user tag update

a few things to mention: a couple of weeks ago, i updated my tracking tag to #usermairin in an effort to become more uniform with others’ tags. currently, it is not being used much, so i’d like to advertise that is it open!

please tag me in any visual kpop related content, especially nugus & flops (affectionate). all girl groups will be reblogged on my side, @pixypunch

however, i know some people are always unsure who to tag (me, for example)  so, i would like to provide a definitive list of groups and my specific biases that i would really, really like to be tagged in. 

onf — yuto

rocket punch — yunkyung

lee chan & seungkwan (svt)

takada kenta — jbj & jbj95

dreamnote — miso & boni

dongkiz/dkz — jonghyeong

omega x — sebin & jaehan

pixy — dajeong

golcha — seungmin & jibeom

dkb — d1 & harry june

pentagon — shinwon & yanan

+ boy groups such as blitzers; verivery; cravity; kingdom; wei; treasure; txt, vav, b.i.g

+ girl groups such as class:y, cherry bullet, purple kiss, bugaboo, fromis 9, wjsn, ladies code, nmixx

+ anything related to peak time — masc, vanner, mont, bae173, team 24, and all 24 participating teams

૮₍ ˶ᵔ ˕ ᵔ˶ ₎ა . about me !

♡ puzzle piece - nct dream 3:47 | peachie . he/they/she ♡ horizon - the boyz 3:30 | '01 liner ♡ made for two - vav 3:33 | adhd/autism . intj-a . aquarius ↑ . sagittarius ❂ . scorpio ○ ♡ one day at a time - ateez 3:23 | usa . english/korean/learning japanese (hiragana is okay!)

૮₍ ˶•᷄ ˕ •᷅˶ ₎ა . dni/byi !

♡ minors/ageless blogs & bots | this blog has nsfw content that I am personally not okay with you seeing, but I can't necessarily stop you — just don't like any of it or interact with my nsfw posts/reblogs. anything sfw is free game though!

♡ terfs, racists, sexists, pedophiles, wlw/mlm fetishists, kinkshamers, and any anti-religious persons | it's 2024 guys, grow up. you will be blocked immediately. also I don't mean people who just hate religion in general, I specifically mean to say this is a safe space for religions and I'm not going to stand for you bashing someone else's beliefs in my inbox.

♡ anyone here just to send hate/be annoying | I seriously don't put up with any of this; if you send hate you will be blocked or deleted without hesitation. I'm not wasting my time with you.

♡ users | the only places I post are tagged in my pinned post, any account on any other platform besides those is NOT me! please DM me on my main if you see any of my works posted under a username/account that is not mine!

૮₍ ´˶• ˕ •˶` ₎ა . rules!

♡ #1 | please be patient with me! I'm very slow to reply and even slower to actually post full works. if you want to get something right away, you've a better chance of a response if you just ask for my thoughts on it or for a small headcanon!

♡ #2 | I do not write smut. I write sfw bulleted headcanons, small blurbs/drabbles, and will very occasionally post a full-length fic! asks will normally be turned into one of the first two.

♡ #3 | my posting is very sporadic, and most of the time it'll be a very short drabble. most of my posts will be recommendations (some nsfw), so please keep that in mind!

♡ #4 | be respectful! I do like gossip, ngl, but I'm not going to indulge it here. Anything pertaining to scandals/idol's weight/dating/etc. will not be talked about, but who I write for might change depending on the scandal and if I personally believe it!

♡ #5 | do not copy, modify/translate, or repost my works!

♡ #6 | read my content warnings at the beginning of the post! I wouldn't want you to read something you're uncomfortable with and yell at me for it when I tag my posts with all possible warnings.

♡ #7 | everything is implied/tagged gender-neutral reader. I try to keep it as neutral-presenting as possible! I won't be writing male/amab/afab reader, but almost anything besides that is up to your interpretation.

♡ others concerning sfw/angst | all minor/adult relations will be strictly platonic! I don't have many things I won't write concerning angst, so please pay attention to content warnings.

© ultkyu (2023) do not copy or repost my works!

Noun Suffixes: -oy

This is an anomaly. -oy endearment is a noun suffix which is used with family members, loved ones, even pets. It’s rarely used to describe inanimate objects, unless the user regards the objects with great affection.

vavoy Daddy (vav Dad) SoSoy Mummy (SoS Mum)

and so on.

