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Controle do diferencial de temperatura e da vazão de derivação

Sistema de vazão de derivação

Os sistemas distribuídos de grande porte, seja como um edifício ou parte de um sistema distrital maior, precisam de um bom diferencial de temperatura para funcionar com eficácia.

A aplicação da Energy Valve em cada unidade pode nem sempre ser prática e a instalação das Energy Valves nos principais elevadores ou na entrada do edifício para resfriamento distrital não é aconselhável, pois o Gerenciamento do Delta T pode consumir unidades individuais na totalidade enquanto tenta gerenciar um edifício inteiro.

Esquemático

O sistema mostrado na figura, utilizando Belimo Energy Valves™, oferece as seguintes funções vantajosas:

  • A vazão da derivação é monitorada e pode ser ajustada para evitar transbordar para o piso e também monitorar o diferencial de temperatura
  • A energia em cada derivação é monitorada. Isto pode ser registrado e um alarme é ativado se a demanda de qualquer derivação aumentar drasticamente
  • Agora é possível verificar a vazão em cada unidade de terminais usando o medidor de vazão acoplado à Energy Valve, abrindo um de cada vez. Fechar todas as válvulas confirmará se as válvulas estão permitindo a água passar quando fechadas ou se uma válvula de passagem está aberta
  • Transparência total da derivação (fluxo volumétrico, temperaturas, saída de resfriamento/aquecimento, etc.) com registro de dados e conexão com a Belimo Cloud

 

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Situações comuns em derivações de unidade de terminais e como a Belimo Energy Valve™ as soluciona

Larger buildings have complex distribution systems and are occupied, meaning that the retrofit of an Energy Valve on each terminal is impractical. However, lack of capacity at peak times or fines from district plant providers often drive building owners to look for a solution. The figure below shows a pressure dependent system with a single balancing valve. This is a typical contract installation of multiple low flow heating units, for example, used for underfloor heating.



Mechanical balancing valves only allow for a static balancing of the total flow to the floor, with unknown flow rates to each individual unit
This can be remedied by retrofitting Belimo Energy Valves™ to every branch. Monitoring the flow and delta T being supplied to a number of terminal units allows facilities teams to identify problem ‘passing units’ and bypasses left open. This focus improves efficiency quickly by offering a targeted approach to overcoming the issues being experienced. This involves replacing passing or stuck terminal valves with 'air bubble tight' zone valves, or closing a bypass valve that has been inadvertently left open.


Our need to operate more efficient buildings, drives the demand to check water flow rates not just once but multiple times during each season. Experience tells us tenant fit outs or changes to hydronic system adversely effect non-PI installations. However, even with PI valves installed, checking the identifying passing valves and open bypasses should remain a priority to keep delta T to an acceptable range.

By using an EV in the branch line, we are able to measure the total flow to the floor and also to each individual unit, if opened sequentially



With an EV, the branch flow can be measured when each valve is opened, allowing for verification


Ghost energy/passing/leakage is typically used to describe the process where water is unintentionally passing from the flow side to the return. A bypass is left open after maintenance or at axial valve leakage rates. These small rates quickly add up when a large number of them are applied. The rate at which these valves pass or leak is made worse over time by the accumulation of dirt on the seats of the valves.



An accidentally open bypass valve may not be discovered for weeks, months or even years

By using an EV in the branch line, we are able to measure the total flow to the floor and to each individual unit. You can ensure bypasses are closed and valves are not leaking. Should a number of terminal valves suffer from leakage, the characterised ball valve technology in the EV can be closed, hence providing a stop to the wastage when the branch is not in use.



With an EV, both leaking short-stroke valves or an open bypass can be clearly identified


Often, terminal units are statically balanced, which leads them to overflow and deliver low delta T when in part load. Valves may be allowing water past them when they should be closed. Sometimes, even a bypass left open can stay undetected, reducing the pressure and dragging the delta T down.



Low delta T syndrome

The Delta T Manager, integrated in the Belimo Energy Valve™, is a function that continuously measures the temperature spread. This information can either be used to raise an alarm while you are troubleshooting the branch, looking for passing/leaking valves or bypasses left open. Once the branch is performing as well as it can, you can enable Delta T Manager to limit overflows to the branch.



Delta T Manager

Caso de sucesso: hospital Ludmillenstift em Meppen/Alemanha

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A Energy Valve inteligente resolve problemas hidráulicos de longa data

O hospital Ludmillenstift em Meppen, Alemanha, é conhecido muito além da região local, devido ao seu padrão de atendimento médico, sua tecnologia para diagnóstico e terapêutica de última geração e sua atmosfera agradável. No entanto, um grande número de modernizações ao longo dos anos, na forma de extensões ou modificações, resultou em problemas nos circuitos de distribuição hidráulica do hospital. Finalmente isso foi corrigido com o uso das Energy Valves™ Belimo.

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