This document summarizes the research and development of a novel multi-channel airlift photobioreactor for growing algae. Key points:
- Researchers designed, constructed, and tested different types of multi-channel airlift photobioreactors to cultivate the algae Porphyridium Sp.
- The reactors aimed to provide efficient mixing, low shear stress, and a high ratio of irradiation area to liquid volume for improved algae growth.
- Initial testing was done on two prototype reactors - one with a single row of channels and another with two rows of channels. Further characterization of the reactors was planned.
Thermal Performance Evaluation of a Direct Absorption Flat Plate Solar Collec...IOSR Journals
Abstract: Due to the growing demand of energy and lesser availability of fossil fuels there is a shift in our
energy concern towards renewable energy sources. There is no doubt that from all the available sources, solar
energy is the best option with its minimum environmental impact. Now a days different types of solar collectors
are widely used to harvest solar energy. It has been found that performance of the solar collector depends upon
the characteristics of the working fluid which is used to harvest solar energy in solar collector. In the present
work the effect of Al2O3-H2O based nanofluids on the direct absorption type solar collector has been
investigated experimentally. Nanofluids are the new class of the fluids with their improved properties over the
host/conventional fluids. The volume fraction of Al2O3 nanoparticles used is 0.005% and 0.05%. Efficiency of
the collector is calculated for different mass flow rates (60, 80, 100 ml/hr) of Al2O3-H2O based nanofluids. From
the results obtained by performing experiments, it has been found that collector efficiency increases about to 3-
4% when Al2O3-H2O nanofluids are used as compared to simple water. Comparison of the collector efficiency
for different mass flow rate and different concentrations are done. ASHRAE [4] standards were followed while
performing all the experiments.
Keywords: Nanofluids, ASHRAE, Volume fraction, Efficiency, Collectors etc.
Potential Of graphene in Agriculture and Food industryKiran Qamar Kayani
This document discusses the potential uses of graphene in agriculture and food industries. It begins with definitions of graphene as a 2D hexagonal lattice of carbon atoms. It then discusses graphene's history, structure, and chemical reactivity due to its exposed edges. The document outlines several potential applications of graphene in agriculture, such as water treatment filters and enhancing seed germination. In food industries, graphene could improve food packaging to reduce waste and increase safety. It may also enable cheaper and better food processing. The document concludes with advantages like energy storage and conductivity, and disadvantages including toxicity and lack of a bandgap.
Solar Desalination of Seawater using a Single-Basin Single Sloped Solar Still...IRJET Journal
This document summarizes research on improving the efficiency of single-basin solar stills for desalinating seawater. It discusses the components of a basic solar still, including a wooden box, aluminum plate, glass cover, and water collector. Previous studies that tested different absorber materials and the use of a parabolic concentrator are summarized. The document then describes the fabrication and working of a single-basin solar still with a parabolic concentrator. Solar radiation is reflected and concentrated by the parabolic reflector onto the aluminum plate to increase evaporation and improve water production rates over a basic solar still without a concentrator.
IRJET- Performance Investigation of Single Basin Double Slope Solar Still wit...IRJET Journal
This document summarizes research on improving the efficiency of single basin double slope solar stills for desalination. Experiments were conducted from May 10-25, 2018 on solar stills with different enhancement techniques, including black coating, fins, reflectors, and phase change materials. The efficiency increased from 14.36% for a simple solar still up to 40.53% when using black coating with phase change material. The cost per liter of distilled water decreased from INR 8.3181/L to INR 3.6201/L with enhancements. The payback period for the solar distillation systems was estimated to be 1.39-3.61 years based on a market price of INR 15/L for dist
The document reviews various solar distillation technologies for desalination. It discusses different types of solar concentrators and collectors that can be used to heat saline water and produce fresh water through distillation. Several studies that have tested different solar distillation designs and configurations are summarized. These include designs using parabolic concentrators, double pass solar air heaters, humidification-dehumidification processes, and systems combining multiple technologies. The document indicates that solar distillation is a promising technology for desalination using renewable energy but further improvements are needed to increase efficiency and competitiveness compared to conventional thermal desalination methods.
Research proposal for Treatment of Tannery effluent through constructed wetla...NUST (IESE)
The document proposes research on treating tannery effluent through a constructed wetland integrated with a microbial fuel cell. The objectives are to select indigenous plant varieties for the constructed wetland, identify factors influencing treatment efficiency, and use the microbial fuel cell to increase bacterial activity and power generation. The methodology will involve setting up two single-chamber constructed wetland-microbial fuel cell systems, one with and one without plants. Samples will be analyzed for parameters like COD. Expected outcomes include the plant-microbial fuel cell system achieving higher efficiency than the system without plants.
Comparative Investigation for Solar Thermal Energy Technologies SystemJameel Tawfiq
The multiple uses of fossil fuels make them depleted in the coming years. Also, the large
amount of pollution produced by the use of this fuel has made the world seriously think of
environmentally familiar alternative sources of energy. Universal energy is vast and diverse energy, with
the ability to cover the individual's energy needs in various fields in the coming years. The focus of this
study was a parabolic dish system. There are different uses solar of parabolic dish applications that can be
limited by two main groups: thermal generation and electric power generation. A thermal generation used
to generate steam, solar cooking, water heating, and water distillation. The briefly objective is to review
and analysis the thermal generation published by taken into considering used parabolic collector system.
Also, evaluate solar dish operators in differences covering like, the composition of concentrators, the
material of reflector, receiver design, parabolic dish diameter, rim angle, and focal length. These
characteristics drive to entire structure possible for a parabolic dish. Finally, this article may be useful for
the new research worker to consider the requirement for Thermal solar generation integrated with a
parabolic dish.
FABRICATION OF A SIMPLE BUBBLE COLUMN CO2 CAPTURE UNIT UTILIZING MICROALGAE ijbbjournal
This paper focuses on the fabrication of a vertical column CO2 bioreactor and the experimentation of
microalgae. On the manufacturing aspect of the project, the base design was modelled on Solidworks and
assigned a material. The model was then loaded onto a finite element analysis (FEA) software to determine
various engineering stresses and strains to confirm the specimen’s strength. Once the simulation had
completed, the model was ready for 3-D printing. The species of microalgae to be used in this study was
Chlorella Vulgaris. The medium solution was prepared by mixing many types of salts suitable for this type
of algae. Experimental trials of algae growth were conducted mainly to see whether the algae would indeed
grow more rapidly using the developed medium. After failure in early trials, some experiments were
conducted to determine which concentration of stock solution would be the most ideal for the algae to grow
in. These early experiments proved the major impacts of the concentration of the medium on the rate of
growth of the algae. The knowledge gained in these experiments will be instrumental during the next stages
of this project.
Thermal Performance Evaluation of a Direct Absorption Flat Plate Solar Collec...IOSR Journals
Abstract: Due to the growing demand of energy and lesser availability of fossil fuels there is a shift in our
energy concern towards renewable energy sources. There is no doubt that from all the available sources, solar
energy is the best option with its minimum environmental impact. Now a days different types of solar collectors
are widely used to harvest solar energy. It has been found that performance of the solar collector depends upon
the characteristics of the working fluid which is used to harvest solar energy in solar collector. In the present
work the effect of Al2O3-H2O based nanofluids on the direct absorption type solar collector has been
investigated experimentally. Nanofluids are the new class of the fluids with their improved properties over the
host/conventional fluids. The volume fraction of Al2O3 nanoparticles used is 0.005% and 0.05%. Efficiency of
the collector is calculated for different mass flow rates (60, 80, 100 ml/hr) of Al2O3-H2O based nanofluids. From
the results obtained by performing experiments, it has been found that collector efficiency increases about to 3-
4% when Al2O3-H2O nanofluids are used as compared to simple water. Comparison of the collector efficiency
for different mass flow rate and different concentrations are done. ASHRAE [4] standards were followed while
performing all the experiments.