Klingon for The Galactic Traveler goes further into this suffix.

Children employ the noun suffix {-oy} ("endearment") with some regularity, while it is used quite infrequently in the speech of adults or even older children. It is usually used with the terms for parents and other relatives ({vavoy,} "Daddy"; {SoSoy,} "Mommy"; {vavnI'oy,} "Grandpa," etc.) but also for other people or animals for which a child feels some fondness ({targhoy,} "targy," perhaps, for a pet targh). Some children use it with other nouns (such as {qamoy}, perhaps "footsie," based on {qam,} "foot"), but such usage is strongly discouraged and usually falls out of a child's repertoire before too long.

Siemens Building Technology Gma161.1P-0/10Vdc24V62#S/R Actuator,Plc | PartsHnC

The Siemens Building Technology GMA161.1P is a versatile actuator designed for building automation systems, operating on a 24VDC power supply. With its spring-return function for fail-safe operation, it seamlessly integrates with Siemens Building Technology PLCs for precise control of lighting, HVAC, and security systems. It operates valves, dampers, and other equipment by transmitting a 0–10 VDC signal from the PLC, allowing for the smooth change of factors like airflow, temperature, and illumination intensity. It is ideal for VAV systems, fan coil units, and damper actuation because it optimizes system function and increases energy efficiency. Its PLC compatibility and user-friendly programming allow for seamless integration and remote configurability, enhancing adaptability and management of the system.

Global Air Handling Units Market

The Air Handling Units market is set to witness remarkable growth, as indicated by recent market analysis conducted by GQ Research. In 2023, the global Air Handling Units market showcased a significant presence, boasting a valuation of US$ 11.7 billion. This underscores the substantial demand for Air Handling Units technology and its widespread adoption across various industries.

Get Sample of this Report at https://gqresearch.com/request-sample/global-air-handling-units-market/

 Projected Growth: Projections suggest that the Air Handling Units market will continue its upward trajectory, with a projected value of US$ 16.8 billion by 2030. This growth is expected to be driven by technological advancements, increasing consumer demand, and expanding application areas.

Compound Annual Growth Rate (CAGR): The forecast period anticipates a Compound Annual Growth Rate (CAGR) of 6.10 %, reflecting a steady and robust growth rate for the Air Handling Units market over the coming years.

Technology Adoption: In the air handling units (AHU) market, technology adoption is crucial for enhancing efficiency, improving air quality, and reducing energy consumption. Manufacturers are increasingly integrating advanced features such as variable air volume (VAV) systems, heat recovery wheels, and advanced filtration technologies. These innovations cater to diverse applications ranging from commercial buildings to industrial facilities, hospitals, and data centers. AHU manufacturers are also adopting smart technologies like IoT sensors and cloud-based monitoring systems to enable remote diagnostics, predictive maintenance, and optimization of HVAC systems.

Application Diversity: Air handling units serve a wide range of applications across various sectors including residential, commercial, healthcare, industrial, and institutional. Each application has unique requirements in terms of air quality, temperature control, humidity levels, and energy efficiency. Manufacturers are responding to this diversity by offering customizable AHU solutions tailored to specific application needs. For instance, hospitals may require AHUs with HEPA filtration to maintain sterile environments, while industrial facilities may prioritize robust units capable of handling high volumes of air and harsh operating conditions.

Consumer Preferences: Consumer preferences in the AHU market are influenced by factors such as energy efficiency, indoor air quality, sustainability, and total cost of ownership. End-users increasingly prioritize energy-efficient solutions to reduce operating costs and minimize environmental impact. Additionally, there is growing demand for AHUs equipped with advanced filtration systems to address concerns about indoor air pollution and airborne pathogens. Manufacturers that can offer energy-efficient, environmentally friendly, and cost-effective solutions are likely to gain a competitive edge.

Technological Advancements: Technological advancements play a significant role in driving innovation and differentiation in the AHU market. Key advancements include the integration of advanced controls and automation systems for precise regulation of airflow and temperature. Furthermore, the development of energy recovery technologies such as heat exchangers and enthalpy wheels enables AHUs to capture and reuse waste heat, thereby improving energy efficiency. Additionally, advancements in material science and manufacturing processes contribute to the design of lighter, more durable, and corrosion-resistant AHU components.

