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HVAC Engineering Note: Adicot, Inc. is not accepting new HVAC Engineering Design clients at this time, but we are accepting Energy Code Compliance Calculation projects for Large Scale Projects. Click here to learn more. ​ Adicot, Inc. is a woman owned HVAC/Mechanical Engineering Firm specializing in commercial, industrial, retail, medical, and multi-family projects. We are well versed in the Florida and International Energy Conservation Codes, ASHRAE Standards, and ACCA Manual S & J procedures. Our knowledge and experience allow us to work accurately and efficiently in every design. ​ At Adicot, Inc., we prioritize energy efficiency and occupant comfort in our mission. We foster a collaborative environment, working closely with architects, contractors, and developers to ensure an optimized HVAC system design. Our commitment to excellence extends beyond duct design, encompassing energy code compliance documentation and cooling load calculations, addressing every aspect of your HVAC Engineering needs. We are dedicated to delivering high-quality and sustainable solutions that will surpass your expectations. ​ As a trusted engineering firm, Adicot, Inc. boasts a wealth of experience and a proven track record of success. Our unwavering dedication to client satisfaction ensures we tailor our services precisely to your requirements, enhancing your building performance. Trust Adicot, Inc. for all your HVAC/Mechanical Engineering needs, and experience the difference that our expertise, innovation, and commitment can make in optimizing your building systems. ​ Contact Us

Ohm's Law with Power Calculator RELATED CALCULATORS: kW, HP, BTU, Ton... Unit Converter Temperature Converter EER SEER2 COP HSPF2 kw/Ton Converter Adicot, Inc.'s Ohm's Law with Power Calculator is a versatile tool for calculating electrical parameters. This calculator efficiently determines Power, Voltage, Current, and Resistance using Ohm's Law, a fundamental principle in electrical engineering. Professions that benefit from this calculator include electrical engineers, technicians, electricians, and hobbyists working with electrical systems. It proves invaluable during circuit design, troubleshooting, and equipment maintenance. Electronics professionals find it helpful in designing and analyzing electronic devices and systems. Adicot, Inc.'s Ohm's Law with Power Calculator is a comprehensive and user-friendly tool. Calculating Power, Voltage, Current, and Resistance, aids in various applications, from circuit design to optimizing energy systems. Instructions: Enter two input values: Voltage, Current, Resistance, and Power. Entering more than two input values will cause the results to be unreliable. Click the Calculate Button, and the results will appear in the Results table. ​ Methodology: I = V/R V = sqrt (PxR) I = P/V V = P/I I = SQRT (P/R) V = IxR ​ P = VxI R = V/I P = I^2R R = V^2/P P = V^2/R R = P/I^2 Ohms Law

About Adicot, Inc. Welcome to Adicot Engineering! We are a consulting firm that provides high-quality mechanical engineering services to Architects, Contractors, and Builders. We are dedicated to helping clients optimize their mechanical systems, reduce energy costs, and achieve sustainability goals. ​ At Adicot, we believe in building long-term relationships with our clients based on trust, transparency, and professionalism. We are committed to delivering customized solutions that meet our clients' unique needs and exceed their expectations. We bring a wealth of expertise to every project we undertake. We have the skills and knowledge to help clients overcome their toughest challenges. We are proud to have worked with a wide range of clients in industries such as manufacturing, healthcare, and education. Our clients appreciate our collaborative approach, attention to detail, and commitment to delivering results. ​ To learn more about how Adicot Engineering can help you, please don't hesitate to contact us . We look forward to hearing from you! ​ NCEES Model Law Engineer for Multi-State Licensure ​ Registered in the following States: Arkansas | Florida | Louisiana | Oklahoma | Texas | Wyoming Recent Clients LENNAR