Keywords: Nanofluids, ASHRAE, Volume fraction, Efficiency, Collectors etc.
Potential Of graphene in Agriculture and Food industryKiran Qamar Kayani
This document discusses the potential uses of graphene in agriculture and food industries. It begins with definitions of graphene as a 2D hexagonal lattice of carbon atoms. It then discusses graphene's history, structure, and chemical reactivity due to its exposed edges. The document outlines several potential applications of graphene in agriculture, such as water treatment filters and enhancing seed germination. In food industries, graphene could improve food packaging to reduce waste and increase safety. It may also enable cheaper and better food processing. The document concludes with advantages like energy storage and conductivity, and disadvantages including toxicity and lack of a bandgap.
Solar Desalination of Seawater using a Single-Basin Single Sloped Solar Still...IRJET Journal
This document summarizes research on improving the efficiency of single-basin solar stills for desalinating seawater. It discusses the components of a basic solar still, including a wooden box, aluminum plate, glass cover, and water collector. Previous studies that tested different absorber materials and the use of a parabolic concentrator are summarized. The document then describes the fabrication and working of a single-basin solar still with a parabolic concentrator. Solar radiation is reflected and concentrated by the parabolic reflector onto the aluminum plate to increase evaporation and improve water production rates over a basic solar still without a concentrator.
IRJET- Performance Investigation of Single Basin Double Slope Solar Still wit...IRJET Journal
This document summarizes research on improving the efficiency of single basin double slope solar stills for desalination. Experiments were conducted from May 10-25, 2018 on solar stills with different enhancement techniques, including black coating, fins, reflectors, and phase change materials. The efficiency increased from 14.36% for a simple solar still up to 40.53% when using black coating with phase change material. The cost per liter of distilled water decreased from INR 8.3181/L to INR 3.6201/L with enhancements. The payback period for the solar distillation systems was estimated to be 1.39-3.61 years based on a market price of INR 15/L for dist
The document reviews various solar distillation technologies for desalination. It discusses different types of solar concentrators and collectors that can be used to heat saline water and produce fresh water through distillation. Several studies that have tested different solar distillation designs and configurations are summarized. These include designs using parabolic concentrators, double pass solar air heaters, humidification-dehumidification processes, and systems combining multiple technologies. The document indicates that solar distillation is a promising technology for desalination using renewable energy but further improvements are needed to increase efficiency and competitiveness compared to conventional thermal desalination methods.
Research proposal for Treatment of Tannery effluent through constructed wetla...NUST (IESE)
The document proposes research on treating tannery effluent through a constructed wetland integrated with a microbial fuel cell. The objectives are to select indigenous plant varieties for the constructed wetland, identify factors influencing treatment efficiency, and use the microbial fuel cell to increase bacterial activity and power generation. The methodology will involve setting up two single-chamber constructed wetland-microbial fuel cell systems, one with and one without plants. Samples will be analyzed for parameters like COD. Expected outcomes include the plant-microbial fuel cell system achieving higher efficiency than the system without plants.
Comparative Investigation for Solar Thermal Energy Technologies SystemJameel Tawfiq
The multiple uses of fossil fuels make them depleted in the coming years. Also, the large
amount of pollution produced by the use of this fuel has made the world seriously think of
environmentally familiar alternative sources of energy. Universal energy is vast and diverse energy, with
the ability to cover the individual's energy needs in various fields in the coming years. The focus of this
study was a parabolic dish system. There are different uses solar of parabolic dish applications that can be
limited by two main groups: thermal generation and electric power generation. A thermal generation used
to generate steam, solar cooking, water heating, and water distillation. The briefly objective is to review
and analysis the thermal generation published by taken into considering used parabolic collector system.
Also, evaluate solar dish operators in differences covering like, the composition of concentrators, the
material of reflector, receiver design, parabolic dish diameter, rim angle, and focal length. These
characteristics drive to entire structure possible for a parabolic dish. Finally, this article may be useful for
the new research worker to consider the requirement for Thermal solar generation integrated with a
parabolic dish.
FABRICATION OF A SIMPLE BUBBLE COLUMN CO2 CAPTURE UNIT UTILIZING MICROALGAE ijbbjournal
This paper focuses on the fabrication of a vertical column CO2 bioreactor and the experimentation of
microalgae. On the manufacturing aspect of the project, the base design was modelled on Solidworks and
assigned a material. The model was then loaded onto a finite element analysis (FEA) software to determine
various engineering stresses and strains to confirm the specimen’s strength. Once the simulation had
completed, the model was ready for 3-D printing. The species of microalgae to be used in this study was
Chlorella Vulgaris. The medium solution was prepared by mixing many types of salts suitable for this type
of algae. Experimental trials of algae growth were conducted mainly to see whether the algae would indeed
grow more rapidly using the developed medium. After failure in early trials, some experiments were
conducted to determine which concentration of stock solution would be the most ideal for the algae to grow
in. These early experiments proved the major impacts of the concentration of the medium on the rate of
growth of the algae. The knowledge gained in these experiments will be instrumental during the next stages
of this project.
FABRICATION OF A SIMPLE BUBBLE COLUMN CO2 CAPTURE UNIT UTILIZING MICROALGAEijbbjournal
This document summarizes the fabrication of a vertical column photobioreactor to capture CO2 using microalgae. It describes the design and 3D printing of the reactor base, cultivation of Chlorella Vulgaris microalgae in the reactor, and experimental trials testing different growth medium concentrations. The best growth was found at a 20% concentration. The reactor design aims to efficiently capture CO2 from flue gases through microalgae photosynthesis in a controlled environment.
Experimental Investigation of Solar Air Heater with Different Surface Roughne...IRJET Journal
This document summarizes an experimental investigation of a solar air heater with different surface roughness geometries. The study tested three surface configurations: a smooth aluminum plate and plates with dimpled and cuboid roughness shapes. Data on temperature, pressure, efficiency and heat transfer coefficients were collected under actual outdoor conditions and compared across configurations. The goal was to enhance heat transfer and thermal performance through artificial surface roughness.
Numerical Simulation of Solar Greenhouse Dryer Using Computational Fluid Dyna...RSIS International
Moisture removal from crops and other food items is
one of the ways to preserve them for longer duration. Previously,
drying openly in sun was used to reduce moisture content. But it
had some disadvantages like contamination due to dirt and other
unwanted elements as well as attack by rodents and birds.
Drying in covered close space with vents would be helpful in
overcoming these problems. Solar greenhouse dryers are the
close conduits in which crops can be dried without negatively
affecting the nutrition value. The factors affecting the crop
drying are solar radiation, climatic conditions, material of which
the dryer is made of and shape of the dryer. A lot of
experimental investigations have been done to improve the
drying rate. With the advances in computational power and
numerical techniques, Computational Fluid Dynamics (CFD) has
emerged as a powerful tool to optimize any design. In the present
study, simulations have been done on greenhouse dryer with
modifications to identify the temperature distribution with
variation in wind velocity. Different radiation levels have also
been found out at different locations in the dryer. The model of
the dryer has been created in CREO 5.0 and analysis has been
performed using ANSYS 14.0. The simulation has been done for
both forced and natural convection. Obtained results have been
validated with the experimental work done by previous works.
Better drying rate has been obtained for forced circulation as
compared to natural convection which is in agreement with the
available experimental results.
