Weiber supplies incubator which will accommodate Ostrich egg. The temperature is totally microprocessor P.I.D.
controlled for accurate temperature rating unit is provided with manual tilting device, so as to tilt the tray holding the
eggs.
The document describes Drosophila incubators that use Peltier technology for energy efficient cooling. They have day/night controls and LED lighting to provide an optimal environment for Drosophila cultures. The cabinets use mechanical convection for even air distribution. A programmable controller and over-temperature control ensure a safe environment. The thermoelectric cooling uses less power than compressor models and provides uniform temperatures. The incubators come with a two-year warranty and meet global standards.
Weiber Dew Chambers employ the most recent technology to simulate the actions of the natural elements
commonly required for pathology research studies.
The Programmable Multipurpose shaking incubator is a excellent multipurpose incubator which offers a wide area
of usage in yeast cultures, bacteria cultures, egg hatching, hybridization washes, entomology studies, mixing,
metabolism and solubility study and varied laboratory applications requiring incubation as well as shaking tests and
procedures in variety of research and testing laboratories.
The Less Noise Shaking Incubator is designed for applications in fermentation studies, enzyme reactions, and life science research that require precise noise control and shaking. It produces less than 65db of noise using a brushless motor that provides a vibration-free environment with no maintenance. The incubator offers economical and general purpose shaking for laboratories. It has features like a digital display, retractable platform, variable plate and flask support, timer, and safety devices. The temperature range is 15-60°C and the speed range is 10-350 RPM.
The document discusses a solar spectrum test chamber manufactured by Weiber Technologies PVT. Ltd. that simulates natural sunlight. The chamber allows testing of materials under controlled environmental conditions to determine the effects of solar radiation and degradation from UV light. It uses metal halide lamps to simulate sunlight across different wavelengths and concentrations, and can precisely control temperature, humidity, and irradiation levels during testing. Custom configurations are available depending on specific testing needs.
Weiber Incubator Shaking is a excellent multipurpose incubator which offers a wide area of usage in bacteria
cultures, yeast cultures, entomology studies, egg hatching, hybridization washes, mixing, metabolism and
solubility study and varied laboratory applications requiring incubation as well as shaking tests and procedures in
variety of research and testing laboratories.
Weiber Vacuum Ovens have excellent Uniformity for drying and heating under carefully controlled
conditions from atmospheric pressure to Vacuum upto 30” Hg.
The Plant Tissue Culture Chamber is specifically designed for tissue culture research. Weiber employs the
use of patented lamp banks which require less energy and radiate less energy.
The document describes Drosophila incubators that use Peltier technology for energy efficient cooling. They have day/night controls and LED lighting to provide an optimal environment for Drosophila cultures. The cabinets use mechanical convection for even air distribution. A programmable controller and over-temperature control ensure a safe environment. The thermoelectric cooling uses less power than compressor models and provides uniform temperatures. The incubators come with a two-year warranty and meet global standards.
Weiber Dew Chambers employ the most recent technology to simulate the actions of the natural elements
commonly required for pathology research studies.
The Programmable Multipurpose shaking incubator is a excellent multipurpose incubator which offers a wide area
of usage in yeast cultures, bacteria cultures, egg hatching, hybridization washes, entomology studies, mixing,
metabolism and solubility study and varied laboratory applications requiring incubation as well as shaking tests and
procedures in variety of research and testing laboratories.
The Less Noise Shaking Incubator is designed for applications in fermentation studies, enzyme reactions, and life science research that require precise noise control and shaking. It produces less than 65db of noise using a brushless motor that provides a vibration-free environment with no maintenance. The incubator offers economical and general purpose shaking for laboratories. It has features like a digital display, retractable platform, variable plate and flask support, timer, and safety devices. The temperature range is 15-60°C and the speed range is 10-350 RPM.
The document discusses a solar spectrum test chamber manufactured by Weiber Technologies PVT. Ltd. that simulates natural sunlight. The chamber allows testing of materials under controlled environmental conditions to determine the effects of solar radiation and degradation from UV light. It uses metal halide lamps to simulate sunlight across different wavelengths and concentrations, and can precisely control temperature, humidity, and irradiation levels during testing. Custom configurations are available depending on specific testing needs.