Condensate Rate Calculator Instructions: Review the methodology to ensure it aligns with your project's requirements. Select US or Metric Units Select whether to enter the Temperature as the Dry Bulb Temperature (T DB ) or the Dew Point Temperature (TDP ). Enter the Initial and final conditions of the TDB or TDP based on your entry for item #2 above. If you selected T DB in #2 above, select whether you will next enter the T WB or Relative Humidity [RH%]. If you selected T DP in #2 above, you will enter the RH%. Enter the initial and final conditions of the T WB or RH% Enter the air flow rate, CFM [l/s] Enter the altitude of the project, ft [m] Click the Calculate button The results and all the psychrometric parameters are shown in the Results Table. ​ Methodology and Equations: This calculator can be used in US or Metric Units. The user inputs leaving and entering coil conditions as Dry Bulb or Dew Point Temperature, Wet Bulb Temperature or Relative Humidity, coil Airflow rate, and project altitude. The formulas to calculate the psychometric of the initial and final conditions are based on the methodology outlined in the ASHRAE 2021 Handbook . The change in the humidity ratio is used to calculate the Condensate Generated. ​ lb,moisture/hr = Q / v x w x C ​ where: Q = air flow rate, CFM v= Specific Volume, ft^3/lb,dry air w= Humidity Ratio lb , moisture /lb, dry air C= 60 min/ hr ​ The following conversions are used to calculate the various units of condensate generated : ​ ​ BTU/h = Pints/day x 1.04 lb/pint / 24 hrs/day x 1055 BTU/lb 1 kW = 3412.142 BTU/hr 1 kW = 1000 W 1 Gallon = 8 pints = 3.78541 liters 1 Gallon of water = 8.34 lbs RELATED CALCULATORS: Air Mixing Calculator Dehumidifier Size Calculator Duct Size Calculator Psychrometric Calculations Condensate Unit Converter **NEW** Adicot, Inc.'s Condensate Rate Calculator is a powerful tool designed to comprehensively analyze psychrometric conditions and calculate the condensate generated based on user input. With this calculator, users input initial and final conditions, including dry bulb temperature, wet bulb temperature, relative humidity, and dewpoint temperature. The calculator generates accurate results for various parameters by leveraging the knowledge and guidelines outlined in the ASHRAE Handbook. The Condensate Rate Calculator goes beyond a simple analysis of psychrometric conditions by offering valuable insights into condensate generation. By entering the appropriate data, users can obtain condensate rates in different units, such as pounds per hour (lb/hr), kilograms per hour (kg/hr), gallons per hour (gal/hr), pints per day, and BTUs per hour (BTU/h). This information allows professionals in various fields to make informed decisions about sizing condensate pumps, dehumidifiers, and other relevant equipment. HVAC (heating, ventilation, and air conditioning) engineers, mechanical engineers, energy auditors, and facilities managers frequently encounter situations where accurate calculations of condensate rates are vital for system design, optimization, and equipment selection. The calculator saves valuable time and effort, providing precise results that assist in making informed decisions and ensuring the efficiency and performance of HVAC systems. Professionals involved in industrial processes, such as manufacturing, pharmaceuticals, and food production, can utilize the Condensate Rate Calculator to assess and manage moisture levels in their environments. By understanding the condensate generation rates, they can implement appropriate measures to prevent damage, maintain product quality, and ensure a safe and controlled working environment. Adicot, Inc.'s Condensate Rate Calculator offers a powerful and versatile solution for HVAC, engineering, energy auditing, and industrial process professionals. This calculator empowers users to make informed decisions and optimize their systems for efficient operation by providing a comprehensive psychrometric analysis and accurate condensate rate calculations. condensate rate

FLORIDA BUILDING CODE ENERGY CONSERVATION FILLABLE FORM C402-2020 ALTERATIONS, RENOVATIONS, AND BUILDING SYSTEMS Click here for the Fillable Residential Energy Form Welcome to Adicot, Inc.'s Fillable Florida Energy Code Form C402-2020 , which includes the 2022 Supplement to the 7th Edition (2020) Florida Building Code (Supplement 1) . Adicot's fillable form allows users to easily and quickly calculate compliance with Florida's Energy Code requirements. This form is based on the 7th Edition of the Florida Energy Conservation Code. It is a fillable form, so users can quickly update and save their calculations for future reference. This form is invaluable for engineers, contractors, architects, and builders. ​ Instructions: Enter the Project Information required fields: Project Name, Project County, Occupancy Type, Project Type, and Building Orientation. Note : if the County options are shown as [Dymanic Dropdown] , you must refresh the page. Enter any additional Project Information you have. Select which building components are changing. For example, if you are only changing the Air Conditioning System, select Yes next to Air Conditioning System and select No or leave blank every other building component. Scroll down to the BUILDING ENVELOPE and/or BUILDING SYSTEMS INFORMATION Section of the form and fill out each section in its entirety. Note : if any options are shown as [Dymanic Dropdown] , you must refresh the page. Click the Next -> button at the top or bottom of the form. Print your form by clicking on the Print button at the top or bottom of the form. ​ Commercial Enrgy