On the (pseudo) capacitive performance of jack fruit seed carboneSAT Publishing House
The document summarizes research on using carbon derived from jack fruit seeds (JFSC) as an electrode material for electrochemical capacitors. JFSC was produced by pyrolyzing jack fruit seeds under nitrogen atmosphere without activating agents. Characterization showed the JFSC has a microporous structure and contains nitrogen, sulfur, and oxygen functional groups. Electrochemical tests found the JFSC exhibits pseudocapacitive behavior in acid and neutral electrolytes. In sulfuric acid, it achieved a specific capacitance of 316 Fg-1 and retained 93% of its initial capacitance after 500 charge/discharge cycles. The research demonstrates the potential of using an agricultural waste like jack fruit seeds for electrode materials in electro
Economics of a high performance solar distilled water planteSAT Journals
Abstract In this paper, economic analysis of a high performance solar energy operated distilled water plant is presented. The monthly and the annual productivity of the high performance plant is compared with that of a conventional basin type solar still of equal size and material. The cost of the distilled water produced is determined by uniform cost analysis method. The analysis revealed that the production cost of the distilled water produced per litre by the high performance plant is Rs.5.07, whereas that for the conventional still is Rs.7.90 when the market cost is Rs.20.00. The high performance solar distilled water plant can be a very economical, cost effective, minimum maintenance and the zero energy cost option. Moreover, there is no pollution involved. Keywords: Distilled water, solar still, porous absorber, economic analysis and high performance.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
This document compares the biomass and lipid production and energy consumption of three different photobioreactor designs (multi-tubular, helical-tubular, and flat-panel) for cultivating the microalgae Chlorella pyrenoidosa. The photobioreactors were placed in a greenhouse laboratory and operated under identical environmental conditions. Results showed that the multi-tubular photobioreactor had the lowest energy consumption but was also the most sensitive to temperature fluctuations. The flat-panel photobioreactor required the most energy to maintain a constant light intensity. Overall, the study evaluates how photobioreactor design impacts cultivation efficiency and costs for microalgae production in a temperate climate.
Effect of different impellers and baffles on aerobic stirred tank fermenter u...Bashuki Mishra
This research article examines the effect of different impellers and baffles on mixing in an aerobic stirred tank fermenter using computational fluid dynamics (CFD). The researchers assembled a fermenter with various impellers (Rushton, marine, A320, HE3) and baffles (walled, unwalled). CFD software was used to model fluid mixing and determine mixing times. The volumetric mass transfer coefficient was also experimentally measured. The Rushton impeller provided the most efficient mixing based on its higher kL
a value. Turbulent kinetic energy and dissipation rate were analyzed to understand each impeller's mixing efficiency.
Effect of different impellers and baffles on aerobic stirred tank fermenter u...Bashuki Mishra
This research article examines the effect of different impellers and baffles on mixing in an aerobic stirred tank fermenter using computational fluid dynamics (CFD). The researchers assembled a fermenter with various impellers (Rushton, marine, A320, HE3) and baffles (walled, unwalled). CFD software was used to model fluid mixing and determine mixing times. The volumetric mass transfer coefficient was also experimentally measured. The Rushton impeller showed the highest mixing efficiency. CFD simulations provided insight into turbulent kinetic energy, dissipation rates, and trailing vortex formation for different impeller configurations.
Degradation and Microbiological Validation of Meropenem Antibiotic in Aqueous...IJERA Editor
Aqueous UV, UV/H2O2, UV/TiO2 and UV/TiO2/H2O2mediateddegradation/oxidation of the carbapenem antibiotic, meropenem (MERO) was experimentally studied. Degussa P-25 titanium dioxide was used as photocatalyst and UV-light source was used for activation of TiO2.The nanosized titanium dioxide was immobilized on the glass support for improving the efficiency and economics of the photocatalytic processes. The immobilized film of titanium dioxide has been characterized, using X-ray diffraction (XRD) andscanning electron microscopy (SEM).The study of antibiotic degradation was conducted in the specific Batch Photocatalytic Reactor. MERO standard solution was used at 500 μg/ml concentration, which degraded up to 99% of antibiotics. Microbiological assay showed that the loss of antibacterial activity is directly proportional to the time of UV-irradiation. The experiment also showed that the UV-irradiation itself causes the degradation of antibiotics, but in very slow manner in comparison to the photocatalysis process. The experimental study showed that UV/TiO2/H2O2 system is effective and efficient for the treatment of antibiotic waste.
Design of Algal Photo Bioreactor Using Recycled PET BottlesIRJET Journal
This document describes a study that designed an algal photo bioreactor using recycled PET bottles to cultivate algae. The bioreactor was used to determine the algae's specific growth rate using different nutrient media and sodium bicarbonate concentrations. Algae were grown in PET bottles containing nutrient solutions. The study found that algae grew best with a nutrient media containing ammonium sulfate and urea and a sodium bicarbonate concentration of 50mM, reaching highest growth by the 6th day. For a minimum salt media, algae grew until the 8th day with 40mM or 50mM sodium bicarbonate concentrations. The bioreactor demonstrated the potential to cultivate algae for carbon
International Journal of Engineering Research and Development (IJERD)IJERD Editor
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The document describes a study on improving the thermal efficiency of a solar tunnel drier. A working model of a solar tunnel drier was constructed using a single layer of polyethylene sheeting. Experiments were conducted to measure the temperature increase inside the drier compared to ambient temperature. Additional experiments used double layers of polyethylene sheeting with air gaps of 50mm and 100mm between the layers. The purpose was to determine if the additional insulation of an air gap improved the thermal efficiency of the drier. Temperature, humidity and solar intensity readings were taken over an 8 hour period and compared between the single layer and double layer configurations.
IRJET- Optimisation of Solar Collector’s Efficiency using Copper TubeIRJET Journal
1. The document discusses optimizing the efficiency of a solar collector by using a copper tube filled with pebbles as the absorber.
2. Test results showed using the copper tube with pebbles increased maximum air temperature by about 20°C and collector efficiency by about 6% compared to using a plain copper tube.
3. Convection losses were reduced and heat transfer rate increased significantly when using the copper tube filled with pebbles absorber configuration.
This document describes a study on treating synthetic wastewater using an activated sludge process in a laboratory-scale jet loop reactor. The researchers tested COD (chemical oxygen demand) removal efficiency at different mixed liquor volatile suspended solids (MLVSS) concentrations and a hydraulic retention time of 60 minutes. They found that over 95% COD removal could be achieved with an MLVSS of 3000 mg/L. Tables of results show COD levels decreasing over 5 hours as MLVSS increased from 1000 mg/L to 3000 mg/L. Graphs illustrate the relationships between time and COD or MLVSS. The reactor demonstrated high wastewater treatment efficiency under the conditions tested.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
IRJET- Analysing Efficiency of Solar Collector using ETC Absorber TubeIRJET Journal
The document analyzes the efficiency of a solar collector using an evacuated tube (ETC) absorber. It describes testing a parabolic trough solar collector initially and then with different absorbers to enhance performance. Testing was conducted at KIET, Ghaziabad from morning to evening. Results found that efficiency increased by around 8% when using an ETC tube compared to other absorbers. The highest temperature difference of 23.3°C was achieved with the ETC tube at an air flow rate of 28.5 kg/hr. Overall, the efficiency of an ordinary collector was 9-21% during the day, which increased to 10-23.4% when using an ETC absorber tube.
This document describes the development of a paddle wheel aerator for small and medium fish farmers in Nigeria. Key points:
- A prototype paddle wheel aerator was developed using locally available materials like stainless steel, brass, and iron. It was powered by a 0.75KW electric motor.
- Performance tests showed the overall oxygen transfer coefficient was as high as 8.19 hr-1 and the standard oxygen transfer rate and standard aerator efficiency ranged from 1.1-1.2 kgO2hr-1 and 1.1-1.3 kg O2KW-1hr-1 respectively.
