Documentation accompanying cooling units from a specific provider details operation, maintenance, and safety protocols. These guides typically include specifications, troubleshooting steps, and warranty information essential for users.
Proper use of this documentation ensures optimal performance, extends equipment lifespan, and minimizes potential risks associated with specialized refrigeration. Furthermore, adherence to the guidelines supports compliance with regulatory standards and facilitates efficient inventory management in research or medical settings.
The subsequent sections will elaborate on accessing the appropriate version, interpreting key sections, and implementing recommended practices to maximize the utility of this crucial resource.
1. Model identification
A researcher encountered a refrigeration unit displaying temperature inconsistencies. Initial attempts at recalibration proved futile. Frustration mounted, threatening the viability of critical samples stored within. Recalling a past training session, the researcher recognized the importance of precise equipment identification. Only upon locating the model number on the unit’s nameplate and consulting the corresponding “american biotech supply refrigerator manual” did the solution emerge. It revealed a specific sensor requiring replacement a detail absent from general troubleshooting guides. The correct component, ordered using the identified model, restored the refrigerator to its proper function, safeguarding the research.
This incident underscores the fundamental link between model verification and effective manual application. Variations, however subtle, exist even within a product line. Each iteration possesses unique maintenance protocols, calibration points, and component configurations. Without pinpointing the exact version, the information extracted risks being inaccurate, potentially compounding existing issues or initiating new complications. A similar instance involved a lab technician using a manual from a previous year’s model, leading to the incorrect installation of a replacement compressor. The unit failed within days, incurring unnecessary expenses and lost research time.
Therefore, the initial act of matching the unit’s model with the precise “american biotech supply refrigerator manual” serves as the keystone. This alignment ensures that every subsequent action – from routine maintenance to complex repair – is grounded in accurate data. Diligence in this step directly translates into increased equipment reliability, reduced downtime, and, ultimately, the preservation of scientific integrity. Failure to do so invites risk, uncertainty, and potential compromise of valuable research materials.
2. Safety guidelines
The weight of responsibility hung heavy in the air of the research lab. A cryogenic spill had occurred, releasing nitrogen vapor into the confined space. A junior researcher, eager to assist, rushed towards the malfunctioning unit. However, without consulting the “american biotech supply refrigerator manual,” specifically the ‘Safety guidelines’ section, the action was misguided. These guidelines outlined the appropriate Personal Protective Equipment (PPE) required when handling cryogenic spills: a face shield, insulated gloves, and a specialized respirator. The researcher, lacking this knowledge, inhaled a significant volume of nitrogen vapor, resulting in dizziness and disorientation. The consequence highlighted a fundamental truth: the manual’s safety section is not merely a suggestion, but a critical instruction set designed to prevent harm. The spill, contained by senior staff who understood the proper protocols detailed in the manual, could have resulted in far more severe injuries had others followed suit.
The ‘Safety guidelines’ represent a proactive measure, anticipating potential hazards associated with specialized refrigeration equipment. The refrigeration units often contain hazardous materials and operate under extreme temperature conditions, making them potentially dangerous if mishandled. These guidelines cover a broad spectrum of situations, from preventing electrical shocks during maintenance to safely handling refrigerant leaks. One particular incident involved a technician attempting to repair a refrigeration unit without disconnecting the power supply. The “american biotech supply refrigerator manual” explicitly warned against this practice, illustrating the risk of electrocution. Ignoring this warning led to a near-fatal incident, emphasizing the importance of meticulously following the manual’s instructions. Similarly, the proper disposal procedures for refrigerants, detailed in these guidelines, are critical to minimizing environmental impact.
Ultimately, the “Safety guidelines” within the “american biotech supply refrigerator manual” are vital. They are the shield that safeguards individuals and the environment from potential harm associated with the use and maintenance of complex refrigeration units. The incidents described serve as stark reminders that safety information is not a formality but a necessity. Consistent and thorough reference to these guidelines is critical for fostering a culture of safety within the research environment, reducing the likelihood of accidents, and promoting responsible scientific practices. The manual exists to serve the end-user safely, effectively, and responsibly.