Weiber Incubator Shaking is a excellent multipurpose incubator which offers a wide area of usage in bacteria
cultures, yeast cultures, entomology studies, egg hatching, hybridization washes, mixing, metabolism and
solubility study and varied laboratory applications requiring incubation as well as shaking tests and procedures in
variety of research and testing laboratories.
Weiber Vacuum Ovens have excellent Uniformity for drying and heating under carefully controlled
conditions from atmospheric pressure to Vacuum upto 30” Hg.
The Plant Tissue Culture Chamber is specifically designed for tissue culture research. Weiber employs the
use of patented lamp banks which require less energy and radiate less energy.
Weiber Tray Drying Chambers are convectional heated units suitable for drying powders, granules and many
other materials which are loaded in trays and placed inside the chamber and then material is dried using gas
circulation method.
Acmas Technocracy offers unique and supreme quality drying test chambers in the industry. Our equipment has fully adjustable digital temperature controller accurately that maintains optimum drying temperature.
The Hybridization Incubator manufactured by Weiber is an ideal laboratory instrument for hybridization of transfer membranes used in Southern and Northern blotting techniques.
Hen Egg Incubator is a smart hatching control syste designed by Weiber, depending on the technological
advantages in computer network and power control equipment, under the guidance of animal husbandry expert,
combined with the reality of hatching industry and the experience of research personnel in development and
production of hatching equipments.
This document describes a mortuary chamber manufactured by Technologies Pvt. Ltd. The mortuary chamber is designed for long-term storage of human remains under hygienic and cool conditions. It has corrosion-free components and advanced insulation to maintain temperatures between 2-8 degrees Celsius. The chamber has sturdy construction, is energy efficient, and has features like temperature control and alarms.
Weiber Computer Control Vibrating Test Chambers offer rapid temperature change rates with
combined temperature, humidity, and or vibration environments. All models are designed for
compatibility with your choice of electrodynamic or mechanical vibration systems.
Weiber Technologies manufactures customized humidity test chambers that precisely control humidity between 20-98% RH at temperatures from 10°C to 65°C. The chambers test materials, components, and assemblies in industries like manufacturing and biotechnology. The chambers store laboratory samples and precisely test materials. They feature a programmable PID controller, graphical display, data logging software, and ISO certification.
Automobile signal test chamber is used to evaluate the
performance of products through simulate dynamic
operation for test materials exposed to varied intensity
of rain.
This document describes a programmable large size shaking incubator. It has a temperature range of 10-60°C, speeds of 10-350 RPM, and programmable temperature and timer functions. The incubator uses a brushless DC motor and PID controller to precisely control shaking and temperature for growing bacteria, yeast, and other cells.
Weiber Incubator Shaking is a excellent multipurpose incubator which offers a wide area of usage in
bacteria cultures, yeast cultures, entomology studies, egg hatching, hybridization washes, mixing,
metabolism and solubility study and varied laboratory applications requiring incubation as well as shaking
tests and procedures in variety of research and testing laboratories.
Achieve reliability and accuracy every time with our diverse selection of shaking incubators suitable for any application. Get guaranteed top-tier results!For more details visit www.labozon.com
Weiber manufactures Industrial Batch ovens for applications where load size or production volumes vary substantially, batch processing is the optimal solution. Batch oven has been designed to accommodate a variety of load sizes and production volumes. For More Information Please Logon http://goo.gl/HIN26F
This document provides an overview of different types of ovens manufactured by Sheldon Manufacturing, including vacuum ovens, hybridization ovens, horizontal airflow ovens, forced air ovens, cleanroom ovens, and gravity ovens. It describes the key features and specifications of different models within each oven type. Sheldon Manufacturing is an ISO certified manufacturer of laboratory equipment, including ovens, incubators, water baths, and more for industries like life sciences and biomedical.
Weiber Tray Drying Chambers are convectional heated units suitable for drying powders, granules and many
other materials which are loaded in trays and placed inside the chamber and then material is dried using gas
circulation method.
Acmas Technocracy offers unique and supreme quality drying test chambers in the industry. Our equipment has fully adjustable digital temperature controller accurately that maintains optimum drying temperature.
The Hybridization Incubator manufactured by Weiber is an ideal laboratory instrument for hybridization of transfer membranes used in Southern and Northern blotting techniques.