- The tests also found that oxygen transfer rates decreased with increased water volume, as predicted by equations
In many countries,agricultural products are dried under the open sun. However,this way of drying deg rades the quality of the dried products due to interferen ce from external impurities and uneven drying rates . Numerous types of solar dryers have been designed a nd developed in various parts of the world,yieldin g varying degrees of technical performance. Basically,there are three types of solar dryers;direct sol ar dryers,indirect solar dryers and mixed-mode dryers. This r eview paper is focused on hybrid solar dryers. Drying proceeded successfully even under unfavorable weath er conditions in the hybrid mode of operation these are the most cost effective type of dryers and are easy to fabricate and use. In this review paper,we reviewe d different types of hybrid solar dryers and different design m odifications applied to them in order to increase t heir effectiveness.
This document describes the fabrication and testing of a high-performance tandem organic solar cell with novel active layers. It utilizes a record-efficiency polymer, PBTI3T, in combination with other polymers like PTB7 and PSBTBT-Si to further enhance efficiency. Absorption spectra of the polymers show offset peaks that minimize spectral overlap when combined in a tandem device. Tandem devices were fabricated with PBTI3T and either PTB7 or PSBTBT-Si as the active layers. Results showed one of the highest open-circuit voltages reported and an overall power conversion efficiency above 6%, demonstrating the potential of tandem organic photovoltaics using high-efficiency polymers.
FABRICATION OF A SIMPLE BUBBLE COLUMN CO2 CAPTURE UNIT UTILIZING MICROALGAEijbbjournal
This document summarizes the fabrication of a vertical column photobioreactor to capture CO2 using microalgae. It describes the design and 3D printing of the reactor base, cultivation of Chlorella Vulgaris microalgae in the reactor, and experimental trials testing different growth medium concentrations. The best growth was found at a 20% concentration. The reactor design aims to efficiently capture CO2 from flue gases through microalgae photosynthesis in a controlled environment.
Experimental Investigation of Solar Air Heater with Different Surface Roughne...IRJET Journal
This document summarizes an experimental investigation of a solar air heater with different surface roughness geometries. The study tested three surface configurations: a smooth aluminum plate and plates with dimpled and cuboid roughness shapes. Data on temperature, pressure, efficiency and heat transfer coefficients were collected under actual outdoor conditions and compared across configurations. The goal was to enhance heat transfer and thermal performance through artificial surface roughness.
Numerical Simulation of Solar Greenhouse Dryer Using Computational Fluid Dyna...RSIS International
Moisture removal from crops and other food items is
one of the ways to preserve them for longer duration. Previously,
drying openly in sun was used to reduce moisture content. But it
had some disadvantages like contamination due to dirt and other
unwanted elements as well as attack by rodents and birds.
Drying in covered close space with vents would be helpful in
overcoming these problems. Solar greenhouse dryers are the
close conduits in which crops can be dried without negatively
affecting the nutrition value. The factors affecting the crop
drying are solar radiation, climatic conditions, material of which
the dryer is made of and shape of the dryer. A lot of
experimental investigations have been done to improve the
drying rate. With the advances in computational power and
numerical techniques, Computational Fluid Dynamics (CFD) has
emerged as a powerful tool to optimize any design. In the present
study, simulations have been done on greenhouse dryer with
modifications to identify the temperature distribution with
variation in wind velocity. Different radiation levels have also
been found out at different locations in the dryer. The model of
the dryer has been created in CREO 5.0 and analysis has been
performed using ANSYS 14.0. The simulation has been done for
both forced and natural convection. Obtained results have been
validated with the experimental work done by previous works.
Better drying rate has been obtained for forced circulation as
compared to natural convection which is in agreement with the
available experimental results.
On the (pseudo) capacitive performance of jack fruit seed carboneSAT Publishing House
The document summarizes research on using carbon derived from jack fruit seeds (JFSC) as an electrode material for electrochemical capacitors. JFSC was produced by pyrolyzing jack fruit seeds under nitrogen atmosphere without activating agents. Characterization showed the JFSC has a microporous structure and contains nitrogen, sulfur, and oxygen functional groups. Electrochemical tests found the JFSC exhibits pseudocapacitive behavior in acid and neutral electrolytes. In sulfuric acid, it achieved a specific capacitance of 316 Fg-1 and retained 93% of its initial capacitance after 500 charge/discharge cycles. The research demonstrates the potential of using an agricultural waste like jack fruit seeds for electrode materials in electro
Economics of a high performance solar distilled water planteSAT Journals
Abstract In this paper, economic analysis of a high performance solar energy operated distilled water plant is presented. The monthly and the annual productivity of the high performance plant is compared with that of a conventional basin type solar still of equal size and material. The cost of the distilled water produced is determined by uniform cost analysis method. The analysis revealed that the production cost of the distilled water produced per litre by the high performance plant is Rs.5.07, whereas that for the conventional still is Rs.7.90 when the market cost is Rs.20.00. The high performance solar distilled water plant can be a very economical, cost effective, minimum maintenance and the zero energy cost option. Moreover, there is no pollution involved. Keywords: Distilled water, solar still, porous absorber, economic analysis and high performance.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
This document compares the biomass and lipid production and energy consumption of three different photobioreactor designs (multi-tubular, helical-tubular, and flat-panel) for cultivating the microalgae Chlorella pyrenoidosa. The photobioreactors were placed in a greenhouse laboratory and operated under identical environmental conditions. Results showed that the multi-tubular photobioreactor had the lowest energy consumption but was also the most sensitive to temperature fluctuations. The flat-panel photobioreactor required the most energy to maintain a constant light intensity. Overall, the study evaluates how photobioreactor design impacts cultivation efficiency and costs for microalgae production in a temperate climate.
Effect of different impellers and baffles on aerobic stirred tank fermenter u...Bashuki Mishra
This research article examines the effect of different impellers and baffles on mixing in an aerobic stirred tank fermenter using computational fluid dynamics (CFD). The researchers assembled a fermenter with various impellers (Rushton, marine, A320, HE3) and baffles (walled, unwalled). CFD software was used to model fluid mixing and determine mixing times. The volumetric mass transfer coefficient was also experimentally measured. The Rushton impeller provided the most efficient mixing based on its higher kL
a value. Turbulent kinetic energy and dissipation rate were analyzed to understand each impeller's mixing efficiency.
Effect of different impellers and baffles on aerobic stirred tank fermenter u...Bashuki Mishra
This research article examines the effect of different impellers and baffles on mixing in an aerobic stirred tank fermenter using computational fluid dynamics (CFD). The researchers assembled a fermenter with various impellers (Rushton, marine, A320, HE3) and baffles (walled, unwalled). CFD software was used to model fluid mixing and determine mixing times. The volumetric mass transfer coefficient was also experimentally measured. The Rushton impeller showed the highest mixing efficiency. CFD simulations provided insight into turbulent kinetic energy, dissipation rates, and trailing vortex formation for different impeller configurations.
Degradation and Microbiological Validation of Meropenem Antibiotic in Aqueous...IJERA Editor
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Study and Characterization of A Novel Multi-Airlift Chemical and Bioreactor
1. D. Wolf. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -1) April 2017, pp.64-74
www.ijera.com DOI: 10.9790/9622-0704016474 64 | P a g e
Study and Characterization of A Novel Multi-Airlift Chemical
and Bioreactor
D. Wolf *, A. N. Sembira**
*(Department of Chemical Engineering, Ariel University, Ariel, Israel 40700
Email: dwolf@ariel.ac.il)
** (Nuclear Research Centre, P. O. Box 9001, Beer-Sheva, Israel
Email: ashersa@nrcn.org.il)
ABSTRACT
This paper presents the results obtained by the R&D of a multi-channel airlift photobioreactor for growing
algae. The work consists of the design, construction, operation and characterization of a multi-channel airlift
photobioreactor. Porphyridium Sp, a species of algae of commercial interest was tested. The description of the
photobioreactor the experimental set up, and the data obtained in the indoor experiment using artificial solar
radiation at the laboratory scale are presented.