Choose your pricing plan Find one that works for you Monthly $ 1,000 1,000$ Every month Perfect for Businesses who are not ready for a long term commitment. Select 40 hours of Engineering Design Time. Additional Design Time billed at USD$225 per hour. Your calculator is hosted on Adicot's website. If practical, your calculator will be smart phone compatible We will promote your calculator on our Social Media Sites. Your calculator can include links to your webpage. Adicot will provide customer support to calculator users. No long term commitment. Cancel with 30 days notice. Terms may change. Best Value Annual $ 10,000 10,000$ Every year Perfect for those ready to commit and receive a 16.7% Discount Select 80 hours of Engineering Design Time. Additional Design Time billed at USD$225 per hour. Your calculator is hosted on Adicot's website. If practical, your calculator will be smart phone compatible We will promote your calculator on our Social Medial Sites. You calculator can include links to your webpage. Adicot will provide customer support to calculator users. One year commitment. Cancel before renewal date. Terms may change. Plans are renewed automatically. To cancel the Annual Plan, you must cancel prior to your renewal date. To cancel the Monthly Plan, you must provide 30 days notice to cancel.

Air Diffuser FPM CFM Calculator RELATED CALCULATORS: Coil Selection Calculator Condensate Generated Diffuser Size Calculator Psychrometric Calculations

Reheat/Heating Sizing Calculator Instructions: ​ Select US or Metric Units Enter the Reheat Coil Airflow, CFM [l/s] Enter the Leaving Reheat Coil Temperature, oF [oC] Enter the Entering Reheat Coil Temperature, oF [oC] The results are displayed in the Heating Coil Capacity Table ​ Note: for Reheat Coil Sizing Calculations, the Leaving Coil Temperature is customarily set to the room heating setpoint, and the Entering Coil Temperature is customarily set to the cooling coil leaving air temperature. Reheat Sizer Related Calculators: kW, HP, Btu/h, Ton, lbf/h Converter Coil Selection Calculator Psychrometric Chart Calculator Air Mixing Calculator Methodology and Equations: ​ In the context of air conditioning, "reheat" refers to a process that involves heating the air after the air conditioning system has cooled it. The purpose of reheating is to control the temperature and humidity levels in a conditioned space more precisely. In the reheat process, after the air has been cooled, it passes through a reheat coil, where it is reheated to a desired temperature and humidity level. The reheat coil is typically equipped with electric heaters or hot water coils. By adding heat back into the air, the system can achieve a more comfortable humidity level while maintaining the desired temperature. ​ Reheat is particularly useful in humid climates or situations where precise control over humidity levels is required, such as in laboratories, data centers, or specific industrial processes. ​ Heating Coil Capacity = 1.0882 x Q x (T Entering - T Leaving ) ​ where: Q = Aiflow, CFM [l/s] T Entering = Entering Coil Temperature, oF [oC] T Leaving = Leaving Coil Temperature, oF [oC] ​ ​ Example: Calculate the necessary reheating coil capacity for a 7.5-ton (3,000 CFM). The room heating set point is 70oF, and the cooling coil leaving air temperature is 52oF. ​ To reiterate the note in the instructions, "for Reheat Coil Sizing Calculations, the Leaving Coil Temperature is customarily set to the room heating setpoint, and the Entering Coil Temperature is customarily set to the cooling coil leaving air temperature." ​ Reheat coil capacity = 1.0882 x 3,000 CFM x (52oF - 70oF) = -58,762.80 BTU/h (where the negative value denotes heating) ​ This can be converted to kilowatts using the formula: 1kW = 3,412.14163 BTU/h ​ = -58,762.80 BTU/h x 1kW / 3,412.14163 BTU/h = -17.22 kW (where the negative value denotes heating) ​ ​ ​ Jump to an Example Reheat Coil Example

