Fondamentaux Et Ingénierie
Construction de la pompe (Partie 1)
In 1689 the physicist Denis Papin invented the centrifugal pump and today this kind of pump is the most used around the world. The centrifugal pump is built on a simple principle: Liquid is led to the impeller hub and by means of the centrifugal force it is flung towards the periphery of the impellers. The construction is fairly inexpensive, robust and simple and its high speed makes it possible to connect the pump directly to an asynchronous motor.
Expansion Valves Selection
The expansion valve regulates the amount of compressed liquid refrigerant moving into the evaporator. It removes pressure from the liquid refrigerant to allow expansion or change of state from a liquid to a gas in the evaporator. In order to properly select Expansion Valves one should pay attention to the items that we mention in this post.
Water Hammer (Part1)
Under unfavorable circumstances, damage due to water hammer may occur in pipelines measuring more than one hundred meters and conveying only several tenths of a liter per second. But even very short, unsupported pipelines in pumping stations can be damaged by resonant vibrations if they are not properly anchored. By contrast, the phenomenon is not very common in building services systems, e.g. in heating and drinking water supply pipelines, which typically are short in length and have a small cross-section.
Tube à eau contre les chaudières à tube d'incendie
Les chaudières à tubes d'eau et les chaudières à tubes de fumée sont deux types différents de chaudières à vapeur couramment utilisées dans les applications industrielles et commerciales. Les deux types de chaudières utilisent un système de tubes pour générer de la vapeur, mais elles diffèrent par la manière dont les tubes sont disposés et par la manière dont les gaz chauds du brûleur passent à travers les tubes.
Formules de réfrigération et calculs
These formulas are commonly used in the field of refrigeration and air conditioning to calculate various performance parameters of a refrigeration system such as compression work, compression power, coefficient of performance, net refrigeration effect, capacity, compressor displacement, heat of compression, volumetric efficiency, and compression ratio. These formulas are based on the thermodynamics principles and are generally used to evaluate the performance of the refrigeration system and to optimize its design.
Le coefficient de vitesse (CV)
Cv, or coefficient of velocity, is a measure of the flow capacity of a valve. It represents the number of gallons per minute (GPM) of water at 60°F that will flow through a valve with a one-inch opening at a pressure drop of one pound per square inch (PSI). Cv can be calculated using various formulas, such as the one based on water at 60F and one that takes into account the specific gravity of the fluid. Cv is a theoretical value and it may vary depending on the actual conditions of the valve. When selecting a valve for a specific application, it is important to consider the Cv in relation to the flow rate and pressure drop requirements of the system, as well as other factors such as ease of maintenance, cost, and safety.
Pipe Insulation Guideline
Pipe insulation is crucial for maintaining energy efficiency, temperature control, condensation control, noise reduction, and safety. ASHRAE provides specific thickness recommendations for different pipe sizes and temperature ranges in its standard 90.1. When selecting pipe insulation based on ASHRAE standards, it’s important to consider the temperature, pipe size, environmental considerations, fire resistance, and energy efficiency.
Tuyauterie de réfrigérant - partie 2
Dans cet article, nous poursuivrons notre formation complète sur la façon de dimensionner la tuyauterie de réfrigérant. Nous couvrirons tous les aspects importants de ce processus, y compris la détermination de la taille du tuyau, de la chute de pression et d'autres facteurs. Nous discuterons également de sujets tels que de dimensionnement des lignes de réfrigérant, une longueur équivalente pour les lignes de réfrigérant et comment déterminer la longueur équivalente. Avec cette formation, vous aurez les connaissances et la confiance nécessaires pour tailler les tuyaux de réfrigérant avec précision et correctement dans n'importe quelle situation.
Normes Et Conformité
Estimation de la charge HVAC: gain de chaleur interne des composants des infrastructures (tuyaux, conduits, réservoirs, moteurs AC)
Complete guide to internal heat gain from HVAC infrastructure components including pipes, ducts, tanks, and motors using Carrier standards for accurate load estimation and system design.