Hen Egg Incubator is a smart hatching control syste designed by Weiber, depending on the technological
advantages in computer network and power control equipment, under the guidance of animal husbandry expert,
combined with the reality of hatching industry and the experience of research personnel in development and
production of hatching equipments.
This document describes a mortuary chamber manufactured by Technologies Pvt. Ltd. The mortuary chamber is designed for long-term storage of human remains under hygienic and cool conditions. It has corrosion-free components and advanced insulation to maintain temperatures between 2-8 degrees Celsius. The chamber has sturdy construction, is energy efficient, and has features like temperature control and alarms.
Weiber Computer Control Vibrating Test Chambers offer rapid temperature change rates with
combined temperature, humidity, and or vibration environments. All models are designed for
compatibility with your choice of electrodynamic or mechanical vibration systems.
Weiber Technologies manufactures customized humidity test chambers that precisely control humidity between 20-98% RH at temperatures from 10°C to 65°C. The chambers test materials, components, and assemblies in industries like manufacturing and biotechnology. The chambers store laboratory samples and precisely test materials. They feature a programmable PID controller, graphical display, data logging software, and ISO certification.
Automobile signal test chamber is used to evaluate the
performance of products through simulate dynamic
operation for test materials exposed to varied intensity
of rain.
This document describes a programmable large size shaking incubator. It has a temperature range of 10-60°C, speeds of 10-350 RPM, and programmable temperature and timer functions. The incubator uses a brushless DC motor and PID controller to precisely control shaking and temperature for growing bacteria, yeast, and other cells.
Weiber Incubator Shaking is a excellent multipurpose incubator which offers a wide area of usage in
bacteria cultures, yeast cultures, entomology studies, egg hatching, hybridization washes, mixing,
metabolism and solubility study and varied laboratory applications requiring incubation as well as shaking
tests and procedures in variety of research and testing laboratories.
Achieve reliability and accuracy every time with our diverse selection of shaking incubators suitable for any application. Get guaranteed top-tier results!For more details visit www.labozon.com
Weiber manufactures Industrial Batch ovens for applications where load size or production volumes vary substantially, batch processing is the optimal solution. Batch oven has been designed to accommodate a variety of load sizes and production volumes. For More Information Please Logon http://goo.gl/HIN26F
This document provides an overview of different types of ovens manufactured by Sheldon Manufacturing, including vacuum ovens, hybridization ovens, horizontal airflow ovens, forced air ovens, cleanroom ovens, and gravity ovens. It describes the key features and specifications of different models within each oven type. Sheldon Manufacturing is an ISO certified manufacturer of laboratory equipment, including ovens, incubators, water baths, and more for industries like life sciences and biomedical.
Types of incubators parts and their operationsAshiq Toor
This document discusses different types of incubators and their operations. It describes still air incubators which do not have fans and forced air incubators which circulate air using internal fans. It also discusses basic incubators, advanced incubators, cabinet incubators, and multi-setting incubators. Multi-setting incubators provide different environmental conditions for different egg development stages. The document focuses on the Chick Master incubator system as an example and describes its laminar air flow system and multi-zone controls.
CONSTANT TEMPERATURE HUMIDITY TEST CHAMBERacmasindia
WEIBER constant temperature humidity test creates
physiologically ideal surroundings for the perfect
environment stimulation in building physics and has wide
range of applications in material research, electronics,
physics, zoology and botany.
The document describes Jamesway's Platinum 2.0 line of single-stage incubators and hatchers. It provides details on 5 incubator and 3 hatcher models of varying sizes and capacities. The incubators and hatchers use built-in technology to automatically control temperature, humidity, and other factors. They aim to increase efficiency and hatchability while reducing energy costs and maintenance needs. The line can be upgraded with various optional accessories. Jamesway also offers expert planning, design, installation, and after-sales support services to ensure customers have a worry-free hatchery.
Incubation is the act of bringing an egg to hatching. It refers to the process by which certain oviparous ( egg-laying) animals (birds) hatch their egg. It also refers to the development of an embryo within the egg under favourable environmental condition. Incubating chicken eggs is a 21- days process and demands favourable conditions of principal affecting factors like temperature, humidity etc., Incubation may be of two different types: 1. Natural Incubation 2. Artificial Incubation
This document contains information about several autoclave and sterilization equipment models:
1. The SR-Series are swing-hinged autoclaves that can sterilize hollow instruments and have programmable cycles.
2. The Saturn TAT-202B autoclave has optional vacuum and drying functions, uses high quality components, and has a residual vapor percentage of less than 0.2%.