Keywords: Airlift Photobioreactor, Porphyridium, Marine algae, Polysaccharides, Biomass productivity, CO2
capture, Residence time distributions
I. INTRODUCTION
The feasibility of growing algae as a source
of proteins or secondary metabolites has been
successfully proven by many investigators, and in
fact has reached several industrial applications. The
potential of growing algae has been discussed in the
literature by Kargi and Rosenberg [1], Arad [2],
Richmond [3] Bahadar [4] and others. Several
methods of large-scale cultivation have been
proposed, tested, and implemented. The most
common method of cultivation of algae is the open-
pond raceway method. However, this method has
several drawbacks such as contamination caused by
other organisms and pollutants as well as a low rate
of production due to the unstable operating
conditions caused by irradiation, evaporation,
temperature fluctuations, and the large land area
required for large-scale production. Recently, a
closed system was studied by Cohen and Arad [5]
where “sleeve”-type photo bioreactors made of
polyethylene were used in the growth of the algae
Porphyridium Sp.
The sleeve-type operation eliminates many
of the disadvantages of the raceway-type
photobioreactor and is a good alternative for algae
production. Indeed, Arad et al. [6] found that
productivity in a closed system was higher than in
open ponds. The goal of our research was to test an
alternative method, simple and cost-effective for
growing algae. The idea is to use a multi-channel-
airlift photobioreactor that was tested indoors on a
laboratory scale. The type of algae tested was
Porphyridium Sp, which produces polysaccharides
with gelling properties (Arad et al. [6, 8]). This type
of reactor produces good mixing conditions and low
shear stress. Fermandes et al. [7] lately characterize
a slip cylinder airlift photobioreactor for efficient
microalgae cultivation.
II. ALGAE CULTIVATION
The growth of algae in general is affected
by factors such as temperature, pH, concentration of
nutrients, concentration of CO2, intensity of
irradiation, mixing and shear stress. The production
of algae on an industrial and economical basis will
therefore depend on optimization of the above
parameters. The technology developed for the
photobioreactor is also a major influencing factor of
production efficiency of the algae and its cost
effectiveness. Although the economics at this point
is not really favorable for algae production for the
biomass alone, it is however economical in some
cases where secondary metabolites with higher
economic value are produced. Among the algae with
industrial potential that have been studied is
Porphyridium Sp.
2.1 Porphyridium Sp
The potential for producing sulfated
polysaccharides from Porphyridium is described by
several authors (Arad et al., [8]; Adda et al., [9];
Anderson and Eakin, [10]). From experimental work
by Cohen and Arad [5], one can learn about the
problems involved in indoor cultivation of
Porphyridium, such as low productivity. On the
other hand, while growing Porphyridium in
polyethylene “sleeves,” higher productions of
biomass and polysaccharides was achieved. The
advantages in the closed system using sleeves are
high light availability, high rate of heating and
RESEARCH ARTICLE OPEN ACCESS
2. D. Wolf. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -1) April 2017, pp.64-74
www.ijera.com DOI: 10.9790/9622-0704016474 65 | P a g e
cooling, improved mixing, reduced contamination,
reduced evaporation, and reduced salinity
fluctuations. More details on Porphyridium and
outdoor cultivation of algae are given by Goldman
[11] and Fuentes-Grunewald [12].
2.2 Airlift Reactors
The process of moving material using the
airlift principle is quite common in fluid-flow
operations. However, in the last 30 years, the airlift
principle has also been applied in chemical and
biological reaction processes. The airlift-type
photobioreactor has gained wide acceptance as an
efficient operating unit and is frequently replacing
classical stirred tank reactors (STR). The airlift
reactor offers good mixing conditions and increased
mass transfer for nutrients and gases. The single-
channel airlift reactor commonly studied comprises a
riser, a downcomer, a base, and a separator for the
gases from the liquid medium. After separation, the
gases leave the system while the medium phase
comprising biomass and nutrients is recirculated
through the downcomer and returns to the riser. Fig.
1 presents an illustration of a typical airlift reactor.
Merchuk and Siegel [13] have reviewed the
characteristics of the single-channel airlift bioreactor
and its mode of operation. A complete state-of-the-
art discussion on these reactors as well as existing
data on their performance is found in the book by
Chisti [14].
2.3 Objectives and significance
From an analysis of the need of the
photosynthetic processes and the potential of the
existing airlift-type bioreactors, we have developed
and tested a new type of multi-channel airlift
photobioreactor by growing algae of the
Porphyridium species. A typical air-lift reactor is
shown in fig. 2.
The objective in the development of this
multi-channel airlift photobioreactor was to obtain a
more efficient and cost-effective unit operation in
the production of algae. This unit operation requires
very little energy other than solar radiation. It also
uses low-grade water, simple nutrients, and land
unsuitable for other agricultural uses.
Even in places where land is relatively
expensive, the proposed photobioreactor would
utilize land more efficiently due to its vertical
growing method, in contrast to horizontal algae
cultivation by ponds, thus significantly reducing
land requirements. As a closed system, the algae are
protected from contamination and the environment is
protected from odors. The proposed photobioreactor
also can be operated in batch mode, in continuous
mode, or in cascade mode. Therefore the R&D work
described here has practical significance in that it
could increase the efficiency of algae growth in
absolute terms and on a unit land area basis.
2.4 Extent of illumination
In the commonly used raceway-type pond,
the liquid is approximately 30 cm deep although
solar radiation is absorbed in the first few
centimeters of the liquid (Ben Amotz & Avron,
[15]). This is the case because the paddle-wheel type
of mixer, usually requires a minimum amount of
liquid height in order to obtain good mixing. This
means that the ratio of the volume of the liquid in
the pond to the irradiation area of the pond is 300
L/m2
. The sleeve-type photoreactor also competes
favorably with pond-type reactors, and a sleeve of
10 cm diameter and 1 m length has a hold-up of 7.85
L and an area for irradiation of 0.16 which is 49
L/m2
of irradiation area.
Figure 1: The riser and the downcomer in an
airlift reactor.
Figure 2: A typical multi-channel airlift
photobioreactor.
3. D. Wolf. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -1) April 2017, pp.64-74
www.ijera.com DOI: 10.9790/9622-0704016474 66 | P a g e
The next comparison would be the amount
of irradiation that can be obtained from one square
meter of land, by the pond-method and by the
proposed photobioreactor. Irradiation for one square
meter of pond area is, of course, one square meter,
and a hold-up of 300 liter. Assuming that we only
place two reactors per square meter of land, each
two meters high, one meter wide and 5 cm dip, the
irradiation area would be 8 m2
(2 m2
on each side of
the reactors), with a liquid holdup of 200 L, which is
25 L/m2
of irradiated area. Of course different
dimensions of our reactor would give different
volumes per square meter of irradiation area but yet
competitive with the other photoreactors.
III. DESCRIPTION OF THE MULTI-
CHANNEL AIRLIFT
PHOTOBIOREACTOR
The experimental photobioreactor used is
of the airlift type with multiple channels and flow
loops and a large ratio of irradiation area per
medium volume. This multi-channel airlift
photobioreactor was constructed of parallel and
transparent plastic sheets, connected by partitions at
equal distances, forming a honeycomb pattern, as
shown in Fig. 3.
This unit is constructed of three parts: the panel, the
base, and the separator. The main part, which is the
panel, is commercially available. These panels can
be obtained in different shapes and sizes or can be
fabricated according to any desired specification.
These were among the incentives to develop such a
photobioreactor. Two types of reactors were built
and tested. Type A has two parallel plates of
transparent plastic with partitions between them and
the flow in the risers and downcomers are in the
same plane. Type B has three parallel plates with
partitions between every two plates so that one can
design the risers and downcomers in a variety of
ways. The concept of the multi-channel airlift
photobioreactor and the types tested is shown
schematically in Figure 4.
