Thermodynamics - BIOENERGY

solar

|thermodynamics

solar |thermodynamics

solar panel thermodynamic The solar panel acts as evaporator within the thermodynamic cycle of vapor-compression heat pump. Inside the panel, there is an environmentally friendly refrigerant at low temperature (even below 0ÂşC). The panel absorbs the heat from the environment and raises the temperature of the refrigerant which is pressurized and circulated through the system by a compressor. Next words, the refrigerant is circulated through a condenser which transfers the heat to the water in the tank. Other elements of the thermodynamic group are the expansion valve, etc. Solar thermodynamics panels operate all day and any season. THERMODYNAMIC PANEL

Technical features

Material Superficial absorving finish Total collector area Dimensions Empty weight In/out pipes cross-section In/out pipes material

Aluminium Selective black 3,6m2 1950 x 920 x 20mm 7,6kg 5/16� Copper aluminium

hot water swimming pools’ temperature control heating

Panels have a lain surface for easing the architectural integration.

cooling

Additionally panels can be painted in several colors.

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solar |thermodynamics

bioenergy thermodynamic system Bioenergy’s innovative heater is based on a heat pump system that takes advantage of the solar and the environmental energy for an efficient water heating. This way, consumption is much lower than conventional systems’ one, even reaching an annual average performance 20% higher than other thermal systems in the market.

a new compact solar equipment concept

Description It is a heat pump-based system that uses a panel as evaporator and/or an indoor heat exchanger for absorbing the solar and the environmental energy achieving a global performance increase. A heat exchanger, called a condenser, transmits the absorbed energy to the water by means of an environmentally friendly refrigerant (R134a). Moreover there is no direct contact between the refrigerant cycle and the water thus avoiding contamination in case of leakage. Bioenergy thermodynamic system’s COP goes from 2.5 to 5.5. Available in 200, 300 and 500l.

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TD-E series

solar |thermodynamics fotovoltaica | bipv Outdoor thermodynamic panel: it takes advantage of solar radiation increasing performance.

HOT WATER

Complies with the HE4 “Minimum solar contribution� of CTE WATER SYSTEM TD-E SERIES

TECHNICAL DATA

Acumulation volume (l) Evaporator Power supply Thermal capacity (W) Consumed power (W) Antilegionella and emergency resistance Tannk material accumulator Isolation External cover Dimensions (mm)

D4TDE200 200 Thermodynamic panel (1960 x 920 x 20 mm) 230 / 1 Phase / 50 Hz 2500 - 1500 W 500 W 2000 W Stainless steel Injected polyurethane 40 Kg/m White lacquered steel 1350 x 575 x 590

COMPONENTS

1. Compressor 2. Condenser 3. Boicer 4. Deshidratador 5. Expansion value 6. Resistance 7. Deposit

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D4TDE300 300 Thermodynamic panel (1960 x 920 x 20 mm) 230 / 1 Phase / 50 Hz 2500 - 1500 W 500 W 2000 W Stainless steel Injected polyurethane 40 Kg/m White lacquered steel 1920 x 575 x 590

TD-I series

fotovoltaica | bipv solar |thermodynamics Indoor thermodynamic panel: for those locations where it is not possible to install a panel outdoor. The evaporator takes advantage of environment energy for water heating.

inner air

HOT WATER

WATER SYSTEM TD-I SERIES

TECHNICAL DATA

Acumulation volume (l) Evaporator Power supply Thermal capacity (W) Consumed power (W) Antilegionella and emergency resistance Tannk material accumulator Isolation External cover Dimensions (mm)

D4TDE200

D4TDE300

200 Internal exchanger with fan 230 / 1 Phase / 50 Hz 2500 - 1500 W 500 W 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 1350 x 575 x 590

300 Internal exchanger with fan 230 / 1 Phase / 50 Hz 2500 - 1500 W 500 W 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 1920 x 575 x 590

COMPONENTS

1. Compressor 2. Condenser 3. Deshidratador 4. Expansion value 5. Deposit 6. Fan 7. Evaporator

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TD-EI series

solar |thermodynamics fotovoltaica | bipv It combines both series’ advantages in a single equipment that consists of an outdoor panel for solar radiation and an indoor heat exchanger. The latest will operate during unfavorable external conditions.

inner air

HOT WATER

WATER SYSTEM TD-EI SERIES

TECHNICAL DATA

Acumulation volume (l) Evaporator Power supply Thermal capacity (W) Consumed power (W) Antilegionella and emergency resistance Tannk material accumulator Isolation External cover Dimensions (mm)

D4TDE200

D4TDE300

200 Thermodynamic panel +exchanger INT. C/V 230 / 1 Phase / 50 Hz 2500 - 1500 W 500 W 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 1350 x 575 x 590

300 Thermodynamic panel +exchanger INT. C/V 230 / 1 Phase / 50 Hz 2500 - 1500 W 500 W 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 1920 x 575 x 590

COMPONENTS

1. Compressor 2. Condenser 3. Boicer 4. Deshidratador 5. Expansion value 6. Deposit 7. Fan 8. Evaporator

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EI-500 series

solar |thermodynamics fotovoltaica | bipv Outdoor thermodynamic panel: it takes advantage of solar radiation increasing performace.

inner air

HOT WATER

WATER SYSTEM TD-500 SERIES

TECHNICAL DATA

Acumulation volume (l) Evaporator 1 Evaporator 2 Power supply Thermal capacity (W) Consumed power (W) Antilegionella and emergency resistance Tannk material accumulator Isolation External cover Dimensions (mm)

D5TDEI500 500 Thermodynamic panel (1960 x 920 x 20 mm) Internal exchanger with fan 230 / 1 Phase / 50 Hz 5000 - 3000 W 1000 W 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 2000 x 595 x 710

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TDF series

solar |thermodynamics fotovoltaica | bipv COP 12, 74

TDF series is a compact solution of a solar thermal system with a thermodynamic support within. Freedom to choose the thermal panel model. Easy to install: all connections are hydraulic hence no specialist is required. The installation can be completed by a plumber. Double solar use: it takes advantage of solar energy directly, using a solar coil, and indirectly to evaporate the heat pump’s refrigerant increasing collector’s performance.

inner air

HOT WATER

COP annual average=12’74***

WATER SYSTEM TD SERIES ***Weather conditions: Madrid, 2 selective flat plate, catchment area = 4 m TECHNICAL DATA

Acumulation volume (l) Evaporator 1 Evaporator 2 Power supply Thermal capacity (W) Consumed power (W) Antilegionella and emergency resistance Tannk material accumulator Isolation External cover Dimensions (mm)

D6TDF200

D6TDF300

200 Thermodynamic solar-exchanger Internal exchanger with fan 230 / 1 Phase / 50 Hz 2800 - 3800 W 500 W (F200/300) 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 1350 x 575 x 590

300 Thermodynamic solar-exchanger Internal exchanger with fan 230 / 1 Phase / 50 Hz 2800 - 3800 W 500 W (F200/300) 2000 W Stainless steel Injected polyurethane 40 Kg/m Gray lacquered steel 1920 x 575 x 590

COMPONENTS

1. Deposit 2. Comprenssor 3. Enthalay recovery 4. Forced evaporator 5. Solar coil 6. Condenser 7. Expansion value 8. Solar pump

TD-F series consumes up to a 90% less than an electric thermo.

9. Thermal panel output 10. Input from thermal panel 11. Hot water outlet 12. Electrical connection 13. Water inlet 14. Drain

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solar |thermodynamics

Why choosing Bioenergy? - money + ecology

BIOENERGY is an energy saving system for water heating.

No matter weather conditions Hot water is produced under any atmospheric condition. The system works also at night and under windy and/or rainy conditions. Additionally it does not require from an auxiliary system such as traditional solar systems.

The very best

Corrosion-resistant, high quality materials that enlarge installations lifespan and reliability.

Capacity: TD200, TD300 or TD500?

TD200 is suitable for families with 2 to 5 members. From 5 to 7 members TD300 is the best solution. TD500 is recommended for families with more than 8 members.

Thermodynamic system Why choosing Bioenergy TD-F?

Freedom to choose the thermal panel model. 200, 300 and 500l available models. Maximum use of solar energy.

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solar |thermodynamics

energy efficiency factor Thanks to its double solar and thermodynamic working functions, BIOENERGY THERMODYNAMIC SYSTEM can produce more than 12kWh per each kWh supplied. Its thermodynamic technology generates 3.5kWh per each kW consumed which is equivalent to a 1,200% and 350% energy efficiency respectively. Conversely a conventional electric thermal system reaches a maximum performance of 98% compared to the consumed primary energy.

you will reduce up to 3 tons of CO2 annually.

Any high efficiency boiler can reach a maximum of 95% performance, this is to say, it consumes more energy than generates.

1400% 1200%

1200%

1000% 800% 600%

350%

400% 200%

98%

95%

0% TD-F

TD-I / TD-E

electric thermal

TD-E SERIES

TD-I SERIES

TD-F SERIES

TD-EI SERIES

Boiler

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HEATING LARGE VOLUMES OF WATER

solar |thermodynamics Descriptive characteristics: THERMODYNAMIC GROUP: It is composed of a high efficiency compressor, a thermostatic expansion valve, a heat exchanger, high-performance and environmentally friendly refrigerant R407C and an electronic controller. Reversible equipment for heating and cooling installations. Automatic defrost function. Protection systems against high/low pressure operation and against freezing, overheating and discharge high temperatures. Flow switch to protect against variations or stopping the flow of water. Including forced draft unit for increased performance against low temperatures.

Indirect evaporative characteristics:

With direct or indirect evaporation!

The evaporation is done indirectly through a heat exchanger with the solar circuit.

Direct evaporation characteristics:

In this way a stable evaporation temperature is achieved increasing system performance.

The evaporation is performed in thermodynamic panels, made of aluminum with lining absorber.

Collectors can be flat or evacuated tube ones, both types accomplish with all market standards.

TECHNICAL FEATURES MODEL D7TDN4 D7TDN6 D7TDN8 Heat power 7 8,5 13,1 nominal (kW) Current consumption (A) 7,8 9,1 16,1 Electrical power 1,7 2 3,4 nominal (kW) Power supply 230 / 1 / 50 (V/ph/Hz) No. panels (und.) 4 6 8 Number of compressors (und.) Compressor type Piston Water connection (in/out) (inch) Minimum flow of water 0,32 0,40 0,63 into the compressor (l/s) Panel dimensions (length / high / depth) (mm) Module weight (kg) Equipment Dimensions 760 / 445 /750 (length / high / depth) (mm) 2 Collection area (m ) 14,4 21,6 28,8

D7TDN12

D7TDN16

D7TDN24

D7TDN32

D7TDN40

15,8

23,4

32,3

46,2

54,3

19,4

9,93

13,2

18,9

23,86

4

5,8

7,8

11,3

13,8

24

32

40

1,54

2,2

2,6

115,2

144

380 / 3 / 50 12

16

1 Scroll 1 0,75

1,18

1960 / 920 / 20 8.0 880 / 495 / 750 43,2

57,6

86,4

CHOICE OF EQUIPMENT 1. Calculate the energy needs for heating / cooling: Heating power required (kW) = Living space (m2) x Ratio heating (W/m2) x 0.001 Cooling power required (kW) = Living space (m2) x Ratio cooling (W/m2) x 0.001 2. Choosing the equipment that generates the heating / cooling power similar or immediately greater than the value obtained. *Heating Ratio according to climate zones and type of home. Heating values of 90W / m; cooling of 80W / m.

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THERMODYNAMIC POOL EQUIPMENT

solar |thermodynamics fotovoltaica | bipv Our systems offer the possibility to enjoy the pool all year with low power consumption. The main features are: · Durability. · Installation Flexibility. · Quiet operation. · Advanced Controller.

The components of the thermodynamic solar heating systems for swimming pool are:

· Thermodynamic Panels · Compact unit, painted steel housing · High efficiency compressor. · high performance ecological refrigerant, R407c. · Incorporates titanium and PVC plate heat exchanger. · Systems of protection against high and low operating pressures, freezing overheating and high discharge temperatures. · Includes flow switch to protect against variations or stops in the water flow. · High performance against low temperatures due to the forced draft unit.

TECHNICAL FEATURES MODELO Heat power nominal (kW) Current consumption (A) Electrical power nominal (kW) Power supply (V/ph/Hz) No. panels (und.) Number of compressors (und.) Compressor type Water connection (in/out) (inch) Minimum flow of water into the compressor (l/s) Panel dimensions (length / high / depth) (mm) Module weight (kg) Equipment Dimensions (length / high / depth) (mm) Collection area (m2)

D8TDP4

D8TDP6

D8TDP8

D8TDP12

D8TDP16

D8TDP24

8,6

10,8

5,5

7

1,2

1,5

2,4

4

6

14,4

17,3

27,4

38,1

55,1

61,8

11,8

13,9

6,7

9,3

12,9

10,4

2,7

3,7

5,2

7,4

10,4

12

16

24

32

40

1,54

2,2

2,6

115,2

144

230 / 1 / 50

D8TDP32

D8TDP40

380 / 3 / 50

8

1 Pistón

Scroll 1

0,32

0,40

0,63

0,75

1,18

1960 / 920 / 20 8.0 760 / 445 / 750 14,4

21,6

28,8

880 / 495 / 750 43,2

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57,6

86,4