3. The SV-Series are large volume, vertical-sliding autoclaves that can flash sterilize open instruments in 3 minutes and wrapped items in 10 minutes.
The Forced Convection Oven is specially designed to save the time of heating.The temperature inside Forced
Convection Oven is controlled either though hydraulic type thermostat or with digital controller or microprocessor based temperature controller cum indicators to achieve maximum accuracy.
Weiber Shelf Oven provides large work space at low cost. The equipment is ideal for shelf processing applications such as baking, drying, curing and preheating at temperatures up to 550 F.
This document describes a seed germination chamber manufactured by Technocracy Pvt. Ltd. The chamber controls temperature, humidity, and light to provide optimal conditions for seed germination. It has a double-walled stainless steel interior and exterior with polyurethane foam insulation. Temperature is controlled between 5-60 degrees Celsius using heaters and refrigeration, while humidity is maintained between 90-96% using a steam humidifier. The chamber is designed for germinating seeds as well as other applications requiring environmental control like plant, tissue, and microorganism testing.
We are manufacturers of seed germinators in India since
more than two decades. Our equipments are
conceptualized and designed to conduct various
experiments on the germination of seeds in different
controlled environmental conditions. All the crucial
environmental parameters such as temperature, humidity
and illumination are precisely controlled in our seed
germinators by means of a advanced micro-processor
based technology thus creating a nearly perfect and
accurate environmental conditions for any given
germination study, which yields highly accurate data. This
data translates into excellent and accurate findings in any
given research studiy. Beside the research based seed
germinator, we are also manufacturing very economical
commercial grade seed germinators, which are commonly
used as sprouters in various agro-based industries and
tissue culture industries.
Roller Bottle Incubator is a compact design, economical CO2 incubator system designed to hold roller bottle apparatus.
Features 5 to 60°C temperature range, 0 to 20 % CO2 concentration range, 1 to 80 rpm bottle rolling speed range.
Designed as hollow glass door unit with mirror-finished stainless steel interior chamber. The uniform temperature is
maintained through forced air circulation technology. Alarm as a warning sign functions for over temperature, abnormal
temperature sensor, independent overheating protection, CO2 concentration dropdown.
This document describes a seed germination chamber. It has a double-walled stainless steel interior and exterior with polyurethane foam insulation. It controls temperature from 5-60°C, humidity from 90-96% RH, and has fans for air circulation. The chamber is used to germinate seeds and support plant, tissue, and microorganism experiments by providing an optimized environment.
Weiber Incubator Shaking is a excellent multipurpose incubator which offers a wide area of usage in bacteria
cultures, yeast cultures, entomology studies, egg hatching, hybridization washes, mixing, metabolism and
solubility study and varied laboratory applications requiring incubation as well as shaking tests and procedures in
variety of research and testing laboratories.
The document describes a hybridization incubator manufactured by Technocracy Pvt. Ltd. It is designed to create ideal laboratory conditions for nucleic acid and protein hybridizations. It has precise temperature control between ±0.2°C maintained by a microprocessor and advanced ventilation. This eliminates the need for water baths and heat sealers. It is suitable for hybridization of transfer membranes used in techniques like Southern and Northern blotting.
We are manufacturers of Metabolic Shakers, Incubator shaker or orbital shakers in India since 1990. Our incubatorshakers are widely used for day to day bacteriological and varied laboratory applications requiring incubation aswell as shaking tests and procedures in variety of research and testing laboratories.For more information please log on http://cutt.us/3wtN
The binding of cosmological structures by massless topological defectsSérgio Sacani
Assuming spherical symmetry and weak field, it is shown that if one solves the Poisson equation or the Einstein field
equations sourced by a topological defect, i.e. a singularity of a very specific form, the result is a localized gravitational
field capable of driving flat rotation (i.e. Keplerian circular orbits at a constant speed for all radii) of test masses on a thin
spherical shell without any underlying mass. Moreover, a large-scale structure which exploits this solution by assembling
concentrically a number of such topological defects can establish a flat stellar or galactic rotation curve, and can also deflect
light in the same manner as an equipotential (isothermal) sphere. Thus, the need for dark matter or modified gravity theory is
mitigated, at least in part.