Market Competition: The AHU market is highly competitive, characterized by a large number of regional and multinational manufacturers. Competition is primarily driven by factors such as product quality, performance, reliability, price, and after-sales service. Manufacturers differentiate themselves by offering innovative features, customizable solutions, and value-added services. Additionally, partnerships with HVAC contractors, distributors, and building automation system providers are crucial for expanding market reach and gaining a competitive advantage.

Environmental Considerations: Environmental considerations are increasingly influencing product development, manufacturing processes, and consumer preferences in the AHU market. There is a growing emphasis on sustainability, with stakeholders seeking energy-efficient solutions that minimize carbon emissions and resource consumption. Manufacturers are adopting eco-friendly refrigerants, improving system efficiency, and implementing recycling programs to reduce environmental impact. Moreover, certifications such as LEED (Leadership in Energy and Environmental Design) and Energy Star are becoming important criteria for evaluating the environmental performance of AHUs and gaining market acceptance.

 Top of Form

 Regional Dynamics: Different regions may exhibit varying growth rates and adoption patterns influenced by factors such as consumer preferences, technological infrastructure and regulatory frameworks.

Key players in the industry include:

Barkell Ltd.

Blue Star Limited

Carrier Global Corporation

Ciat Group

Daikin Industries Ltd.

FlaktGroup

Hitachi Ltd.

Holtop

Lennox International Inc.

Trane Inc

The research report provides a comprehensive analysis of the Air Handling Units market, offering insights into current trends, market dynamics and future prospects. It explores key factors driving growth, challenges faced by the industry, and potential opportunities for market players.

For more information and to access a complimentary sample report, visit Link to Sample Report: https://gqresearch.com/request-sample/global-air-handling-units-market/

About GQ Research:

GQ Research is a company that is creating cutting edge, futuristic and informative reports in many different areas. Some of the most common areas where we generate reports are industry reports, country reports, company reports and everything in between.

Contact:

Jessica Joyal

+1 (614) 602 2897 | +919284395731

Website - https://gqresearch.com/

Ensuring Proper Installation and Optimal Performance of a Free-Standing Fume Hood in Your Laboratory or Workspace

A free-standing fume hood is a crucial piece of equipment in laboratories and workspaces where hazardous chemicals and fumes are handled regularly. Ensuring its proper installation and optimal performance is paramount for the safety of personnel and the integrity of experiments. In this comprehensive guide provided by Cleatech LLC, we will delve into the essential steps and considerations for setting up a free-standing fume hood to guarantee safe and efficient operation. By following these guidelines, you can protect your personnel, maintain compliance with safety regulations, and extend the lifespan of your fume hood.

Section 1: Pre-Installation Preparations

1.1. Assess Your Needs

Before acquiring a free-standing fume hood, carefully assess your laboratory's or workspace's requirements. Consider factors such as the types and quantities of chemicals to be used, available space, and the need for additional accessories like work surfaces or lighting. This initial assessment will help you select the most suitable fume hood for your specific needs.

1.2. Choose the Right Location

Selecting the appropriate location for your fume hood is critical. It should be positioned away from foot traffic, doors, windows, and airflow disruptions. Additionally, ensure there are no obstructions that could impede the hood's airflow, as this can affect its performance.

1.3. Verify Compliance with Regulations

Check local, state, and national safety regulations and standards to ensure compliance with ventilation requirements. Fume hoods must meet safety standards, and compliance is mandatory to maintain a safe working environment.

Section 2: Fume Hood Selection and Purchase

2.1. Consult with Experts

Consult with fume hood specialists or industrial hygiene professionals to ensure you choose the right type and size of fume hood. They can provide valuable insights into the specific needs of your laboratory or workspace.

2.2. Evaluate Materials and Construction

Pay attention to the construction materials of the fume hood. Materials like chemical-resistant resin, stainless steel, or polypropylene are commonly used for fume hood construction. The choice depends on the compatibility of the materials with the chemicals you'll be working with.

2.3. Consider Airflow and Design

Different fume hoods have varying airflow patterns and designs. Depending on your applications, you may opt for a constant air volume (CAV) or variable air volume (VAV) system. The design should also provide efficient containment of fumes and easy access for personnel.