3. Calibration procedures
A small biotechnology firm faced an escalating crisis. Research, vital to a groundbreaking drug development project, hinged on the precise temperature control of specialized refrigerators. Data irregularities emerged, casting doubt on months of experimentation. The team realized the problem stemmed from undetected temperature drift within the cooling units. The “american biotech supply refrigerator manual” became their immediate focus, specifically the section on ‘Calibration procedures’. This chapter delineated the steps for verification, adjustment, and frequency of recalibration. The manual detailed not only the tools required but also the acceptable tolerances for temperature variation. Without the specific guidance within the manual, the team’s attempts at adjustment would have been guesswork, likely compounding the issue.
The manual illuminated that temperature sensors, over time, were prone to gradual deviations from their accuracy baseline. It instructed technicians on how to connect calibrated thermometers and data loggers to compare readings against the unit’s internal sensors. If differences exceeded the prescribed margins, the manual offered step-by-step instructions for adjusting the refrigerator’s internal settings to realign with the external standard. This process, though meticulous, proved essential for restoring confidence in the data. A previous instance, when a technician bypassed calibration procedures, following only generic instructions, resulted in a 2-degree Celsius discrepancy, invalidating a costly experiment. The “american biotech supply refrigerator manual” was then consulted, averting further failures. The manual’s calibration section also specified the recommended recalibration schedule, based on the unit’s usage frequency and environmental conditions.
Therefore, the ‘Calibration procedures’ section within the “american biotech supply refrigerator manual” isn’t merely a technical addendum, it serves as a vital protocol for maintaining data integrity and safeguarding research investments. Understanding and rigorously adhering to these guidelines allows researchers to minimize temperature-related errors, ensuring the reliability of experimental results. The challenges of maintaining calibration schedules necessitate a commitment to ongoing training and readily accessible copies of the manual. By prioritizing these measures, biotechnology firms can avoid the costs associated with data corruption and build a foundation for robust and reproducible research. The value of this manual section should not be overlooked.
4. Troubleshooting protocols
When a cooling unit falters, immediate recourse to the “american biotech supply refrigerator manual” and its embedded ‘Troubleshooting protocols’ is not a mere suggestion, but a directive. This section acts as a guide through diagnostic procedures, aiming to restore functionality with minimal disruption to critical research or storage. It transforms the manual from a mere collection of specifications to an active tool in the face of equipment malfunction.
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Symptom Verification and Isolation
A critical first step involves accurately identifying the anomaly. Is the unit failing to reach its set point, displaying an error code, or emitting unusual sounds? The “american biotech supply refrigerator manual” details common symptoms, enabling technicians to isolate the issue. For instance, a flashing alarm coupled with elevated temperature might indicate a faulty temperature sensor or compromised door seal. The manual will provide the range of possible issues to help narrow down the ultimate root cause.
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Diagnostic Tests and Component Checks
Following symptom verification, the ‘Troubleshooting protocols’ outline specific diagnostic tests. Instructions may include checking voltage levels, examining compressor function, or assessing refrigerant pressure. The manual guides users through these tests, usually providing diagrams and step-by-step instructions. One case involved a research lab where a refrigerator abruptly ceased cooling. The manual directed technicians to test the overload protector, which proved to be faulty, immediately indicating a clear course of action.
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Error Code Interpretation
Modern refrigeration units often employ sophisticated control systems that generate error codes to signal specific faults. The “american biotech supply refrigerator manual” contains a comprehensive list of these codes and their corresponding meanings. An error code reading “E4,” for example, may signify a communication failure between the control board and the temperature sensor. Deciphering these codes, using the manual as a reference, is paramount to identifying and resolving issues efficiently.
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Escalation and Professional Intervention
The ‘Troubleshooting protocols’ also delineate the boundaries of user intervention. While the manual equips technicians to address basic issues, it equally emphasizes the importance of seeking professional assistance when confronted with more complex problems. Attempting unauthorized repairs on sealed refrigeration systems, for example, can void the warranty and potentially cause harm. The manual includes contact information for authorized service providers, facilitating timely and appropriate support.
