abbreviations ADH antidiuretic hormone - GFR glomerular filtration rate - MT mammalian-type - P plasma inulin concentration - RT reptilian-type - U urine inulin concentration - V urine flow rate     

The absorption efficiency and respiration rate of the Florida Lancelet, Branchiostoma floridae

The present study investigates some aspects of the digestive biology and physiological energetics of the Florida lancelet, Branchiostoma floridae. Florida lancelets are able to remove 47.2–56.9% of the energy from a diet of mixed algae. The respiration rate is 0.100 mL O₂ (STPD) h^− 1 g^− 1 (wet), which estimates a metabolic rate of 0.248 J h^− 1, at an average body mass of 0.125 g (wet). Published values of the chlorophyll a concentration in its natural habitat indicate that a 125 mg lancelet would need to filter 0.018–0.031 L h^− 1 to remove sufficient food to support its resting metabolism. The filtration rate of lancelets has been reported as 0.138 L h^− 1, indicating that the actual filtration rate is 4–7 times greater than the filtration rate needed to meet resting metabolic demands. It appears that lancelets have the potential to be raised in aquaculture, because their absorption efficiency and respiration rate are comparable to suspension-feeding invertebrates that have been successfully aquacultured.     

Improved Filtration Technique for Concentrating and Harvesting Bacteria

An improved technique is described for the filtrative concentration and harvesting of bacterial cultures. A pleated tangential flow filtration unit containing 1,000 cm² of 0.2-μm-pore-size microporous membrane was used to rapidly (30 to 50 min) reduce the volume of 5 liters of bacterial culture of approximately 10⁹ cells per ml to 0.2 to 0.5 liters of concentrated bacterial suspension. The effects of cell concentration, filtration pressure, and tangential flow rate were examined with respect to the rate of concentration and cell viability. Recovery efficiencies were between 60 and 75%, with no apparent impairment of organism viability. Cell concentration exerted the predominant effect on the filtration rate.     

Zebra mussels (Dreissena polymorpha): a new perspective for water quality management

In the evaluation of the role of lake restoration programmesin situ measurements of the filtration rate of the freshwater musselDreissena polymorpha have been performed in Lake Wolderwijd, The Netherlands. The filtration rate mainly depends on the suspended matter content of the water, and shows an inverse exponential relationship with this factor. The filtration activity is temperature indifferent between approx. 5 and 20 °C. At low temperatures the filtration rate drops abruptly, at high temperatures gradual inhibition occurs. The filtration rate shows a sigmoidal relation with the length of the mussel. The largestD. polymorpha have a diminished filtration rate compared to animals of smaller size. This might be a degenerative feature of the oldest mussels. In Lake Wolderwijd a population density of 675 per m² is required to compensate phytoplankton growth by grazing. Manipulation of the size of the population can be executed by adding suitable substrates for the mussel.     

Association between estimated glomerular filtration rate at initiation of dialysis and mortality

Background

Recent studies have reported a trend toward earlier initiation of dialysis (i.e., at higher levels of glomerular filtration rate) and an association between early initiation and increased risk of death. We examined trends in initiation of hemodialysis within Canada and compared the risk of death between patients with early and late initiation of dialysis.

Methods

The analytic cohort consisted of 25 910 patients at least 18 years of age who initiated hemodialysis, as identified from the Canadian Organ Replacement Register (2001–2007). We defined the initiation of dialysis as early if the estimated glomerular filtration rate was greater than 10.5 mL/min per 1.73 m². We fitted time-dependent proportional-hazards Cox models to compare the risk of death between patients with early and late initiation of dialysis.

Results

Between 2001 and 2007, mean estimated glomerular filtration rate at initiation of dialysis increased from 9.3 (standard deviation [SD] 5.2) to 10.2 (SD 7.1) (p < 0.001), and the proportion of early starts rose from 28% (95% confidence interval [CI] 27%–30%) to 36% (95% CI 34%–37%). Mean glomerular filtration rate was 15.5 (SD 7.7) mL/min per 1.73 m² among those with early initiation and 7.1 (SD 2.0) mL/min per 1.73 m² among those with late initiation. The unadjusted hazard ratio (HR) for mortality with early relative to late initiation was 1.48 (95% CI 1.43–1.54). The HR decreased to 1.18 (95% CI 1.13–1.23) after adjustment for demographic characteristics, serum albumin, primary cause of end-stage renal disease, vascular access type, comorbidities, late referral and transplant status. The mortality differential between early and late initiation per 1000 patient-years narrowed after one year of follow-up, but never crossed and began widening again after 24 months of follow-up. The differences were significant at 6, 12, 30 and 36 months.