Section 3: Installation

3.1. Prepare the Workspace

Clear the installation area of any obstacles and ensure that utilities such as electrical connections, plumbing, and ductwork are ready for installation.

3.2. Follow Manufacturer's Instructions

Installation instructions provided by the manufacturer should be followed meticulously. Failure to do so may result in improper functioning and compromised safety.

3.3. Ensure Proper Ventilation

Connect the fume hood to the building's ventilation system as specified by the manufacturer. This connection is crucial for efficient removal of fumes. Verify that the ventilation system is functioning optimally.

3.4. Test the Fume Hood

Before use, conduct a thorough performance test to ensure the fume hood is operating as intended. This includes checking the airflow, face velocity, and the effectiveness of the sash and baffles.

Section 4: Operational Guidelines

4.1. Personnel Training

Proper training is essential for anyone using the fume hood. Ensure that all personnel are trained in the safe and correct use of the fume hood, including sash operation, emergency procedures, and maintenance.

4.2. Maintain a Safe Working Distance

Encourage users to maintain a safe distance from the fume hood's face when working inside it. This helps prevent exposure to hazardous fumes and maintains proper airflow.

4.3. Use Appropriate Personal Protective Equipment (PPE)

Personnel should wear the necessary PPE, such as lab coats, gloves, and safety goggles, when working with hazardous materials in the fume hood.

4.4. Monitor and Control Airflow

Regularly monitor the fume hood's face velocity using an anemometer. Ensure that it operates within the recommended range specified by the manufacturer. Adjust the sash position to control airflow and maintain containment.

4.5. Limit Clutter

Keep the interior of the fume hood clutter-free to allow for proper airflow and efficient containment. Store only essential equipment and chemicals inside.

4.6. Proper Sash Usage

Educate users on the correct use of the sash. Lower the sash to the designated working height when working with hazardous materials, and close it when not in use to maintain negative pressure and prevent the escape of fumes.

Section 5: Maintenance and Inspection

5.1. Establish a Maintenance Schedule

Create a routine maintenance schedule to inspect and service the fume hood regularly. This includes checking for worn or damaged components, filters, and the overall condition of the hood.

5.2. Filter Replacement

If your fume hood uses filters, follow the manufacturer's recommendations for filter replacement. Ensure that replacement filters are compatible with the chemicals being used.

5.3. Calibration

Periodically calibrate any monitoring devices or alarms installed in the fume hood to ensure accurate readings and early detection of any issues.

5.4. Emergency Equipment

Ensure that emergency equipment, such as eyewash stations and safety showers, are readily accessible and functional in case of accidents or chemical exposure.

Section 6: Troubleshooting and Repairs

6.1. Identify Common Issues

Familiarize yourself with common fume hood issues, such as decreased face velocity, airflow disruptions, or unusual odors. Promptly address these problems to maintain safety and performance.

6.2. Consult the Manufacturer

When faced with complex issues or malfunctions, contact the fume hood manufacturer or an authorized service provider for professional assistance. Attempting unauthorized repairs can compromise safety.

Section 7: Compliance and Documentation

7.1. Document Inspections and Maintenance

Maintain detailed records of all inspections, maintenance, and repairs performed on the fume hood. This documentation is essential for compliance with safety regulations and can serve as a reference for future maintenance.

7.2. Stay Informed About Regulations

Regularly update yourself and your team on any changes in safety regulations and best practices related to fume hood use and maintenance. Ensure that your fume hood remains in compliance with evolving standards.

Section 8: Disposal and Decommissioning

8.1. Proper Decommissioning

When retiring a fume hood or replacing it, follow proper decommissioning procedures. Ensure that all hazardous materials are safely removed and disposed of in accordance with applicable regulations.

8.2. Notify Authorities

Notify local environmental agencies or authorities if your laboratory is disposing of a fume hood that has been used for hazardous materials. Compliance with disposal regulations is crucial.

Conclusion

Proper installation and optimal performance of a free-standing fume hood in a laboratory or workspace are essential for the safety of personnel and the integrity of experiments. By following the guidelines outlined in this comprehensive guide, you can ensure that your fume hood operates efficiently, complies with safety regulations, and remains a reliable tool in your workspace. Remember that safety should always be the top priority when working with hazardous materials, and a well-maintained fume hood plays a pivotal role in achieving this goal.