The lower part of the reactor, the base, is a manifold
connecting all the channels of the airlift
photobioreactor is shown in figure 5.
Figure 3: Schematic of the photobioreactor with
two rows of channels.
(1) Air inlet enriched with CO2. (2) Gas
bubbling in the riser. (3) Riser. (4) Downcomer.
(5) Gas separator. (6) Medium nutrients and
algae. (7) Gas outlet. (8) Separating plate.
Figure 4: Schematic of the multi-loop air-
lift reactor.
4. D. Wolf. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -1) April 2017, pp.64-74
www.ijera.com DOI: 10.9790/9622-0704016474 67 | P a g e
Another “manifold” is the separator, which
separates the gases from the liquids or slurries.
Perforated pipes inserted in the base i.e. a gas
distributor manifold along the lower part of the wall
of the reactor serve as air spargers for the airlift
risers. The configuration of the holes in the pipes or
gas distributor manifold, determines which channels
are risers and which are downcomers. The number
of holes also determine the ratio of risers to
downcomers. The ratio of 1:1 that we presently used
is not necessarily the optimum condition, and the
multi-channel airlift photobioreactor can change this
ratio based on the requirements of the mixture and
the mass transfer conditions of the system. The
height of the photobioreactor can vary and depends
on the properties of the fluids used in the reactor.
For example, for high viscosities, densities or
concentrations of solid particles, the optimum height
may be different that for lower viscosities, densities,
or concentrations of solid particles. These physical
properties may also affect the desired ratio between
the number of risers and downcomers in the
photobioreactor. Ports for inlet and outlet flow are
either at the base, at the separator, or at both ends.
Heating and cooling elements can be added for
proper temperature control.
The need for temperature control is because
in systems that depend on solar radiation, reactions
are slower in the morning until the temperature of
the medium rises to the proper temperature and
irradiation increases. Later in the day, the system
may need cooling if the temperatures are too high, or
heating when the sun goes down and cooling occurs.
Similar reasoning could be when there are season
changes. A heat exchanger installed in the separator
can supply appropriate temperature control and thus
increase production efficiency.
The operation of a multi-channel airlift
photobioreactor starts by feeding air first into the
reactor at a low flow rate, and then the nutrient
medium is slowly added. The liquid in the separator
is maintained at a level that minimizes the
entrainment of bubbles in the downcomers. The air
should pass through a humidifier to avoid excessive
evaporation from the reactor by the air stream.
Distilled water is added using a liquid level control
system that maintains the fluid in the reactor at a
constant level. A filter on the air line is used to
eliminate dust, microbes and oil droplets from the
air. A stream of CO2 is added to the stream of air in
order to increase CO2 concentration and thus
increase the reaction rate.
In order to use the multi-channel airlift
bioreactor for photosynthetic reactions, the reactor
should be constructed of transparent materials. Glass
would be the obvious choice, but its cost and
fragility work in favor of transparent plastic
materials. Plastic materials that can be used are all
available on the market and have no unfavorable
effects on the biological material in the reactor. Also
the light transmissivity, or resistivity to UV radiation
can be selected on the cost basis only.
Reactor development
The first stage in this work was the reactor
development. Four types of multi-channel airlift
photobioreactors were designed, constructed, and
installed in our laboratory in order to test the
technical feasibility of these types of reactors.
IV. EXPERIMENTAL
4.1 Reactor with one row of channels in series –
REC1
REC 1, the first reactor to be tested, had
one row of serial-attached channels, that is, all
channels were on the same plane, with one riser for
every two neighboring downcomers. Reactor
dimensions were 40 cm L (length), 35 cm H (high),
and 0.7 cm W (width). Of the total 57 channels, 19
were risers and 30 were downcomers. Channel
dimensions were 0.7 by 0.7 cm. The separator was 5
cm high, 1.5 cm wide, and 45 cm long. The active
holdup of this reactor, including the separator, was
830 ml.
In the lower manifold, needles were
inserted into the risers for gas supply and each
needle had a two-way valve, thus enabling the gas
flow to strop if the riser was to be changed to a
downcomer. This arrangement enabled us to change
the ratio of risers and downcomers at will.
However, this type of gas inlet proved to be
cumbersome in design and operation, and was not
justified at this stage of the research and
development. Therefore, a second type of reactor
was designed and constructed.
4.2. Reactor with two rows of serial-attached
channels – REC2
The second reactor tested, REC2, was
constructed of two rows of serial-attached channels,
as shown in Figure 3. This reactor, which was 47 cm
long, had two rows of 23 channels each. The
dimensions of each channel were 0.7 by 2.0 cm. The
height of the reactor was 48.0 cm. In the lower
manifold there was a stainless steel perforated pipe
beneath the row of channels that were risers. The
second row of channels was designated as the
downcomers. The gas separator was 12 cm high, 5.3
cm wide, and 57 cm long. Normally, the liquid level
in the separator was approximately 6 cm. The total
liquid holdup under normal operating conditions was
4 L.
4.3. Reactor with two rows of serial-attached
channels – REC3
A third reactor, REC3, was constructed with the
same structure as REC2 but was 48.0 cm long, 67
5. D. Wolf. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -1) April 2017, pp.64-74
www.ijera.com DOI: 10.9790/9622-0704016474 68 | P a g e
cm high, and had two rows of 24 channels each.
The separator was 12.5 cm high, 8 cm wide, and 59
cm long. These changes made the holdup of the
reactor at operating conditions to be 8 L.
REC3 also had a perforated pipe for the air flow into
the risers but it was made of PVC. Due to the
flexibility of the pipe, it was not stable and was
replaced by a stainless steel pipe.
4.4. Reactor with two rows of serial-attached
channels – REC4
After gaining experience with the three
previously described reactors, an improved type of
reactor, REC4, was constructed and finally adopted
for this R&D work. The channels have the same
dimensions as REC2 and REC3. The width of the
reactor is 48.8 cm, the height is 57 cm, with 24
channels per row. The separator is 13 cm high, 65
cm long, and 9.7 cm wide. The main modification in
this reactor was the air inlet system. A manifold was
attached on the side of the channels designated as
risers, approximately 10 cm from the bottom, and
small holes were drilled into the wall of the risers.
This type of air supply system proved to be simpler
in construction and more reliable in operation. This
type of system is schematically shown in Figure 4.
4.5. Light sources
Three types of light sources of varying
density and number of bulbs were prepared. The first
light source, Sun 1, was constructed of 4 bulbs and
was suitable for REC1 and REC2. The bulbs were
Osram daylight-type cool-white fluorescent lamps
and were 20W each. The second light source, Sun 2,
was constructed of 8 bulbs and was suitable for all
the reactors, and had the same light intensity per unit
area as Sun 1. The third light source built so far was
Sun 3, which was constructed of 16 bulbs and thus
the light intensity was per unit area of light source.
The bulbs were of the same type as those used in
Sun 1 and Sun 2.
4.6. Shake-down experiments
In the shake-down operation stage, several
experiments were conducted to test the operability of
the multi-channel airlift system and its ability to
serve as a photobioreactor in the process of growing
algae. In the shake-down stage, all experiments
involved growing Porphyridium in an artificial sea-
water medium. Air was supplied to the system using
a rotameter with a maximum flow rate of 136
cc/min.
In these preliminary experiments, we used
reactor REC1 and light source Sun 1. The
experiments were conducted without the addition of
CO2 and thus pH increased from around 7 to around
9, except when contamination occurred and pH
decreased to around 6.0. The experiments were
frequently terminated due to various technical
issues.