Interpretation

In Canada, dialysis is being initiated at increasingly higher levels of glomerular filtration rate. A higher glomerular filtration rate at initiation of dialysis is associated with an increased risk of death that is not fully explained by differences in baseline characteristics.Examination of dialysis registry data, both in the United States and Europe, has shown that this procedure is being initiated for patients with increasingly higher levels of estimated glomerular filtration rate.^1–4 Although the indications for dialysis are often not recorded or not accessible for data-gathering, a large international survey of physicians in 2000 revealed that the two leading determinants of early initiation were uremic signs and symptoms (38%) and residual kidney function (32%), with 90% of respondents indicating that initiating dialysis earlier (by 6–12 months) would give some major advantage in terms of outcomes.⁵ The timing of initiation of dialysis is based on clinical judgment and the interpretation of signs, symptoms and laboratory test results, with possibly greater emphasis recently on estimated glomerular filtration rate following the introduction of national guidelines.^6,7 These guidelines were influenced by studies conducted in the 1980s and 1990s, which suggested that late initiation was potentially harmful.^8,9 In 2006, the US National Kidney Foundation suggested that initiation of dialysis be considered before stage 5 chronic kidney disease (estimated glomerular filtration rate < 15 mL/min per 1.73 m²) if symptoms were related to both comorbidities and level of residual kidney function.¹⁰ The guidelines were based on existing observational information and never advocated initiating dialysis at a specific value of estimated glomerular filtration rate. However, studies conducted since 2001 have shown no survival benefit with initiation of hemodialysis at higher values of estimated glomerular filtration rate.^4,11–14Using data from the Canadian Organ Replacement Register, we examined trends in the timing of hemodialysis initiation between 2001 and 2007, characterized patients with early and late initiation of dialysis and compared the risk of death between these groups over time while controlling for baseline imbalances. In this article, we discuss the confounding effects of selection, survivor, misclassification, lead-time and indication bias.     

Long-Term Responses to Loss of Renal Mass: Glomerular Changes: Compensatory Renal Hypertrophy in Dogs: Single Nephron Glomerular Filtration Rate

Kidney weight, length of superficial and juxtamedullary proximal tubules, glomerular diameter, kidney filtration rate and PAH clearance, sodium excretion and intrarenal distribution of filtration (with ¹⁴C-ferrocyanide) were measured in the remaining hypertrophic kidneys of dogs 10 days after unilateral nephrectomy. Whereas kidney weight increased to 75 percent of the original total renal mass, proximal tubule length and mean glomerular diameter remained unchanged. PAH and creatinine clearance, and absolute, but not fractional, sodium excretion, rose significantly. The ratio superficial/juxtamedullary filtration rate remained unchanged, indicating parallel increases of filtration in both cortical regions of hypertrophied kidneys.     

The effects of copper,cadmium and zinc on particle filtration and uptake of glycine in the pacific oyster Crassostrea gigas

1. The filtration rate (volume of water completely cleared of collodial carbon per unit time) by control oysters is 36.60 ml/g hr ± 7.68 (sd).2. Filtration rates decrease with increasing concentrations of Cd²⁺ and Zn²⁺.3. In 8–16 mg/l Cu²⁺, filtration rates are significantly higher than the control, but in Cu²⁺ concentrations above 32 mg/l, filtration rates are lower than controls.4. Influx of ¹⁴C-glycine is characterized by Michaelis-Menten kinetics with J_max and K_t values of 1.85 ± 0.097 μmol/g hr and 33.7 ± 4.6 μM respectively.5. The uptake rate of glycine from 1 μM solution is 37.79 μmol/g hr.6. In order of degree of inhibition of glycine uptake, Cu²⁺ > Cd²⁺ > Zn²⁺.7. In 128 mg/l Cu²⁺, glycine uptake rate is reduced to 3.96 nmol/g hr or 10.5% of control.8. The rate of glycine uptake by filter feeding bivalves is dependent on rate of water pumping rate.9. The volume specific glycine transport (amount of glycine transported/unit volume of seawater completely cleared of colloidal carbon) by control oysters in 1 μM glycine concentrations is 1.03 μmol/l.10. The volume specific glycine transport remains constant in increasing Zn²⁺ concentrations, and declines in increasing Cu²⁺ concentrations, suggesting differential effects of the metals on particle filtration and the epithelial amino acid carriers.11. The apparent volume specific glycine transport increases to 2.14 μmol/l in 128 mg/l Cd²⁺. This volume specific transport greater than the glycine concentration in the medium suggests that there may be uptake of cadmium complexed glycine by the oysters.     