When I was asked to give a companion lecture in support of ‘The Philosophy of Science’ (https://shorturl.at/4pUXz) I decided not to walk through the detail of the many methodologies in order of use. Instead, I chose to employ a long standing, and ongoing, scientific development as an exemplar. And so, I chose the ever evolving story of Thermodynamics as a scientific investigation at its best.
Conducted over a period of >200 years, Thermodynamics R&D, and application, benefitted from the highest levels of professionalism, collaboration, and technical thoroughness. New layers of application, methodology, and practice were made possible by the progressive advance of technology. In turn, this has seen measurement and modelling accuracy continually improved at a micro and macro level.
Perhaps most importantly, Thermodynamics rapidly became a primary tool in the advance of applied science/engineering/technology, spanning micro-tech, to aerospace and cosmology. I can think of no better a story to illustrate the breadth of scientific methodologies and applications at their best.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
Describing and Interpreting an Immersive Learning Case with the Immersion Cub...Leonel Morgado
Current descriptions of immersive learning cases are often difficult or impossible to compare. This is due to a myriad of different options on what details to include, which aspects are relevant, and on the descriptive approaches employed. Also, these aspects often combine very specific details with more general guidelines or indicate intents and rationales without clarifying their implementation. In this paper we provide a method to describe immersive learning cases that is structured to enable comparisons, yet flexible enough to allow researchers and practitioners to decide which aspects to include. This method leverages a taxonomy that classifies educational aspects at three levels (uses, practices, and strategies) and then utilizes two frameworks, the Immersive Learning Brain and the Immersion Cube, to enable a structured description and interpretation of immersive learning cases. The method is then demonstrated on a published immersive learning case on training for wind turbine maintenance using virtual reality. Applying the method results in a structured artifact, the Immersive Learning Case Sheet, that tags the case with its proximal uses, practices, and strategies, and refines the free text case description to ensure that matching details are included. This contribution is thus a case description method in support of future comparative research of immersive learning cases. We then discuss how the resulting description and interpretation can be leveraged to change immersion learning cases, by enriching them (considering low-effort changes or additions) or innovating (exploring more challenging avenues of transformation). The method holds significant promise to support better-grounded research in immersive learning.
Immersive Learning That Works: Research Grounding and Paths ForwardLeonel Morgado
We will metaverse into the essence of immersive learning, into its three dimensions and conceptual models. This approach encompasses elements from teaching methodologies to social involvement, through organizational concerns and technologies. Challenging the perception of learning as knowledge transfer, we introduce a 'Uses, Practices & Strategies' model operationalized by the 'Immersive Learning Brain' and ‘Immersion Cube’ frameworks. This approach offers a comprehensive guide through the intricacies of immersive educational experiences and spotlighting research frontiers, along the immersion dimensions of system, narrative, and agency. Our discourse extends to stakeholders beyond the academic sphere, addressing the interests of technologists, instructional designers, and policymakers. We span various contexts, from formal education to organizational transformation to the new horizon of an AI-pervasive society. This keynote aims to unite the iLRN community in a collaborative journey towards a future where immersive learning research and practice coalesce, paving the way for innovative educational research and practice landscapes.
The use of Nauplii and metanauplii artemia in aquaculture (brine shrimp).pptxMAGOTI ERNEST
Although Artemia has been known to man for centuries, its use as a food for the culture of larval organisms apparently began only in the 1930s, when several investigators found that it made an excellent food for newly hatched fish larvae (Litvinenko et al., 2023). As aquaculture developed in the 1960s and ‘70s, the use of Artemia also became more widespread, due both to its convenience and to its nutritional value for larval organisms (Arenas-Pardo et al., 2024). The fact that Artemia dormant cysts can be stored for long periods in cans, and then used as an off-the-shelf food requiring only 24 h of incubation makes them the most convenient, least labor-intensive, live food available for aquaculture (Sorgeloos & Roubach, 2021). The nutritional value of Artemia, especially for marine organisms, is not constant, but varies both geographically and temporally. During the last decade, however, both the causes of Artemia nutritional variability and methods to improve poorquality Artemia have been identified (Loufi et al., 2024).
