SEERS International. Hybrid Hot Water Systems. Innovation Technology

SEERS International Hybrid Hot Water Systems Innovation Technology

EFFECTS OF GLOBAL WARMING

Invented & Manufactured By : Seers International Patent Number: PI-20082195

5 th Generation Hybrid Hot Water System 1 st Generation GAS 2 nd Generation Electrical Heater (Electricity) 3 rd Generation Solar Power (Electricity & Sun) 4 th Generation Heat Pump (Electricity & Compressor) 5 th Generation SEERS Hybrid Hot Water System (Ambient Air)

SEERS Hybrid Hot Water System is available in 4 sizes 100L 150L 300L 500L 5-6 persons 6-10 persons 10-18 persons 18-30 persons

WHAT IS HYBRID HOT WATER SYSTEM? Water Heating - No.1 residential energy consumption - Percentage of energy used in water heater is a major factor Latest Technique - Requires minimal energy - Standard water heater uses approx. 3000 Watt & above, whereas SEERS Hybrid Hot Water System uses only 480 watt - obtain the energy source our revolutionary 12V DC driven system - abundant of free energy extracted from ambient air

WHAT IS HYBRID HOT WATER SYSTEM? Proven as high performance & cost effective technique - obtain heat energy from ambient air and without the needs of :- 1). high power heating elements 2). electric booster 3). hermetic compressor Hybrid Technology - designed to absorb heat from the ambient air and transfer it into the water

HOW DOES HYBRID HOT WATER SYSTEM WORK? Ambient Air consists of hot and cold molecule When the system is activated, a high efficient heat exchange unit in the system will absorb high volume of heat energy from atmospheric temperature through a suction fan A high volume of low temperature heat molecules from the surroundings will capture and boost up to a higher temperature heat Next process, the heat transfer and accumulate it will eventually heat up the fresh water inside the hybrid water storage tank without high power consumption heating elements and electric booster Our eco-friendly hybrid system will release back cool molecules after the process and flow back to the surroundings

System Diagram Hot Water Temp Cold Water Temp

Power Consumption Against Storage Heater System SEERS Hybrid Hot Water System Storage Hot Water System Start Temperature : 30C Achieved Temperature : 70C Capacity : 150L Time Consumed : 4 hours Power Consumption : 2kwh Start Temperature : 30C Achieved Temperature : 70C Capacity : 150L Time Consumed : 2.4 hours Power Consumption : 6.12kwh TNB Charges : RM0.35/kwh x 2 =RM0.70 TNB Charges : RM0.35/kwh x 6.12 =RM2.14 Power Storage Hot Water System W 0 5000 10000 Seers

Return On Investment SEERS Hybrid Hot Water System Power Consumption : 2kwh Storage Hot Water System Power Consumption : 6.12kwh TNB Charges : RM0.35/kwh x 2 = RM0.70 365days x RM0.70 = RM255.50 TNB Charges : RM0.35/kwh x 6.12 = RM2.14 365days x RM2.14 = RM781.10 3 years x RM255.50 = RM766.50 3 years x RM781.10 = RM2,343.30

Seers Hybrid Energy Consumption Model Input Power per unit Running Hours System Capacity (KW/It`C) Temperature Raise SI 500L 1440 watts 6 hours 0.00077(KW/It`C) 22C-55C t1-t2

Calculation for 500L 1440 x 6 hours = 8,640 watts perday (fullday) 8,640 watts x 30 days = 259 kw 0.28 x 259 kw = 72.52 per month

HOTEL APPLICATION SEERS Hybrid Hot Water System Achieved Temperature : 50C Capacity Per Day : 10,000 Litres Peak Hour for Hot Water Usage Off Hour for Hot Water Usage AM 7 8 9 10 11 PM 12 13 14 15 16 17 18 PM 19 20 21 22 23 AM 0 1 2 3 4 5 6

Telok Blangah @ Singapore

Project References StrawBerry Park @ Cameron Highland

Project References @ Kelantan SBJ

Hotel MITC @ Melaka

Wisma Kemayan Cititel Hotel Penang

Hospital Project Gleneagles Pantai Hospital

Project References Lumina Kiara @ Mon t Kiara

THE ADVANTAGES OF THE SYSTEM Well developed temperature - thermostat control control circuitry - Thermo-insulated stainless steel water storage tank - wired remote control panel - temperature sensor Extra water storage tank - available for future expansion (Extender) without further investment on the heating system Suitable for installation at any locations Easy installation without hassle left equipment. Saves Energy

THE ADVANTAGES OF THE SYSTEM Overcome the shortcomings and drawbacks from other system : - restricted usage during night or during poor weather condition Environmental-Friendly - reduced temperature surroundings No major movement parts - Except suction fan - Low chances of mechanical failure - silent in operation.

THE ADVANTAGES OF THE SYSTEM This hybrid hot water systems may be used to heat water for home or business use, for swimming pool and industrial applications No Heating Element, Electric Booster and Hermetic compressor No Freon needed

Coefficient of performance ( SI 100L ) 1 kwh Input Supply Input Power Input Voltage = 860 kcal = 240V (AC) = 480 watt = 12V (DC) Output power = 3500 watt

C. O. P (SI 100L) Heat up water from 30 c to 60c ( T2 T 1 = T^ ) 100L X 60 c 30 c = 3000 kcal 3000 kcal / 860 kcal = 3.5 kw

Coefficient of performance ( SI 100L ) COP = Power output / Power input 3.5kw / 0.48kw = 7.3 Wow!!! Current known most efficient Hot Water System: More Efficient by 200% Electric heat pump hot water systems taken from Australian Standard 1056.1. The coefficient of performance (COP) range is 2.4-3.5

Cost Per Hour 3.5kw / 7.3 COP X 0.32 kwh (TNB) = RM 0.15 per hour 5 Hour X 0.15 = RM 0.75

Consumption Per Shower Shower per person usage 20L hot water 20L X 30c = 600 kcal 600kcal / 860kcal / 7.3(COP) X 0.32kwh Huh!? Less than 3cents??? = RM 0.03 per shower