Effects of food and silt on filtration,respiration and condition of the freshwater mussel Hyridella menziesi (Unionacea: Hyriidae): implications for bioaccumulation

The effect of exposure to different concentrations of food and suspended silt on filtration, respiration and condition were studied in the freshwater mussel Hyridella menziesi. Using a milk solids-based food and kaolin to simulate silt, mussels were maintained at different combinations of food and silt concentrations for 3 weeks. Between treatments mean filtration rates ranged from 0.97–1.66 l g^–1 h^–1, and respiration from 0.50–1.35 mg O₂ g^–1 h^–1. Silt (non-volatile suspended solids up to 35 mg l^–1) failed to have a significant effect on filtration rate or condition, but with increasing food levels (volatile suspended solids up to 35 mg l^–1) filtration rate was reduced, and condition was reduced at the lowest food concentration (<5 mg l^–1). Respiration showed a food × silt interaction between treatment blocks. When food was low respiration increased with increasing silt concentrations, and when silt was low (<5 mg l^–1) respiration increased with increasing food concentrations. The observed effects of food and silt on filtration, respiration and condition are discussed in terms of their potential for affecting contaminant bioaccumulation. In low-food situations (i.e., <5 mg l^–1), if mussels are pumping large volumes of water, contaminant uptake rates could be enhanced, whereas abundant food would result in lower pumping rates and lower uptake rates. Changes in metabolism with food concentration have implications for contaminant elimination, and changes in biochemical composition associated with changing condition could affect the tissue distribution and retention of contaminants.     

The effect of catecholamines and prostaglandins upon human and rat erythrocytes

Both human and rat erythrocytes respond to low doses (10⁻¹¹-10⁻⁹ M) of L-isoproterenol and Lepinephrin with an increased degree of hypotonic hemolysis and a decreased rate of filtration through standardized paper filters. The receptors in both cell types have many of the characteristics of β-receptors for catecholamines. However, hormone-receptor interaction in the human cell does not lead to an increase in intracellular cyclic AMP concentration, but in the rat cell, hormone-receptor interaction does lead to a significant increase in cylic AMP content. Thus, catecholamine-β-receptor interaction, at least in the human red cell, leads to a change in red cell properties which are not mediated by adenylate cyclase activation. Likewise, prostaglandin E₂, at 10⁻¹²-10⁻¹⁰ M, causes an increased degree of hypotonic hemolysis and a decreased rate of filtration through standardized paper filters, but it also does not increase the cyclic AMP content of the human erythrocyte but does increase that of the rat erythrocyte. Nevertheless, exogenous cyclic AMP, when added at a concentration of 10⁻⁸ M to washed human erythrocytes, increases the degree of hypotonic hemolysis. Conversely, prostaglandin E₁, at 10⁻¹²-10⁻¹⁰ M, causes a decreased degree of hypotonic hemolysis and an increased rate of filtration through a standard filter. Both prostaglandin E₂ and the catecholamines decrease the size of a rapidly exchangeable calcium pool, and prostaglandin E₁ increases it.     

Osmoregulatory responses of glaucous-winged gulls (Larus glaucescens) to dehydration and hemorrhage

The effects of dehydration and hemorrhage on plasma ionic, osmotic, and antidiuretic hormone (arginine vasotocin) concentrations and of hemorrhage on salt gland secretion and glomerular filtration rate were evaluated in glaucous-winged gulls, Larus glaucescens. Dehydration for 24 h did not affect plasma ionic, osmotic or arginine vasotocin concentrations; 72 h dehydration significantly elevated plasma osmolality, plasma sodium and chloride concentrations, and plasma arginine vasotocin concentration, but did not affect plasma potassium concentration. Constant infusion of 0.8 mol·l^-1 NaCl increased plasma arginine vasotocin concentration and produced salt gland secretion in seven gulls; four secreted well, while three secreted less well. Removal of 20% blood volume during saline infusion immediately reduced (P<0.001) salt gland secretion rate in all gulls. After bleeding, good secretors maintained glomerular filtration rate and urine flow rate; the poorer secretors increased glomerular filtration rate and became diuretic. Blood replacement returned salt gland secretion rate to the prebleeding level (P<0.05) without affecting salt gland secretions sodium concentration in gulls which secreted well, but did not restimulate salt gland secretion in gulls which secreted poorly. Reinfusion of blood had no effect on glomerular filtration rate. Bleeding and blood replacement did not affect plasma arginine vasotocin concentration.Abbreviations AVT arginine vasotocin - ECF extracellular fluid - ECFV extracellular fluid volume - EDTA ethylenediaminetetra-acetate - EWL evaporative water loss - GFR glomerular filtration rate - Hct hematocrit - LB large blood sample - [Na⁺]_pl plasma sodium concentration - Osm_pl plasma osmolality - PEG polyethylene glycol - RH relative humidity - RIA radioimmunoassay - SB small blood sample - SGS salt gland secretion - T _a ambient temperature - TFA trifluoroacetic acid - UFR urine flow rate     