Circle Sphere Calculator ​​ Instructions: Review the methodology to ensure it aligns with your project's requirements. Select US or Metric Units Select Input type: Diameter​ of a Circle or Sphere Radius of a Circle of Sphere Circumference of a Circle of Sphere Area of a Circle Volume of a Sphere Area of a Sphere Enter Input value Select the units for the input value. Click the Calculate button The results are displayed in the Results table ​ ​ Methodology, Equations and Examples: Welcome to our Circle/Sphere Calculator! With our user-friendly tool, you can effortlessly find the area of a circle, the radius, the diameter, the circumference of a circle, and the area of a circle. Our Circle/Sphere Calculator also allows you to calculate the volume of a sphere and the surface area of a sphere. ​ This area of a Circle Calculator can easily Calculate the area of a circle, surface area of a sphere, volume of a sphere, circumference of a circle, radius of a circle, and diameter of a circle. Input any measurement, and our calculator will promptly provide you with the results of all other measurements, eliminating the need for manual calculations. ​ The mathematical constant π (pi) is vital for circle calculations. It is the ratio of a circle's circumference to its diameter. It is approximately equal to 3.14159. Our Circle Calculator employs this constant to ensure precise calculations. Cir Dia Area Circumference The radius is the distance between the center of a circle or sphere and any point on its circumference or surface. By determining the radius and diameter, you can find the circumference area and vice versa. Our Circle/Sphere calculator extends its capabilities to sphere calculations. If you have the volume or surface area of a sphere, our Circle/Sphere Calculator can swiftly calculate the radius and diameter. This feature is particularly u seful for engineers, mathematicians, and students who work with three-dimensional shapes. ​ The Equations for the radius, diameter, circumference, area of a circle, volume of a sphere, and surface area of a sphere are: ​ Diameter = 2 x R Area of a Circle = π x D^2 /4 Circumference = π x D Volume of a Sphere = 4/3 x π x R^3 Area of a Sphere = 4 x π x R^2 ​ where: D= diameter R= radius ​ Example 1 : A soccer ball has a volume of 5,575 cm^3 . Calculate the radius of the soccer ball. ​ Volume = 4/3 x π x R^3 ​ Rearrange terms to solve for R: ​ R = (3 x V / 4 / π )^(1/3) ​ Substitute given value for the Volume: ​ R = (3 x 5,575 cm^3 /4 / π ) = 10.9998 cm ​ Example 2 : Find the surface area of the soccer ball from Example 1 ​ Surface Area of a Sphere = 4 x π x R^2 ​ Substitute calculated value for the radius, R, Example 1 (10.9998 cm): ​ A = 4 x π x (10.9998 cm)^2 = 1,520.48 cm^2

Mechanical Equipment Wind Pressure Calculator Adicot, Inc.'s Mechanical Equipment Wind Pressure Calculator calculates lateral and uplift pressures on mechanical equipment installed on rooftops, wall-mounted equipment, or slab-mounted equipment. Our calculator utilizes the ASCE 7-16 Wind Pressure Methodology and Equations. Our calculator takes into account various parameters such as building height, exposure category, equipment location, and wind speed. Whether you are an engineer, architect, or contractor, our Mechanical Equipment Wind Pressure Calculator can help you determine the wind loads on equipment. ​ Instructions: Enter the equipment model number. This will be used for the results report. Select whether you are designing for rooftop equipment (y/n). If Yes: Select whether the project is located in Florida (y/n). In Florida, rooftop units installed on stands have minimum clearance requirements below the equipment for maintenance. Enter the clearance below the equipment or the equipment curb height [ft]. Enter the roof height [ft]. If No: Select whether you are designing for wall-mounted equipment or slab-mounted equipment at grade. Enter the equipment dimensions, Length, Depth, and Height [in] Select the Risk Category Enter the Ultimate Wind Velocity Enter the Exposure Category The lateral pressure and uplift pressure are shown in the table. Click on the Results tab at the top of the calculator for a pdf printout of the results. RELATED CALCULATORS: Coil Selection Calculator Dehumidifier Size Calculator Duct Size Calculator Diffuser Size Calculator Mech Equip