Original Sources: https://fortechday.com/ensuring-proper-installation-and-optimal-performance-of-a-free-standing-fume-hood-in-your-laboratory-or-workspace/

Kewaunee Fume Hood Made-To-Measure Can Make a Big Difference

Laboratory fume hoods are manufactured in unique designs depending on the user's needs. You will find fume hoods that are ducted or ductless. Ducted laboratory fume hood functions to remove the air from the laboratory and disperse it into the atmosphere outside. Today you will come across many ducted hoods that employ constant air volume (CAV) systems, variable air volume (VAV) systems. These fume hoods are a new generation of hoods that work to reduce energy costs. In addition, VAV systems also reduce the volume of the air exhausted as the fume hood sash is closed.

Depending on the needs of your laboratory, you can invest in ductless fume hoods that recirculate the air by filtering it before redistributing it back into the laboratory. These fume hoods make use of different filters required for different materials.

Why Is It Important That Your Lab Personnel Work In a Fume Hood?

Laboratory Fume Hood work to ensure the safety of your lab personnel while working with hazardous materials by constantly transporting airflow away from the user. Evidently when you install fume hoods properly, fume hoods they can provide a safe environment to the users by keeping them away from toxic gases, explosions, and spills.

Kewaunee fume hood is known for excellent ventilation and for their Regulatory Compliance and Standards. They provide customized design on demand for their customers. Primary function of fume hood is to provide a barrier between lab workers and toxic fumes by filtering the air inside the laboratory.

Reasons to Choose the Best Fume Hood Manufacturers in India

Kewaunee laboratory fume hoods are one of the most reliable engineering controls in the laboratory. Kewaunee fume hood is enhanced with the Venturi containment technology. Moreover, Kewaunee fume hoods manufactured in India and USA are what the modern laboratories require. These fume hoods are designed and tested to meet ASHRAE 110-2016 and EN-14175-3 standards. Venturi fume hoods are considered as the safest and the most energy efficient model in the market today. These fume hoods are equipped with user-friendly features that accommodate the needs of new generation scientists. Moreover, the rigid frame construction is to assure solid installation, low vibration, and sound levels.

Undoubtedly, Kewaunee is one of the leading fume hood manufacturers in India and USA. You can choose from a wide choice of pre-designed models or get custom made fume hoods according to the needs of your laboratory.

Kewaunee turnkey laboratory services are a one-stop solution for all your laboratory design and construction projects. At every stage of your laboratory design and construction project, Kewaunee's lab design architects, lab design consultants, lab planners, and engineers are available to help you get the best out of your investment.

is your user based off of st.van from vav? — 🍗

yes !!

Achieving Thermal Comfort in MEP Design: HVAC Systems and Controls

In modern buildings, ensuring thermal comfort for occupants is crucial for their well-being and productivity. The design of Mechanical, Electrical, and Plumbing (MEP) systems plays a significant role in achieving and maintaining thermal comfort. Among the MEP design components, Heating, Ventilation, and Air Conditioning (HVAC) systems and controls are particularly important. This article explores the key considerations and strategies for achieving thermal comfort through effective HVAC design systems and control.

I. Understanding Thermal Comfort:

Thermal comfort refers to the condition of mind that expresses satisfaction with the thermal environment. It is influenced by various factors, including air temperature, humidity, air movement, and radiant heat. Achieving thermal comfort requires balancing these factors to create an environment where occupants feel neither too hot nor too cold.

II. HVAC System Design for Thermal Comfort:

A. Load Calculation:

Accurate load calculation is the foundation of HVAC system design. It involves determining the heating and cooling loads for different spaces based on factors such as building orientation, insulation, occupancy, and internal heat gain. Proper load calculation ensures that the HVAC system is appropriately sized to meet the thermal demands of the building.

B. Zoning and Air Distribution:

Effective zoning is essential for providing individual control and maintaining thermal comfort in different areas. Zoning allows for customized temperature settings and airflow distribution based on occupancy and space requirements. Properly designed air distribution systems ensure even air movement and temperature distribution throughout the occupied spaces.

C. Ventilation:

In addition to temperature control, adequate ventilation is crucial for indoor air quality and occupant comfort. A well-designed HVAC system should incorporate appropriate ventilation rates to supply fresh air while effectively removing indoor pollutants. Various strategies, such as natural ventilation, mechanical ventilation, or a combination of both, can be employed based on building requirements and local codes.