These facets collectively demonstrate the critical importance of ‘Troubleshooting protocols’ within the “american biotech supply refrigerator manual.” The manual enables accurate diagnosis, minimizing downtime and preventing further damage to valuable samples or research materials. When diligently consulted, the “american biotech supply refrigerator manual” acts not just as a book of specs, but as an insurance policy against the inevitable technical issues that will affect refrigeration units.
5. Maintenance schedules
Within the sterile confines of a research laboratory, time assumed a dual nature. There was the swift, urgent passage marking experimental deadlines, and the slow, deliberate rhythm of equipment upkeep. Essential to both temporal dimensions was the “american biotech supply refrigerator manual,” and most critically, its specified ‘Maintenance schedules’. The manual section represented far more than a list of tasks; it was a commitment to preserving the integrity of scientific endeavors.
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Preventative Component Inspection
Regular examination of critical components headed the maintenance agenda. Condenser coils, door seals, and fan motors were subject to routine scrutiny. One instance saw a technician, following the manual’s instructions, discover a subtle buildup of dust on the condenser coils. Left unaddressed, the accumulation would have impaired heat exchange, forcing the compressor to work harder and raising the risk of premature failure. The ‘Maintenance schedule’ outlined how to clean this effectively without damaging the equipment. Preventative inspection, in this case, averted a significant downtime and potentially preserved the integrity of temperature-sensitive samples.
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Filter Replacement Protocols
Many refrigeration units employed air and desiccant filters to maintain internal cleanliness and humidity levels. The “american biotech supply refrigerator manual” stipulated the frequency of filter replacement based on environmental conditions and usage patterns. A lab located in an area with high atmospheric particulate matter discovered that deviating from the manual’s recommended schedule resulted in accelerated filter clogging, which increased the risk of contamination. Adherence to the manual, therefore, became integral to maintaining sterile conditions and protecting research integrity.
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Calibration and Performance Verification
Scheduled calibrations, beyond the troubleshooting context, became a cornerstone of proactive maintenance. The manual dictated protocols for verifying temperature accuracy, ensuring that the unit consistently met its performance specifications. A pharmaceutical company, through its adherence to the manual’s directives, discovered a slight drift in the unit’s temperature sensors. Corrective action, guided by calibration procedures detailed in the manual, restored accuracy and prevented potential compromise of vaccine stocks. This regular verification ensured regulatory compliance and product efficacy.
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Lubrication and Component Servicing
Moving parts, such as fan motors and compressor bearings, required periodic lubrication to minimize friction and extend their lifespan. The “american biotech supply refrigerator manual” outlined the type of lubricant to use, the points of application, and the recommended frequency. A biomedical research institute, by neglecting this aspect of maintenance, experienced premature fan motor failure, leading to a temperature spike that destroyed a batch of irreplaceable cell cultures. The incident served as a stark reminder of the critical role that even seemingly minor maintenance tasks play in safeguarding vital research assets.
Collectively, the ‘Maintenance schedules’ outlined in the “american biotech supply refrigerator manual” formed a bulwark against equipment failure, data corruption, and research setbacks. Diligent adherence ensured optimized unit performance, prolonged lifespan, and, ultimately, the reliability of scientific findings. The manual became more than just paper; it functioned as a guardian of scientific integrity.
6. Warranty details
The fine print. Often relegated to the last page of the “american biotech supply refrigerator manual,” the section detailing ‘Warranty details’ represents a silent contract between manufacturer and end-user, a promise whispered against the backdrop of potential malfunction. Consider the fledgling biotech startup, banking on a single, high-end refrigerator to maintain cell lines integral to their research. Months into their work, the compressor failed. Panic threatened to consume the team; the loss of the cell lines would halt progress, jeopardizing funding and future prospects. It was in the quiet hours, poring over the “american biotech supply refrigerator manual,” that they discovered the compressor was covered under an extended warranty. This seemingly insignificant detail, buried within the manual, became their lifeline, affording them repair services and replacement parts at no cost, saving the cell lines and safeguarding their future. The manual and its warranty information thus became a crucial component for future success.