Estimation de la charge HVAC: gain de chaleur interne de l'équipement et des appareils
Complete guide to internal heat gain from equipment and appliances in HVAC load estimation using ASHRAE, CIBSE, and Carrier standards for accurate system sizing and equipment integration.
Estimation de la charge HVAC: gain de chaleur interne de l'éclairage
Complete guide to internal heat gain from lighting systems in HVAC load estimation using ASHRAE, CIBSE, and Carrier standards for accurate system sizing and lighting-HVAC integration.
Estimation de la charge HVAC: Valeurs de vitrage et valeurs de coefficient d'ombrage (SC)
Complete guide to glazing U-values and shading coefficients for HVAC load estimation using ASHRAE, CIBSE, and Carrier standards for accurate fenestration thermal and solar analysis.
Estimation de la charge HVAC: Construction des valeurs U pour les murs, les toits et les cloisons
Complete guide to construction U-values for walls, roofs, and partitions in HVAC load estimation using ASHRAE, CIBSE, and Carrier standards for accurate thermal analysis.
Processus psychrométriques CVC : graphiques, calculs et applications de traitement de l'air
Complete guide to psychrometric processes in HVAC design covering sensible/latent cooling, heating, humidification, dehumidification, and evaporative cooling using ASHRAE and CIBSE standards.
Estimation de la charge de refroidissement et de chauffage CVC : conditions extérieures et données climatiques
Comprehensive guide to outdoor climate data for HVAC load estimation using ASHRAE, CIBSE, and Carrier standards. Essential weather parameters for accurate system sizing and energy analysis.
Stratégie de sélection et de conception des systèmes CVC : normes et lignes directrices professionnelles
Comprehensive guide to HVAC system selection and design strategy using ASHRAE, SMACNA, and Carrier standards. Learn professional methodologies for optimal system selection and performance optimization.
Équations de conception CVC : calculs d'air, de ventilateur, de pompe et de système hydronique
Comprehensive guide to essential HVAC design equations covering air, fan, pump, and hydronic system calculations. Reference standards from SMACNA, ASHRAE, and Carrier for professional engineering applications.
Outils Et Ressources Numériques
Livres de clinique de climatisation Trane
These clinics are comprehensive and detailed courses used to educate on the fundamentals heating, ventilating, and air conditioning (HVAC). Each clinic includes a student workbook, with corresponding quiz questions/problems.
Carrier Technical Development Programs (Tdp) Books
Technical Development Programs (TDP) are modules of technical training on HVAC theory, system design, equipment selection and application topics. They are targeted at engineers and designers who wish to develop their knowledge in this field to effectively design, specify, sell or apply HVAC equipment in commercial applications.
Rhvac – Residential Hvac Loads And Duct Sizes
Rhvac can calculate peak heating and cooling loads (both block and room by room) for residential buildings and some light commercial applications in accordance with ACCA Manual J, D, and S. Rhvac include a complete ACCA Manual D duct sizing capability and a complete Manual S equipment selection.
Couleurs des conteneurs de réfrigérant
Cette directive est destinée aux conseils de l'industrie, y compris les fabricants, les ingénieurs, les installateurs, les entrepreneurs et les utilisateurs.
Refrig - Charges de boîte de réfrigération
Refrig quickly calculates the maximum refrigeration load in btu’s per 24 hour period for all types of refrigeration applications. Refrig has provision for all kinds of loads including: roofs, walls, partitions, floors, products, containers, infiltration, lights, equipment, people, defrost, compressor run-time, and more.
3E Plus Software
NAIMA’s FREE 3E Plus® software program makes it easy to calculate the appropriate insulation thickness necessary for any application. To ensure accuracy, the program has customizable inputs for every aspect of your job—and offers default values if your exact numbers aren’t available.
Diagramme de PH des réfrigérants
The pressure-enthalpy diagram (log P/h diagram) is a very useful tool for refrigerant technicians, engineers and researchers. Since it’s not always possible to have all of these diagrams together, we decided to give you this complete pack.
Espérance de vie de l'équipement HVACR
Below you can see ASHRAE chart of HVAC Equipment Life Expectancy. The chart includes a list of median life expectancy for the following types of equipment: