For  residential applications:

For  Civil and commercial buildings  applications:

Moving beyond conventional air conditioning systems that prioritise temperature control while neglecting humidity regulation, we employ a heat recovery constant temperature and humidity dehumidification system. Temperature and humidity can be independently controlled year-round, ensuring straightforward and reliable operation. This significantly enhances spatial comfort while preventing mould growth mold contamination  caused by excessive humidity within the air conditioning system, thereby eliminating ‘air conditioning sickness’. By utilising waste heat, the regeneration energy required for rotorrotor dehumidification is virtually zero, delivering both energy efficiency and environmental sustainability.

l The heat recovery energy-saving constant temperature and humidity unit incorporates an advanced integrated automatic control system with high automation levels and an exceptionally large, user-friendly interface. Remote control functionality can be implemented according to client requirements;

l  Humidification section   can  be added optional . For venues such as hotels, hospitals, villas, and high-end residences where winter conditions can become dry and stifling, employing heat recovery energy-saving constant temperature and humidity units maintains a more comfortable environment during colder months, with humidity levels independently controllable.

Additionally, it incorporates self-diagnostic functions upon startup and various alarm features, such as filter differential pressure alerts block and overload warnings alarm. Multiple operating modes—including individual  fresh air-only and  individual return air-only—can be selected, ensuring straightforward maintenance while reducing energy consumption.

For industrial applications:

Abandoning the traditional energy-intensive approach of using refrigeration cooling  dehumidification followed by reheating in conventional air conditioning systems, these units employ higher energy efficiency ratio (EER) refrigeration units combined with desiccant rotorrotor dehumidification technology. This significantly reduces overall refrigeration energy consumption.

Simultaneously, tailored industrial waste heat recovery methods are implemented based on the specific type of residual (waste) heat available to the user. This achieves comprehensive and optimised energy utilisation, minimising overall energy consumption.

Based on clients' specific humidity requirements, Hodes conducts meticulous calculations to maximise utilisation of residual or waste heat as the desiccant rotor rotor regeneration heat source, employing traditional reheating only as compensation. This approach meets humidity specifications while achieving maximum energy savings for clients.

Key Components

* European-sourced high-efficiency heat recovery desiccant rotorrotor

* European European -imported desiccant rotorrotor motor and drive system

* European-imported rotorEuropean -imported rotor sealing system

* Imported brand high-temperature/high-humidity resistant regeneration fan and motor

* High-strength door panels and high-strength, low-leakage frame structure

* Imported brand compressor and refrigeration components

* Imported heat recovery energy-saving control unit

* Imported brand process fan, Siemens motor and standard filter

* Main electrical cabinet and Siemens control system

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