Renal function and plasma arginine vasotocin during an acute salt load in feral chickens

Summary Renal clearance experiments were conducted on feral chickens descended from birds collected from a coral island off the coast of Queensland, Australia. Following a control period when 0.13 M NaCl was used as a vehicle for the renal function markers, a salt load was imposed by infusion of 1 M NaCl. The hypertonic NaCl infusion resulted in increases in glomerular filtration rate (GFR), effective renal blood flow (ERBF), and urine flow rate (V), whereas filtration fraction decreased. Haematocrit was reduced and plasma osmolality, sodium, chloride and potassium concentrations increased. Plasma arginine vasotocin (P_AVT) levels increased from 31.4±2.3 pg·ml^-1 during the control infusion to 56.0±1.7 pg·ml^-1 following a salt load of 12 mmol Nacl·kg^-1 The sensitivity of release of AVT was 0.69±0.11 pg·ml^-1 per mosmol·kg^-1. The concentrations of Na and Cl in urine increased, whereas urine osmolality and potassium concentration decreased. The expansion of the extracellular fluid volume induced by the salt loading would tend to suppress the release of AVT, whereas the osmotic stimulus would provide a stimulus for the release of AVT. In this study, GFR, ERBF and ERPF increased at the same time as P_AVT increased.Abbreviations AVP arginine vasopressin - AVT arginine vasotocin - ERBF effective renal blood flow - ERPF effective renal plasma flow - GFR glomerular filtration rate - P_avt plasma arginine vasotocin concentration - PAH paraaminohippuric acid - SEM standard error of mean - SNGER single nephron glomerular filtration rate - U/P urine to plasma ratio - V urine flow rate     

Separation and purification of phycocyanin from Spirulina sp. using a membrane process

The highest purity ratio of phycocyanin extract was obtained when fresh biomass was used as raw material. The crude extract was purified by membrane process using microfiltration and ultrafiltration. Membrane of pore sizes 5 μm, at feed flow rate of 150 mL min⁻¹, permeate flux of 58.5 L h⁻¹ m⁻² was selected for coarse filtration and membrane with pore size 0.8/0.2 μm at the flow rate of 100 mL min⁻¹, permeate flux of 336 L h⁻¹ m⁻² was selected for fine filtration, giving phycocyanin recovery of 88.6% and 82.9%, respectively. For ultrafiltration, membrane with MWCO at 50 kDa, 69 kPa and 75 mL min⁻¹ of flow rate with a mean permeate flux 26.8 L h⁻¹ m⁻² and a retention rate of 99% was found to be optimal. Under these filtration conditions, food grade phycocyanin with the purity around 1.0 containing c-phycocyanin as the major component was obtained.     

The feeding rates and efficiencies of a marine ciliate, Strombidium sp., grown under chemostat steady-state conditions

A marine ciliate of the genus Strombidium isolated from a marine rock-pool, was grown bacteriafree in a chemostat continuous culture system and fed on the alga Pavlova (Monochrysis) lutheri Droop, which was also grown in continuous culture. The growth rate of the ciliate was maintained constant whilst the growth rate of the alga was varied, the latter producing little change in its energy content.The specific filtration and ingestion rates of Strombidium were measured and found, in both cases, to vary inversely as a function of the concentration of available algae. The filtration rate showed a range from 2 to 35 μl · ciliate^?1 · day^?1 whilst the ingestion rate varied from 0.8 to 3.4 J · ciliate^?1 · day^?1. The efficiency of ingestion remained constant throughout the experiment with a mean of > 91%, the overall growth efficiency also remained constant but with a mean of only 6.5%.The rates and efficiencies are compared with the results obtained by other workers.     