Breakeven Calculator Adicot, Inc.'s Breakeven Calculator is perfect for quickly and accurately determining the breakeven point of a project. It allows you to input your sales, variable costs, and fixed costs per period in order to calculate the breakeven point (number of units) and the profit period for the remaining units. With this calculator, you'll be able to make more informed decisions on your projects. ​ Instructions: Enter your Project Name in the Heading Enter the Sales per unit information: Sales price per unit, and​ Sales volume per period Enter the applicable per unit variable costs: Commission​ Direct material Shipping Supplies And any other variable costs Enter the fixed costs per period: Administrative Costs​ Insurance Property tax Rent And any other fixed costs The Breakeven Point as number of units, and the Profit per period for the remaining units are calculated and displayed in the results boxes. ​ RELATED CALCULATORS: Present & Future Value (Engineering Economics) Capital Gains Estimator Breakeven Calculator

Coil Selection Calculator RELATED CALCULATORS: Mixed Air Temperature Condensate Generated Cooling Load Ballpark Estimator Psychrometric Calculations Reheat/Heat Sizing Calculator Coil Selection Instructions: Review the methodology to ensure it aligns with your project's requirements. BTUH Capacity & Leaving Air Temperature Select US or Metric Units Sensible Cooling: Select the parameter for which to solve: Sensible Cooling, Volume Flow Rate, Leaving air Temperature, or Entering Air Temperature. Enter all of the required inputs. Click the Calculate button, and the Result will show below the table. Total Cooling: Select the parameter for which to solve: Total Cooling, Volume Flow Rate, Leave air Enthalpy, or Entering Air Enthalpy (note there is a Calculate Enthalpy button to take you to our Psychrometric Calculator to solve for Enthalpy).​ Enter all of the required inputs. Click the Calculate button, and the Result will show below the table. Latent Cooling Select the parameter for which to solve: Latent Cooling, Volume Flow Rate, Leave air Humidity Ratio, or Entering Air Humidity Ratio (note there is a Calculate Humidity Ratio button which will take you to our Psychrometric Calculator to solve for Humidity Ratio).​ Enter all of the required inputs. Click the Calculate button, and the Result will show below the table. ​ Area & Velocity Select US or Metric Units Enter the fin length and height Enter the flow rate Click the calculate button, and the Results will show below the table. ​ Water and Glycol Flow Select US or Metric Units Select the parameter for which to solve: Fluid Capacity, Volume Flow Rate, Entering Temperature, or Leaving Temperature. Enter all of the required inputs. Click the calculate button, and the Result will show below the table. ​ Water Velocity Select US or Metric Units Enter flow rate, tube diameter, and number of tubes. Click the calculate button, and the Result will show below the table. Methodology and Equations :​ ​ BTUH Capacity & Leaving Air Temperature The following equations are used in this calculator: ​ Sensible Cooling [BTU/h] = CFM x 1.0746 x (T1 – T2) Latent Cooling [Btu/h] = CFM x 0.69143 x (G1 – G2) Total Cooling [Btu/h] = CFM x 4.5 (H1 – H2) ​ where CFM = volume flow rate [cfm] G1= Entering humidity ratio [grains,moisture/lb,dry air] G2 = Leaving humidity ratio [grains,moisture/lb,dry air] H1 = Entering enthalpy [BTU/lb, dry air] H2 = Leaving enthalpy [BTU/lb, dry air] T1 = Entering air temperature [oF] T2 = Leaving air temperature [oF] Area & Velocity The following equations are used in this calculator: Coil area [ft] = Fin height x Fin length / 144 in^2/ft^2 Air Velocity = CFM / FPM ​ where CFM = volume flow rate of air [cfm] FPM = velocity of air [fpm] Water and Glycol Flow The following equation is used in this calculator: ​ Fluid capacity [BTU/h] = rho x cp x (T1 - T2) x [GPM] x 60 min/hr ​ where rho = fluid density [lb/gallon] cp = specific heat of fluid [Btu/lb-oF] T1 = Entering fluid temperature [oF] T2 = Leaving fluid temperature [oF] GPM = Volume flow rate [GPM] ​ Water Velocity The following equations are used in this calculator: ​ V = Q x C / ID^2 / No. of Tubes ​ where C = English Unit Conversion Constant = 0.408498 ID = Tubing Inner Diameter [in] Q = flow rate [GPM] V = velocity [f/s] ​ ​