D. Energy Efficiency:

Efficient HVAC system design not only enhances thermal comfort but also reduces energy consumption and operational costs. Incorporating energy-efficient components such as high-efficiency HVAC equipment, heat recovery systems, and intelligent controls can significantly contribute to achieving thermal comfort while optimizing energy performance.

III. HVAC Controls for Thermal Comfort:

A. Temperature Control:

Accurate temperature control is fundamental for maintaining thermal comfort. Modern HVAC controls utilize temperature sensors and feedback loops to monitor and adjust the temperature in real-time. Programmable thermostats and Building Automation Systems (BAS) allow for customized temperature schedules based on occupancy patterns and user preferences.

B. Humidity Control:

Controlling indoor humidity is essential for maintaining comfort and preventing issues such as mold growth and condensation. HVAC controls can incorporate humidity sensors and dehumidification systems to maintain the desired humidity levels within the occupied spaces.

C. Airflow Control:

Proper airflow control ensures balanced air distribution and prevents stagnant or drafty conditions. Variable Air Volume (VAV) systems, equipped with airflow sensors and dampers, adjust the airflow based on the cooling or heating demand. This enables individual zone control and optimizes comfort levels.

D. Occupancy Control:

Occupancy sensors and intelligent controls allow HVAC systems to respond to the presence or absence of occupants. By adjusting temperature and ventilation settings based on occupancy, energy waste can be minimized while maintaining comfort in occupied areas.

IV. Commissioning and Maintenance:

Regular commissioning and maintenance of HVAC systems are vital to ensure optimal performance and thermal comfort. Commissioning involves verifying the system’s installation, functionality, and performance. Periodic maintenance, including filter replacement, cleaning, and calibration, helps to sustain the system’s efficiency and effectiveness.

Conclusion:

Thermal comfort is a critical aspect of MEP design, and HVAC systems and controls play a pivotal role in achieving it. Through proper system design, incorporating energy-efficient components, and utilizing intelligent controls, designers can create environments that optimize thermal comfort for building

Construction & Building Material Research

BDB India is the leading global business strategy consulting and market research firm.  We have a team of best market researchers, business analysts and business consultants.  We develop time bound strategic roadmaps for our clients.

BDB’s wide experience in the Building Management Services includes HVAC, electro mechanical and plumbing solutions, lighting solutions as well as security and fire solutions.

In the building automation market research, BDB has had the privilege of working with successful companies. For many of them, BDB has developed a market entry strategy for existing and new products in India.

BDB’s extraordinary experience in the HVAC industry market research includes consulting assignments in the field of window/split air conditioners, cold storages, central air conditioning systems, dampers, air handling units, fan coil units, VAV boxes, refrigerated vans and actuators. This is just to name a few.

In the HVAC industry market research, BDB has had the privilege of working with successful companies. For many of them, BDB has developed a market entry strategy for new products in India.

There is a continuing opportunity that exists in HVAC industry. The customer expectations are changing, the aspirations of dealers are changing, the channel of distribution is becoming crucial and there is a clear differentiation of market experience in different pockets of India. Architects and contractors are getting the opportunity to use and experience new products.

Some examples of BDB’s assignments dealing with analysis of new products are :

Application of VAV boxes, dampers, etc in intelligent buildings

Application of actuators in HVAC industry

Trend in Indian refrigeration and air conditioning products

Evolution of cold chain in commercial application from farm produce level to retail

For each assignment, the methodology varies because these are all customized research analyses.

For instance, to study the demand dynamics and trend, a cross section of existing and potential customers is analysed in urban markets. Along with the end users, consultants, contractors, architects, interior decorators and system integrators are also part of this analysis.

Thereafter, the trend in usage of HVAC products, lifestyles and their exposure to the different products and adaptability of such products are also corroborated in the overall analysis.

For each assignment, the methodology varies because these are all customized research analysis.

For instance, to identify a new business opportunity, BDB first understands its clients’ strengths, weaknesses and expectations.  The horizons are then scanned so to speak, nationally or globally.  Complimentary or synergistic business opportunities are then identified and short listed.

Thereafter, these short listed opportunities are investigated to verify whether they are relevant to BDB’s clients and whether they can be dove tailed with the business paradigm of its clients.