This anecdote illustrates a crucial point: the ‘Warranty details’ section is not merely a formality, but a tangible asset that warrants meticulous examination. It specifies the duration of coverage, the components included, and the conditions that might void the warranty. Neglecting to understand these conditions can have dire consequences. A research hospital, for example, attempted to repair a refrigeration unit’s sealed system themselves, unaware that such action violated the warranty terms. When the subsequent repair proved ineffective and further damaged the system, the manufacturer refused coverage, citing the unauthorized tampering. The hospital bore the full cost of replacement, a significant and avoidable expense. The “american biotech supply refrigerator manual,” in this case, was ignored, yielding devastating consequences. Therefore, following the “american biotech supply refrigerator manual” is pivotal in protecting your investment and maintaining the functionality of the cooling unit.
In conclusion, the ‘Warranty details’ within the “american biotech supply refrigerator manual” is a resource to be carefully studied. Comprehending the warranty terms, adhering to recommended maintenance schedules, and avoiding unauthorized repairs are essential steps in protecting the investment made in specialized refrigeration equipment. Furthermore, retaining a copy of the manual and associated warranty documentation is crucial for navigating potential equipment failures and ensuring access to available support. The ‘Warranty details’ section, therefore, is not an afterthought, but a vital component of responsible equipment management.
7. Parts list
Deep within the “american biotech supply refrigerator manual,” often residing in the appendix or near the exploded diagrams, lies a seemingly unassuming, yet remarkably powerful section: the ‘Parts list’. This catalog of components, seemingly mundane, serves as a crucial bridge between understanding the equipment and maintaining its functionality. The ‘Parts list’ ensures the prolonged lifespan of the refrigeration unit, protecting what could be a considerable investment.
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Precise Component Identification
The ‘Parts list’ offers a structured inventory of every constituent element, from the compressor to the smallest gasket. Each entry is meticulously labeled with a unique part number and a descriptive name, precluding ambiguity. Consider a scenario where a technician requires a replacement fan motor. Consulting the manual, a specific part number is found: AB-RF-0023. Armed with this precise identifier, the technician bypasses the risk of ordering an incompatible component, saving time and preventing potential damage. The clarity within the manual is paramount to maintaining the equipment effectively.
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Facilitating Accurate Ordering and Inventory Control
Beyond mere identification, the ‘Parts list’ streamlines the procurement process. Using the referenced part numbers, supply chain specialists can efficiently locate and order replacements from authorized distributors, minimizing delays and reducing the risk of counterfeits. Well-maintained inventories are essential in larger facilities, for immediate access to critical components reduces downtime. Consider a large-scale vaccine storage facility where a malfunctioning temperature sensor threatens thousands of doses. Access to the “american biotech supply refrigerator manual”‘s ‘Parts list’ enables quick identification of the appropriate replacement sensor, ensuring the stock is safely stored.
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Supporting Maintenance and Repair Procedures
The ‘Parts list’ often complements the maintenance and repair sections of the manual. Detailed exploded diagrams, cross-referenced with the list, provide visual guidance for disassembly and reassembly. Technicians can trace the location of specific components, ensuring they are correctly installed during maintenance. In the instance where a technician repairs a faulty defrost timer, the manual offers both a visual guide and a comprehensive part number, ensuring a proper replacement and efficient use.
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Enabling Preventative Maintenance Strategies
A comprehensive ‘Parts list’ allows for strategic preventative maintenance, where components prone to wear and tear can be proactively replaced, forestalling more serious and costly failures. By forecasting replacement needs based on the equipment’s usage history and the manual’s recommendations, maintenance managers can minimize unplanned downtime and maximize equipment lifespan. This is particularly crucial in research environments where temperature fluctuations can ruin years of study. The presence of a thorough, accurate “american biotech supply refrigerator manual” supports a strong, preventive maintenance program.
The ‘Parts list,’ therefore, far exceeds the simplistic notion of a mere compilation of components. It is an essential tool for efficient equipment management, accurate procurement, and effective maintenance. The information within that list, when coupled with the broader context of the “american biotech supply refrigerator manual,” empowers users to maximize the reliability and longevity of their specialized refrigeration equipment, protecting their resources and safeguarding the integrity of scientific endeavors.