An appropriate flow rate of air had to be
found so that the algae would not settle due to a low
flow rate of air and prevent excessive foaming
caused by a large flow rate of air.
Even during these preliminary experiments,
significant growth of algae was obtained as well as
polysaccharide production. The dissolved
polysaccharide was between 0.4-0.6 mg/ml, with a
production rate of 0.05 mg/ml per day. However,
contamination was also encountered in several
experiments, and the significance of sterile operating
conditions was determined. Sterilization was
achieved by circulating a mixture of 70 wt. %
alcohol and 30 wt. % water through the system for
about 24 hours, and then rinsing three times with
distilled and sterilized water.
These experiments, with low light intensity
and no addition of CO2, already demonstrated the
potential of this type of reactor. However, since the
effect of increased light intensity on the growth of
algae and polysaccharides is very significant,
another set of experiments were conducted with high
light intensity and addition and CO2. Reactor REC2
was constructed and used in this new series of
experiments. A rotameter with a maximum flow rate
of 21 ml/min was also used to control the CO2 flow
rate. During the winter season, a heating element
was inserted into the separator to control the
temperature at 25o
C. Porphyridium Sp. with artificial
sea water (ASW) was used once again as the
medium, and prepared according to Jones et al. [16].
Before any experimental run, the reactor
was cleaned and then filled with ASW to the
appropriate level to allow the addition of inoculum
before the final level in the separator was achieved.
Daily measurements of temperature, pH, light
transparency, and cell counts were performed. The
initial cell concentration was prepared in the range
of 2-3x106
cells/ml. Samples were also taken to
determine the polysaccharides in the medium and
the cells.
The results of the shake-down experiments
proved the operability of the reactor, but several
problems emerged and required solutions. As the
production of the polysaccharides started, especially
in the stationary stage, foaming occurred in the
system. Addition of an antifoam reduced foaming
but also reduced the growth rate of the algae. Several
technical modifications were introduced in the exit
lines of the gas to prevent overflow of the foam and
the cells that were carried with the foam.
Sterile operating conditions were needed as
contamination was quite common. Several shake-
down runs were successful, and at their conclusion
we were ready to operate the reactor with
confidence. Cell concentration of 5x107
cells/ml or
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higher was achieved when the stationary phase was
reached. Addition of 200-300 ml of distilled water
per 24 hours was also required due to evaporation.
It was found that a good correlation exists between
the light transparency through the reactor and the
cell concentration in the reactor.
4.7. Experimental work
The reactors, its auxiliaries, and control
units were tested for proper operating conditions
until good operability was achieved. A diagram of
the experimental set-up was shown in Fig. 4. The
experiments were conducted with (a) Porphyridium
Sp. of type UTEX 637 [8]. Periodic tests were
conducted on the biomass, the secondary
metabolites, and the conditions of the nutrients.
The experimental work consisted in growing algae
in the photobioreactor and analyzing the results. Cell
counts were performed daily for the algae in order to
obtain the growth rate in this reactor.
Polysaccharides in the cells and in the medium were
analyzed. Light transmission through the reactor
walls were measured daily on the wall opposite the
light source. A Li-Cor light meter type Li-170 with
Li-200 S probe was used to measure light intensity.
Operating conditions were monitored and recorded.
Data were taken under various operating conditions.
Distilled water was always added to make up for
evaporation losses.
All experiments reported here were conducted in the
laboratory with artificial light supplied continuously,
24 hours a day.
Experiments with Porphyridium Sp. were conducted
in both, batch mode and continuous mode. The
inoculum of the Porphyridium into the
photobioreactor, which was prepared in a 300 ml
glass column of 6 cm in diameter, was calculated so
that the initial concentration was 2-4x106
cells/ml.
As noted above, the medium was ASE, prepared
according to Jones et al. [16]. Details on the
preparation of the medium and the analytical
procedures were obtained from Arad [17]. In each
case we added CO2 to the stream of air supplied to
the photobioreactor.
The cells were counted everyday using a
microscope. The stationary phase was achieved in
approximately 6 days. The quantity of
polysaccharides in cell walls and in the medium was
obtained using the method described by Adda et al.
[8]. Nitrate starvation affects the distribution of
polysaccharides between that which is bound to the
cell and that of the soluble fractions. Light intensity
was also measured. Finally, the amount of biomass
was determined.
4.8. Batch experiments
Two experiments were conducted in a batch
operating mode.
Cell counts and light transparencies of
Experiment 1 are given in Table 1. Light
transparency was measured as the light intensity on
the plane opposite to the plane where the light
impinged on the reactor. One bank of 8 lamps was
used as the light source (Sun 2). The experiment
lasted 9 days and the maximum number of cells
obtained after 7 days was 60.8x106 cells/ml.
Temperatures during the experiment fluctuated
between 21.5o
C to 26.5o
C, which is indeed the range
of its optimum temperatures [18] and pH ranged
from 6.8 to 7.9. A pH of 7.5 is considered to be the
optimum condition. The analytical results of the
sugars in the cells and in the medium are given in
Table 1.
The second experiment (No. 2) was conducted with
a double bank of irradiation lamps (Sun 2), one on
each side of the reactor. In all other respects,
operating conditions were identical to those in
Experiment 1. Temperatures ranged between 21.5o
C
and 27.0o
C, and pH ranged between 6.9 to 7.6. The
results are summarized in Table 2.
The second experiment (No. 2) was conducted with
a double bank of irradiation lamps (Sun 2), one on
each side of the reactor. In all other respects,
operating conditions were identical to those in
Experiment 1. Temperatures ranged between 21.5o
C
and 27.0o
C, and pH ranged between 6.9 to 7.6. The
results are summarized in Table 2.
Table 1: Results of Experiment 1: Batch-mode
Porphyridium growth
No. of
days
Counts
of algae
106
Light
intensity*
Watts/m2
Polysaccharides
mg/L
In
medium
In cells
1 3.6 30.4 - -
2 6.3 23.2 - -
3 10.2 10.4 0.16 0.30
4 24.2 2.0 - -
5 38.2 4.0 0.16 0.90
6 - - - -
7 60.8 2.2 0.27 1.55
8 58.9 2.2 - -
9 50.9 2.4 0.35 2.49
*Light intensity was measured at the wall of the
reactor opposite to the plane to which light was
applied. One bank of 8, aps was used. Temperatures
ranged between 21.50
C and 26.50
C, and pH ranged
between 6.8 to 7.9. CO2 was added to the gas
stream. The volume of the reactor was 7 L.
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4.9. Continuous mode
4.19 Continuous mode
Three experiments were conducted in a
continuous operating mode. Experiment 3 was
conducted with a double bank of light (Sun 2) and in
a continuous mode. In this mode a certain amount of
medium and the cells it contained was removed,
daily and fresh medium was added to the reactor.
Temperatures ranged between 24.0o
C and 29.0o
C,
and pH ranged between 6.7 to 7.3.The results
obtained are summarized in Table 3.
It is evident that a very high concentration
of cells was achieved for quite some time. However,
polysaccharide concentrations were much lower than
those obtained in the batch-mode experiments.
Experiment 4 was conducted with the same
operating conditions as experiment 3, with the
exception of only using one bank of lights with
double intensity (Sun 3). Temperatures ranged
between 23.0o
C and 29.5o
C, and pH ranged between
7.1 to 7.5. Results are summarized in Table 4.
Experiment 5 was conducted using regular
light (Sun 2). Temperatures ranged between 21.0o
C
and 28.5o
C, and pH ranged from 6.5 to 7.4. Results
are given in Table 5.