Brine shrimp (Artemia spp.) are used in marine aquaculture worldwide. Annually, more than 2,000 metric tons of dry cysts are used for cultivation of fish, crustacean, and shellfish larva. Brine shrimp are important to aquaculture because newly hatched brine shrimp nauplii (larvae) provide a food source for many fish fry (Mozanzadeh et al., 2021). Culture and harvesting of brine shrimp eggs represents another aspect of the aquaculture industry. Nauplii and metanauplii of Artemia, commonly known as brine shrimp, play a crucial role in aquaculture due to their nutritional value and suitability as live feed for many aquatic species, particularly in larval stages (Sorgeloos & Roubach, 2021).
Remote Sensing and Computational, Evolutionary, Supercomputing, and Intellige...University of Maribor
Slides from talk:
Aleš Zamuda: Remote Sensing and Computational, Evolutionary, Supercomputing, and Intelligent Systems.
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Inter-Society Networking Panel GRSS/MTT-S/CIS Panel Session: Promoting Connection and Cooperation
https://www.etran.rs/2024/en/home-english/
hematic appreciation test is a psychological assessment tool used to measure an individual's appreciation and understanding of specific themes or topics. This test helps to evaluate an individual's ability to connect different ideas and concepts within a given theme, as well as their overall comprehension and interpretation skills. The results of the test can provide valuable insights into an individual's cognitive abilities, creativity, and critical thinking skills
2. TECHNOLOGIES PVT. LTD.
Weiber supplies incubator which will accommodate Ostrich egg. The temperature is totally microprocessor P.I.D.
controlled for accurate temperature rating unit is provided with manual tilting device, so as to tilt the tray holding the
eggs.
Weiber Ostrich Egg Incubators is fully automatic with precise temperature and humidity control, and is labour
saving, with capacities to hatch highest number eggs per batch. Ostrich breeders are increasingly using state-of-
the-art hi-tech incubators; Research facilities have been set up to ensure profitable production. Usually, fresh air is
introduced into the incubator. The Incubator is equipped with multiple user-friendly functions, and more precise
control function, thus to achieve a better automatic hatching process. Weiber Incubator provides the simplest and
most cost effective method of humidity control. It ensures that the required humidity level is maintained, at specified
temperature all year round irrespective of the weather.
Weiber Egg incubator not only maintains the required humidity level but also ensures cleaner production
environment, as the unique desiccant provided in the dehumidifier, selectively filters out spores, bacteria and other
pathogens.
OSTRICH EGG INCUBATOR
R
3. TECHNOLOGIES PVT. LTD.
TECHNICAL SPECIFICATIONS
R
SALIENT FEATURES
Ÿ Latest-designed full-automatic Emu Egg Incubator
Ÿ Microcomputer full-automatic incubator
Ÿ Automatic Digital frequency controlling and displaying.
Ÿ Auto-alarming Auto-temperature, Auto- humidity and Auto-turning eggs and
ventilating system.
Ÿ Microcomputer full-automatic, can keep temperature within 6 hours blackout.
Ÿ Hatchability above 95% suitable for hatching emu eggs.
Ÿ Accuracy of control temperature: ≤±0.1°C.
Ÿ Full-automatic Poultry Egg Incubator.
Material Inner: SS-304 & Outer: Mild Steel
Lifetime 10 -15 Years
Color White
Temperature measuring range o o
5 C above ambient to 70 C
Temperature measuring accuracy ± 0.5 °C
Humidity Measuring Range / Accuracy (optional) Ambient to 95% / ± 5% RH
Humidity control accuracy ± 5% RH
Operating voltage AC 185V ~ 235V, 50HZ
Capacity
50 / 100 / 200 / 250 / 500 / 1000 / 2000 eggs (it can
be customized as per the customer requirement)
4. www.acmasindia.com | www.test-chambers.comwww.acmasglobal.com |
SALES OFFICE (HONG KONG)
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Sheung Wan, Hong Kong (PRC)
Tel.: 0086-13929598046 | 0086- 18922303099
E-mail.: hk@acmasindia.com
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E-mail.: info@acmasindia.com
Tel.: 0049- 79592345 | Email: russia@acmasindia.com
TECHNOLOGIES PVT. LTD.
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WHO: GMP Products | GLP Compliant Products
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Land Line No.: +91 - 11- 47619688,
Fax: +91-11-47619788
E-mail.: info@acmasindia.com