基礎とエンジニアリング
Hvac 空気量の計算
HVACシステムの空気量は、条件付き空間の賢明な熱から計算されます。典型的な暖房および冷却ユニットの場合、計算は冷却用です。なぜなら、それを加熱するよりも空気を冷却するために必要な空気が必要だからです。条件付きスペースを特定の量のCFMで適切に冷却できる場合、同じ量のCFMでスペースを正しく加熱できます。
蓄熱 (HVAC)
Thermal energy may be stored in three main ways: – Sensible Storage – Latent Storage – Thermo-Chemical Storage. In addition, the two common thermal storage strategies employed are: – Load Levelling Strategy – Load Shifting Strategy
Hydropneumatic Tank Sizing
Hydropneumatic tanks are primarily used in a domestic water system for draw down purposes when the pressure booster system is off on no-flow shutdown (NFSD). The NFSD circuitry turns the lead pump off when there is no demand on the system. While the system is off in this condition, the hydropneumatic tank will satisfy small demands on the system. Without the tank, the booster would restart upon the slightest call for flow such as a single toilet being flushed or even a minute leak in the piping system. Hydropneumatic tank sizing is dependent on two factors: – Length of time you wish the pumps to remain off in a no-flow situation. – The tank location in relation to the pressure booster.
ポンプのサイジングのコアコンセプト
Pump sizing involves matching the flow and pressure rating of a pump with the flowrate and pressure required for the process. The mass flowrate of the system is established on the process flow diagram by the mass balance. Achieving this mass flowrate requires a pump that can generate a pressure high enough to overcome the hydraulic resistance of the system of pipes, valves, and so on that the liquid must travel through. This hydraulic resistance is known as the system head.
Hvac Equations (U.S./Metric)
The heating, ventilation, and air conditioning (HVAC) equations. In both U.S. and Metric units.
膨張タンク
How does Boyle’s law relate to sizing expansion tanks in domestic hot water systems? what size expansion tank is required?
膨張タンクのサイズ計算式
Expansion tanks are a necessary part of all closed hydronic systems to control both minimum and maximum pressure throughout the system. A comprehensive review of tank types and sizing procedure for expansion tanks.
一次二次ポンピング
– What is Primary-Secondary Pumping? – PRIMARY-SECONDARY BASICS. – PRIMARY-SECONDARY RULES, DEFINITIONS. WHEN TWO PIPING CIRCUITS ARE INTER-CONNECTED, FLOW IN ONE WILL CAUSE FLOW IN THE OTHER, T0 A DEGREE DEPENDING UPON THE PRESSURE DROP IN THE PIPING COMMON T0 BOTH.
4-Pipe And 2-Pipe Heating And Cooling Plants
A 4-pipe heating and cooling plant contains both central heating and cooling equipment and is capable of delivering heating water and chilled water to the building simultaneously through four pipes (one heating water supply, one heating water return, one chilled water supply, and one chilled water return). Heating and cooling equipment within the building that is connected to a 4-pipe system will have four pipe connections, unless the equipment provides either heating only or cooling only. In this case, the equipment would have only two pipe connections.
一定の空気量(CAV)システム
HVAC air systems can be either centralized or decentralized. Centralized air systems receive their cooling and heating energy from a remote central plant. Decentralized HVAC air systems contain the central heating and cooling plant equipment within the air system itself. HVAC air systems can also be constant air volume (CAV) or variable air volume (VAV). CAV systems deliver constant supply airflow at a variable temperature. VAV systems deliver variable supply airflow at a constant temperature. CAV and VAV air systems can be further subdivided into systems that condition a single temperature zone and systems that condition multiple temperature zones.
標準とコンプライアンス
HVAC 換気設計: リフト/エレベーターの加圧
Complete guide to HVAC lift/elevator pressurization design using BS 5588-4 standards covering pressure control, airflow calculations, and elevator system integration for effective emergency vertical transportation protection.
HVAC 換気設計: 階段加圧 + リリーフベントのサイジング
Complete guide to HVAC staircase pressurization and relief vent sizing design using ASHRAE and BS standards covering pressure control, airflow calculations, and relief system integration for effective emergency egress protection.