8. Contact information
The “american biotech supply refrigerator manual,” in its comprehensive attempt to guide the user, culminated in a singular, vital point: the ‘Contact information’ section. This wasn’t mere procedural addition; it was the lifeline to expertise, the thread connecting user uncertainty with manufacturer support. Imagine a remote research outpost, years away from civilization. A vital refrigerator sputtered, displaying an error code indecipherable even after meticulous scrutiny of the troubleshooting guide. Precious vaccines, crucial for the local population, teetered on the brink of ruin. The manual alone, in this moment, proved insufficient. It was the ‘Contact information’ that provided access to engineers, knowledgeable professionals who could diagnose the issue remotely, guiding the on-site personnel through a series of diagnostic steps that restored the unit just in time.
The presence of accurate and readily accessible ‘Contact information’ serves to mitigate potential catastrophes. It acts as a failsafe when internal expertise falls short. A large pharmaceutical firm, encountering a persistent temperature fluctuation despite following all calibration protocols, benefited from direct consultation with the manufacturer’s engineers. This contact revealed a subtle software glitch, resolvable only through a remote update. The manual had paved the way for basic maintenance, but the ‘Contact information’ opened the door to specialized knowledge, averting a costly product recall. This section also serves as the final step in warranty claims; claims cannot proceed without proper access to the proper parties. Similarly, proper parts replacement can only be attained through authorized entities, found via this information.
In summary, while the “american biotech supply refrigerator manual” provides invaluable operational and maintenance guidance, the ‘Contact information’ transforms it from a static document into a dynamic resource. This section represents a crucial link to specialized expertise, offering reassurance and support when the limits of on-site knowledge are reached. Ensuring this information is current, comprehensive, and easily accessible represents a critical aspect of responsible equipment management, safeguarding research integrity and minimizing potential losses. Without it, the manual becomes a ship without a sail.
Frequently Asked Questions
Navigating specialized refrigeration can present numerous inquiries. These frequently asked questions, addressing common points of confusion, serve to clarify proper usage and maintenance protocols as described in the “american biotech supply refrigerator manual”.
Question 1: Where is the model number typically located, and why is it essential for using the documentation?
Years ago, a mislabeled manual nearly derailed a critical research project. A seemingly identical refrigerator, when serviced using incorrect documentation, suffered irreparable damage. The lesson: the model number, often found on a nameplate inside the door or on the unit’s exterior, unlocks access to precise instructions, preventing costly errors.
Question 2: Are the safety guidelines merely suggestions, or are they mandatory protocols?
A laboratory fire, traced back to improper refrigerant handling, serves as a stark reminder. The “american biotech supply refrigerator manual”‘s safety protocols are not optional; they are directives designed to prevent harm, protect equipment, and ensure regulatory compliance. Treating them as mere suggestions invites risk.
Question 3: What happens if the calibration schedule outlined in the manual is disregarded?
A research team, prioritizing expediency over precision, neglected routine calibration. Months later, they discovered significant temperature drift, invalidating a series of experiments. The calibration schedule, detailed in the “american biotech supply refrigerator manual,” is crucial for data integrity and preventing skewed results.
Question 4: How often should preventative maintenance be performed, and what potential issues can it address?
A neglected condenser coil, choked with dust, led to compressor failure in a critical storage unit. Preventative maintenance, guided by the “american biotech supply refrigerator manual,” addresses issues before they escalate, extending equipment lifespan and averting catastrophic breakdowns. Regular maintenance is crucial for maintaining optimal operations of the cooling unit.
Question 5: What steps should be taken before attempting any repairs beyond basic troubleshooting?
An eager technician, attempting a complex repair without consulting the manual, voided the warranty and further damaged the refrigeration system. The “american biotech supply refrigerator manual” advocates caution. Review warranty details and contact authorized personnel before undertaking significant repairs, potentially avoiding costly mistakes.
Question 6: Where does one locate the contact information for authorized service providers or manufacturer support?
A frantic search for assistance following a major malfunction led a research team on a frustrating goose chase. The “american biotech supply refrigerator manual”‘s contact information provides direct access to manufacturer support and authorized service providers, expediting problem resolution and minimizing downtime. It is the first step on the path to getting the cooling unit repaired.
The understanding of these answers facilitates the effective operation and upkeep of specialized refrigeration, optimizing research outcomes and preventing unnecessary complications. Referencing the manual should be part of routine maintenance.
The next section will discuss supplemental resources, including online databases and training programs.
Navigating the Chill
These insights, gleaned from years of experience with specialized refrigeration, transcend mere advice. Each tip represents a lesson learned, a pitfall avoided, a crisis averted. All these tips can be found within the pages of the “american biotech supply refrigerator manual”, a resource dedicated to safeguarding your research.
Tip 1: Prioritize Precise Model Identification.
The unmarked refrigeration unit, assumed to be identical to its neighbor, presented a hidden challenge. A technician, relying on memory rather than documentation, applied the wrong calibration settings, slowly skewing the unit’s performance and compromising months of experiments. The correct “american biotech supply refrigerator manual,” accessed by first identifying the accurate model number, could have averted this quiet disaster.
Tip 2: Embrace the Safety Guidelines as Law.
A rushed cleanup after a minor refrigerant leak led to an avoidable injury. A researcher, bypassing the mandated Personal Protective Equipment (PPE) detailed in the “american biotech supply refrigerator manual,” suffered frostbite. The guide’s safety protocols exist not as suggestions, but as shields against potential harm, tested and refined through experience.
Tip 3: View Calibration Schedules as Immutable Deadlines.
The subtle temperature drift, initially dismissed as insignificant, gradually widened, invalidating critical data. Adhering to the calibration schedules outlined in the “american biotech supply refrigerator manual,” using calibrated measurement tools, serves as a crucial safeguard against subtle shifts that can undermine scientific integrity.
Tip 4: Respect the Troubleshooting Section as a First Responder.
The blinking error code, ignored due to time constraints, masked a rapidly escalating problem. The troubleshooting protocols detailed in the “american biotech supply refrigerator manual,” offer a systematic approach to diagnosis, potentially averting a complete system failure with early intervention.
Tip 5: Implement Preventative Maintenance with Unwavering Diligence.
The overlooked condenser coil, choked with dust and neglect, triggered a cascade of problems culminating in a compressor failure. Preventative maintenance, guided by the “american biotech supply refrigerator manual”, extends equipment lifespan, minimizes downtime, and safeguards critical samples through consistent attention to detail.
Tip 6: Understand the Full Scope of Warranty Coverage.
The premature component failure, initially assumed to be a catastrophic loss, was, in fact, covered under an extended warranty. A thorough reading of the “american biotech supply refrigerator manual”‘s warranty section, before assuming the worst, can unlock access to critical support and cost savings.
Tip 7: Maintain an Accessible, Updated Parts List.
The frantic search for a replacement filter during a critical maintenance window resulted in costly delays. A readily available, up-to-date “american biotech supply refrigerator manual”‘s parts list, enables efficient procurement and inventory management, ensuring timely access to essential components.
By assimilating these tips, facilities equip themselves with a deeper understanding of the cooling unit and its needs. The “american biotech supply refrigerator manual” exists as a wealth of knowledge that only needs proper attention and care.
In the final segment, the article will provide a brief conclusion.
Conclusion
The journey through the “american biotech supply refrigerator manual” reveals more than just technical specifications. It exposes a narrative of meticulous design, a commitment to safety, and a dedication to preserving the integrity of scientific endeavor. Each section, from model identification to contact information, underscores the importance of comprehensive understanding and diligent application. This resource, often overlooked, stands as a silent sentinel, safeguarding years of research and the future of scientific progress. A biotech firm relied on refrigeration for drug discovery and treatment. The “american biotech supply refrigerator manual” served as a bulwark, protecting delicate molecules awaiting their moment to contribute to science and improve quality of life.
Let this exploration serve as a renewed commitment to respecting the knowledge contained within its pages. Embrace the responsibility of understanding and implementing the guidelines presented. The value of scientific preservation is paramount to the future of the health industry.