For new opportunity areas, each opportunity is thoroughly investigated quantitatively and qualitatively so that BDB’s client has a complete picture as well as flavour of the opportunity – both existing and emerging.

For market entry studies, BDB begins with detailed market research for the identified products, evaluates current and potential demand and then identifies locations for setting up the project.  Based on these inputs, BDB conducts a techno-economic feasibility study.

At conclusion, the output of such market research studies comprehensively results in an incisive and fail-safe Growth Strategy Recommendation Document.

BDB has assisted in setting up new projects, in acquisitions, in testing new ideas, in evaluating markets and brand equity, measuring customer satisfaction as well as in conducting pre & post launch studies in India and across the globe.  BDB has also conducted assignments in the expansion of existing businesses.

تاكد انك مشترك في القناة 💯 ومفعل الجرس عشان يوصلك كل جديد 🔔 وما تنساش تعمل لايك للفيديو 👍 نشرك للمقطع هو اكبر دعم ممكن تقدمه لي ... أتمنى أن ينال الشرح أعجابكم ...................................................................... https://bit.ly/3N9F3OH https://bit.ly/3ux7pwI شير مشاركة #BIMarabia اشترك في القناة لمتابعة الشروحات الجديدة videos https://www.youtube.com/channel/UCZYaOLTtPmOQX1fgtDFW52Q?sub_confirmation=1 بيم ارابيا https://bit.ly/1TSqEbr ❤️ رابط الاشتراك في القناة https://www.youtube.com/channel/UCZYaOLTtPmOQX1fgtDFW52Q?sub_confirmation=1 ❤️ روابط التواصل ✅ انستجرام https://bit.ly/2JY3wZP ✅ الفيسبوك https://bit.ly/3AcrQBO ✅ تويتر https://twitter.com/bimarabia ✅ لينكد ان https://bit.ly/2nqASDv ✅ قناة التلجرام https://bit.ly/3bu9Pod ✅ الموقع الالكتروني الشخصي https://bit.ly/3N9F3OH https://bit.ly/3suwyqU https://bit.ly/3bEr3zh augmented reality https://www.youtube.com/watch?v=-9c5h0X-Kqw&list=PLNMim060_nUKpt2st91YUPa7BqWd0U2eb open source مفتوحة المصدر https://www.youtube.com/watch?v=WNYyejjLa-s&list=PLNMim060_nUK6qoVzrpjLucG_aBNaz_Ny revit workshop ورشة عمل ريفيت https://www.youtube.com/watch?v=-FIZBNN7CLk&list=PLNMim060_nULOxkcpmsGdaRXRnEj7rmGC OPEN STREET MAP https://www.youtube.com/watch?v=QKHnpu5birw&list=PLNMim060_nUJBibv97w-SfqGMjQCDc6xT المدن الذكية https://www.youtube.com/watch?v=1nGsbGafZ6c&list=PLNMim060_nUKxO8GJj5c-9POTgiCfOdmE الاستدامة https://www.youtube.com/watch?v=m_dma-4wOJU&list=PLNMim060_nUKIQ9OEPA5xGjQ471AQyp3F Endless Possibilities What else can you do with this technology? Thinking back to the Solution section, I can easily see this tool continuing to improve on that beta auto-generate branch duct feature. I could also see this tool expand to layout and optimize the Air Terminal Placements, move the VAV Boxes around, and even create optimized mechanical zones for the building. The point is, there are really endless possibilities for similar tools, in other disciplines (structural, electrical, fire protection, etc.) and even beyond MEP (architectural design, construction optimization, etc.). Below is a list of a few of the other ideas we’ve had. Some of these we have worked on in the past, or are working on now, and others are just a few of the ideas for other similar tools that we could imagine in the future. Expand on Mechanical Duct Generator Air Terminal Layouts Branch Duct Paths VAV Box Locations Zoning Efficiency Electrical Lighting layouts Fire Protection Sprinkler Plans Gravity-drained Pipe Layouts Plumbing Fixture arrangements Pipe Routing Architectural Schematic plan layouts BOMA rental unit optimization Stadium, auditorium, and conference hall seating and booth layouts Facade design and optimization Curtain wall layouts Construction Panel board placement optimization Modular wall panel segmentations Looking at the above list, do you have any ideas we missed? Can you see where some of these ideas could be implemented in your particular area of expertise? Recap [What] did we learn? First, we talked about the problem that we were trying to solve – generating modular air duct layouts right inside Revit in an intuitive way that Henderson Engineer’s staff would be willing to try. Then, we gave an overview of the Modular Duct Generator App with a simple 6-step explanation of how to use it. Basically, you draw a line, and it generates modular duct layouts. In the middle, we dove into the generative design, metaheuristic algorithms (genetic, simulated annealing), and talked about how they work and their pros and cons. Most importantly, we covered how to promote user adoption of a tool like this through various design choices and UI/UX techniques. If there’s one takeaway from this, it is understanding that the concepts discussed above are not at all specific to modular ducts – they could be applied to a whole bunch of problems. Let’s let the computers do the optimization they are good at, and let the humans do the higher-level thinking, design work, and tweaks we are good at. With this approach, we can create ever more tools that help make all sorts of architectural, engineering, and construction tasks more efficient – to get more work done more efficiently and better in less time! Have any questions about this post? Want to geek out even more about simulated annealing? Are you inspired to try making your own tool? Feel free to reach out to Daniel and Ben anytime! We love to talk about this stuff: Special thanks to Henderson Engineers (and their partner company, Henderson Building Solutions) who collaborated with us on this project. الذكاء الاصطناعي https://www.youtube.com/watch?v=UWmW84ZBrbg&list=PLNMim060_nUJs5lSTwbFK8Pe1BCUPT_EB by Omar Selim BIMarabia عمر سليم بيم ارابيا