V. MIXING AND GAS HOLDUP
Mixing conditions and gas holdup for
REC1 were studied. The mixing aspect involved
flow rates in the downcomers, and time of dispersion
in the reactor. Flow rates were obtained by
measuring the time required for a small plastic ball
to pass through the downcomer. Dispersion time was
obtained by measuring light transparency at three
sites on the reactor wall between the injection of a
colored tracer and until a constant reading was
obtained. Liquid velocity in the downcomer was
found to be in the range of 10-20 cm/sec for a
superficial gas velocity in the riser between 30 and
300 cm/sec.
An approximate equation for the superficial
gas velocity Vsa in the riser and the liquid velocity in
the downcomer Vdl is:
Vdl = 3.36 xVsa0.315 (1)
Typical example of the dispersion time can be seen
in Fig. 6.
After approximately 250 sec, the system
was uniform and light transmission at all sites was
constant. Light transmission at these sites differed
because the basic transmission at each differed due
to non-uniformity of the material of the reactor’s
construction. Dispersion time is a function of the
superficial gas velocity in the riser Vsa and it drops
as Vsa increases, as shown in Figure 7.
Table 2: Results of Experiment 2: Batch-mode
Porphyridium growth.
No. of
days
Counts
of algae
106
Light
intensity*
Watts/m2
Polysaccharides
mg/L
In
medium
In cells
1 2.1 52.0 0.07 0.24
2 4.6 48.0 - -
3 18.4 37.2 0.11 0.26
4 - - - -
5 48.4 10.5 0.03 0.60
6 68.9 5.6 - -
7 58.2 5.0 0.11 2.93
8 67.5 5.0 0.23 3.82
*Double light. Temperatures ranged between 21.50
C and
27.00
C, and pH ranged between 6.9 to 7.9. CO2 was added
to the gas stream. The volume of the reactor was 7 L.
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The cumulative residence time distributions F(t) in
this reactor in the continuous operating model for
several flow rates are shown in Figure 8.
Table 3: Results of Experiment 3: Continuous-mode Porphyridium growth
No. of days Counts of algae 106
Medium
changed, L.
Light intensity* Watts/m2
Polysaccharides mg/L
Before product
taken
After product
taken
In medium In cells
1 2.3 70.0 - -
2 4.0 58.0 0.13 0.26
3 17.2 25.0 - -
4 50.1 7.2 0.13 0.26
5 78.9 5.6 - -
6 75.6 56.1 2 5.0 7.4 0.13 0.28
7 - - - - - - -
8 135.8 102.4 1+0.80* 4.8 6.0 0.26 0.54
9 132.2 97.7 1+0.20 6.4 7.2 0.26 0.54
10 154.4 100.2 1+0.60 6.6 8.6 0.27 0.55
11 134.4 108.3 1+0.40 7.4 9.0 0.26 0.54
12 141.5 112.6 1+0.25 7.4 9.2 0.26 0.53
13 147.2 90.7 2+0.20 6.2 9.2 0.26 0.53
14 - - - - - - -
15 125.0 104.1 1+0.20 5.8 6.4 0.26 0.54
16 105.5 67.9 1+0.350 5.8 6.8 0.26 0.54
17 123.5 69.4 1+0.20 5.8 6.8 0.26 0.54
18 89.8 63.6 2+0.10 3.8 8.0 0.26 0.53
*Amount of distilled water added to make up for evaporation losses.
**Double light. Temperatures ranged between 24.0
o
C and 29.0
o
C, and pH ranged between 6.7 to 7.3
Table 4: Results of Experiment 4: Continuous-mode Porphyridium growth
No. of days Counts of algae 106
Medium
changed, L.
Light intensity* Watts/m2
Polysaccharides mg/L
Before product
taken
After product
taken
In medium In cells
1 1.8 - - 82.0 - -
2 13.0 - 0.60** 56.0 0.11 0.54
3 19.6 - 0.90 44.0 - -
4 14.8 - 0.70 40.0 0.24 0.86
5 - - - - - -
6 44.8 - 0.90 12.8 0.23 1.00
7 32.2 - 0.90 11.2 - -
8 30.0 - 0.45 10.0 0.30 1.88
9 35.8 - 0.60 9.6 0.31 2.11
10 32.7 - 0.40 7.0 - -2.88
11 51.7 - 0.20 5.4 0.93 3.34
12 - - - - - -
13 66.6 43.6 2+0.88 7.6 11.8 1.43 5.50
14 75.4 54.2 2+0.4 9.4 13.4 2.13 2.82
15 73.4 - - 8.2 2.6 2.2
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An analysis of the results using the Wolf
and Resnick model [19] shows a significant lag in
the response with ε = 0.5 and η = 1.5. The flow rates
in the downcomer are not different in batch mode
and continuous mode operation. The holdup of gas
in the reactor was measured by a step change in the
gas supply and by measuring the difference in the
liquid level with and without the flow of air. The
holdup as a function of superficial gas velocity is
seen in Figure 9.
Table 5: Results of Experiment 5: Continuous-mode Porphyridium growth
No. of
days
Counts of algae 106
Medium
changed,
L.
Light intensity*
Watts/m2
Polysaccharides mg/L
Before
product
taken
After
product
taken
In medium In cells
1 1.5 - - 80.0 - - -
2 1.4 - - 76.0 - - -
3 12.1 - 0.70 52.0 - 0.15 0.57
4 - - -
5 60.4 - 0.55 8.2 - 0.16 1.06
6 61.9 - 1.00 7.0 -
7 41.0 - 0.55 7.2 - 0.27 2.6
8 48.0 28.8 2+0 7.2 10.2 - -
9 84.7 54.4 2+0.55 8.0 10.6 1.14 3.09
10 99.4 44.3 2+0.70 7.2 11.2 1.01 4.53
11 - - - - - - -
12 114.4 105.4 2+0.45 6.4 10.0 1.08 3.15
13 116.0 102.2 2+0.40 6.4 7.0 1.32 2.77
14 100.4 40.4 2+0.55 7.6 10.4 1.16 2.55
15 85.4 63.7 3+0 6.4 10.2 0.81 2.15
16 68.6 - 0.60 6.6 - 0.82 1.81
17 76.9 39.0 3+0.30 5.2 8.0 1.07 2.62
18 - - - - - - -
19 129.2 - - 6.0 - 1.03 2.71
* Regular light
**Amount of distilled water added to make up for evaporation losses.
Temperatures ranged between 23-29 o
C
Figure 9: Gas holdup as a function of superficial
gas velocity in reactor Rec1.
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VI. CONCLUSIONS
The multi-channel airlift reactor that we
described and tested proved its applicability as an
efficient photobioreactor. Therefore future studies
are warranted on reactor performance and
optimization of the reactor design, on such aspects
as dimensions of channels and the reactor itself,
number of risers and downcomers, gas flow rates,
and liquid recirculation rates. Several problems
remain to be resolved such as the frequent
contamination of the Porphyridium and foam
formation when polysaccharides are produced.
To obtain engineering specifications for the
design, the scale-up, and the economic analysis of
such a unit operation, the system should be tested
outdoors, in real operating conditions of solar
radiation, normal and controlled weather conditions,
and on a pilot scale. This type of photobioreactor is
attractive and industrially promising in view of its
good mixing, enhanced mass transfer of CO2 into the
liquid, efficient removal of excess oxygen produced
during photosynthesis, low shear rates achieved with
the airlift principle, high efficiency of radiation
absorption due to the narrow channels in the
photobioreactor, the high ratio of exposed surface
area to reactor volume, and the advantages of a
closed system.
ACKNOWLEDGEMENTS
We express our sincere thanks to the
Ministry of Science for the financial support of this
R&D project. We also wish to thank Engineers S.
Glazer and Z. Ben Shaul for in performing the
experimental work. The assistance of the students,
M. Zedaka, A. Avigdor, E. Eshel and I Danon is
greatly appreciated. Special thanks are extended to
Prof. S. Arad and Prof, J. Merchuk.
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