HVAC換気設計: 廊下/エレベーターロビー/アトリウムメイクアップ/加圧
Complete guide to HVAC corridor, lift lobby, and atrium make-up air and pressurization design using CIBSE and ASHRAE standards covering pressure control, airflow calculations, and fire safety integration for effective emergency protection.
HVAC 換気設計: アトリウム煙抽出物
Complete guide to HVAC atrium smoke extraction design using CIBSE and ASHRAE standards covering smoke layer management, extraction calculations, and advanced fire safety integration for large-volume space protection.
HVAC 換気設計: 廊下/エレベーター ロビーの煙抽出
Complete guide to HVAC corridor and lift lobby smoke extraction design using CIBSE fire engineering standards covering smoke removal, pressure management, and life safety system integration for effective emergency ventilation.
HVAC 換気設計: 駐車場 CO システム
Complete guide to HVAC car parking CO detection systems using NFPA 720 standards covering carbon monoxide monitoring, alarm systems, ventilation integration, and safety protocols for parking facility protection.
HVAC 換気設計: 速度別の駐車場メイクアップ換気率
Complete guide to HVAC car parking make-up ventilation design using ASHRAE velocity-based methods covering air movement calculations, system integration, and performance optimization for effective parking facility ventilation.
HVAC 換気設計: 駐車場の換気率を抜粋
Complete guide to HVAC car parking extract ventilation design using CIBSE and BS standards covering CO control, air change rates, and specialized applications for safe and efficient parking facility ventilation systems.
HVAC Ventilation Design: Commercial Kitchen Ventilation Rates (Hood/Canopy, Ceiling Extract/Makeup)
Complete guide to HVAC commercial kitchen ventilation design using ASHRAE, CIBSE, and VA standards covering hood exhaust rates, makeup air requirements, and specialized applications for effective contaminant control and energy efficiency.
HVAC 換気設計: タバコ/喫煙エリアの換気率
Complete guide to HVAC smoking area ventilation design using CIBSE standards covering high-performance ventilation rates, specialized system requirements, and health protection strategies for tobacco use areas.
デジタルツールとリソース
Belimo SelectPro – 無料ダウンロード
Download SelectPro desktop app free. Size and select valves, actuators, and sensors with export builder, quote generator, and centralized reference documents. For HVAC engineers and contractors.
一般的なパイプ材料の熱膨張速度
インタラクティブ計算機を使用して、一般的なパイプ材料の熱膨張速度を簡単に計算します。正確なデータ、設計洞察、および金属およびプラスチックの実用的なテーブルを取得します。これは、システムの信頼性とエネルギー効率に焦点を当てたHVACエンジニア、デザイナー、コンサルタントにとって重要です。
HVAC機器寿命計算機
プロのHVAC機器の寿命計算機を作成しました。このアプリケーションは、さまざまなHVAC機器タイプの残りの耐用年数を決定するための包括的な計算を提供します。
最新のHVACアプリケーション向けのBIMソフトウェアソリューション
HVAC業界が2025年に進化し続けるにつれて、Building Information Modeling(BIM)は、設計、設置、およびメンテナンスプロセスを最適化しようとする専門家にとって不可欠なツールになりました。 HVACエンジニア、請負業者、および技術者の場合、適切なBIMソフトウェアを選択すると、プロジェクトの効率と結果に大きな影響を与える可能性があります。 HVACアプリケーションに最も効果的なBIMソリューションを調べてみましょう。
McQuayソフトウェアのダウンロード
McQuay(Daikin Industriesの一部として)は、HVAC/R業界で最大の空調、暖房、換気、冷蔵会社の1つです。したがって、この会社がダウンロードできる経験と知識に基づいて業界に紹介したソフトウェアを作成することにしました。
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ダイキン Revit ファイル
DAIKIN APPLIED RESOURCE LIBRARY – REVIT FILES Rooftop Systems Air Handlers – Outdoor Air Cooled Chillers Water Cooled Chillers Fan Coils Self-Contained Water Source Heat Pump Unit Ventilators