Image IDs: Screenshot comments of Reddit users from a year ago.

random123me: Reminds me of MBLAQ. Music Boys live in Aboslute (sic) Quality. Nothing can beat MBLAQ at anything, cringe abbreviations included.

_Diphylleia_grayi: DICKPUNKS def takes the cake, but a couple honorable mentions are THORNAPPLE and Drug Restaurant

WrongdoesOptimal9207: TRAxX - Typhoon Rose Attack on Xmas The members stage names are: Typhoon Jay, Rose Minwoo, Attack Jungwoo, and X-Mas Jungmo

mango701: Teen Top- Teenage Emoboy Emotion Next Generation Talent Object Praise

cappuccinote: There was a bg called Touch who debuted with the song 난 (I/me) :') I loved the song but please you guys had to have known

GrillMaster3: Welldone Potato and their brother group Rare Potato are definitely up there

a_nauny_mouse: Reminds me of The KOXX (yes, they are/were a real band, and yes, they are/were absolutely awesome)

mangoisNINJA: Very Awesome Vampires (VAV) The fandom is Vampz They have fully abandoned the vampire storyline

[deleted]: Piggy Dolls. All three members were plus sized but they lost weight. Then they were replaced by three new (thin) members. It was a mess.

SoNyeoShiDude: H.O.T. Sounds fine as an acronym, but I'm still cringing a quarter century later at "High-five Of Teenagers".. Oh and with all due respect to gen 1.5, MILK is a terrible name.

MakkyMTC: Dongkiz. WHy would they call them basically donkeys????? 😂😭

end IDs.

randomly looked up what the worst kpop band names are and holy shit why are there so many godawful names 😭

vav bios. ♥︎ 𓂃

    ⵓ    ৎ୭    𝘃𝖺𝗏 ⑅ 聞   

𝗏    望    𝗮𝘃 ༄ a̲r̲t̲

    ᦔ 尼 v͟a͟v͟    ★_ ⛺

𝗩𝖺    ɤ    组    ᝐ 𝗩.             

         𝗅𝗂𝗄𝖾 𝗈𝗋 𝗋𝖻  ⌁  @𝗂𝟦𝗌𝗁𝗎𝖺 𝗈𝗇 𝘁w

♥︎ ˒  ace wallpapers！

reblog or like if u save ‹3.

baron messy layouts

VAV USERS

vampzzada = esse é bem carioca kkk sorry stvanpz = st van + vampz (kk lixoso) poisonhyuk = st van + poison hyeopoison = baron + poison heejunice = ziu + nice hellousung = lou + hello (kk péssimo) hosungreat = lou + great jangwooxygen = ace + oxygen aynoxygen = ayno + oxygen jacobbeyy = jacob

*∘✧ If you used, reblog or like ✧∘*