Pilot plant scale extraction of alginates from Macrocystis pyrifera. 2. Studies on extraction conditions andmethods of separating the alkaline-insoluble residue

The effect of temperature (70, 80, 90 ^°C) and time (1–9 h) during the alkaline extraction step on alginate yield and quality were studied. The alginate yield increased with time and maximum yield was obtained after 3.5 h treatment, ranging from19.4% at 70 ^°C to 21.9% at 90 ^°C. The viscosity of the alginate produced was inversely correlated with the temperature and time. At70 ^°C the slope of the curve was almost zero(753 to 923 mPa s); at 90 ^°C the viscosity loss was 154 mPa s per hour during the first two hours, reducing from 523 to 86 mPa s after 5 h; 80 ^°C yielded values between those for 70 ^°C and90 ^°C. The best conditions for alkaline extraction were using pH 10 at 80 ^°C for two hours. The curves obtained gave useful information for controlling the viscosity of the alginate during production. It was found that viscosity of the paste formed during alkaline extraction (`process viscosity') was the best parameter to determine there action rate during extraction. Alginate yield increased during filtration time from 17.6% to 23.7%after 55 min at 70 ^°C. In this step the viscosity of the alginate obtained remained almost constant (522–610 mPa s), indicating no degradation of the products during filtration. The best dilution to filter the alginate extract was obtained at 45 mPa s. Diatomaceous earth (Celite) and expanded lava(Perlite) were tested as filter aids. Expanded lava was the best filter aid, using 1 kg per kilogram of alginate produced. Three methods were studied to separate the alkaline-insoluble residues after extraction: filtration, centrifugation, flocculation, and combinations of them. The best system found was filtration with flocculant in a rotary vacuum filter, with a knife advance of 0.1 mm every 3.5 seconds and drum rotation of 2 rpm, yielding an average filtration flow rate of 10.5 L min^-1. This revised version was published online in August 2006 with corrections to the Cover Date.     

Using the F/R-ratio for an evaluation of the ability of the demosponge Halichondria panicea to nourish solely on phytoplankton versus free-living bacteria in the sea

The F/R-ratio (litres of water filtered per ml of oxygen respired) was determined for the filter-feeding demosponge Halichondria panicea to be 15.5?l?H₂O?(ml O₂)^?1 which was used to evaluate the potential of the sponge to nourish solely on nano- (2–20?µm) and micro- (20–200?µm) phytoplankton cells in the sea. It was estimated that in order to balance the maintenance requirement of H. panicea the necessary content of suspended particulate organic carbon must be at least 0.03?mg?C?l^?1, which may be compared with actually reported values of 0.04 to 0.2?mg?C?l^?1 thus implying that H. panicea may be able to nourish on a sole diet of phytoplankton in nature. However, the amount of carbon represented by free-living heterotrophic bacteria, cyanobacteria and other small (0.2–2?µm) picoplankton which are also accessible to the sponge lies in the range of 0.05–0.10?mg?C?l^?1, and therefore bacteria seem to be an important, although in many cases apparently a somewhat insufficient food source relative to phytoplankton. Video-microscope observations of the osculum cross-sectional area (OSA) and simultaneous measurement of the filtration rate of H. panicea showed that the filtration rate varied considerably over time concurrently with often pronounced variations in the OSA caused by disturbance when the aquarium through-flow was stopped during filtration rate measurements in the laboratory. It is concluded that the optimal and undisturbed filtration rate may be considerably higher than measured here, i.e. 6.1?ml water (ml sponge)^?1 min^?1, thus increasing the F/R-ratio to > 15.5?l?H₂O (ml O₂)^?1, which is comparable to values for more advanced eumetazoan filter-feeding marine invertebrates grazing on phytoplankton.     

An ultrasonically enhanced inclined settler for microalgae harvesting

Microalgae have vast potential as a sustainable and scalable source of biofuels and bioproducts. However, algae dewatering is a critical challenge that must be addressed. Ultrasonic settling has already been exploited for concentrating various biological cells at relatively small batch volumes and/or low throughput. Typically, these designs are operated in batch or semicontinuous mode, wherein the flow is interrupted and the cells are subsequently harvested. These batch techniques are not well suited for scaleup to the throughput levels required for harvesting microalgae from the large‐scale cultivation operations necessary for a viable algal biofuel industry. This article introduces a novel device for the acoustic harvesting of microalgae. The design is based on the coupling of the acoustophoretic force, acoustic transparent materials, and inclined settling. A filtration efficiency of 70 ± 5% and a concentration factor of 11.6 ± 2.2 were achieved at a flow rate of 25 mL·min^?1 and an energy consumption of 3.6 ± 0.9 kWh·m^?3. The effects of the applied power, flow rate, inlet cell concentration, and inclination were explored. It was found that the filtration efficiency of the device is proportional to the power applied. However, the filtration efficiency experienced a plateau at 100 W L^?1 of power density applied. The filtration efficiency also increased with increasing inlet cell concentration and was inversely proportional to the flow rate. It was also found that the optimum settling angle for maximum concentration factor occurred at an angle of 50 ± 5°. At these optimum conditions, the device had higher filtration efficiency in comparison to other similar devices reported in the previous literature. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 31:414–423, 2015