TH150130A - High-performance heating devices - Google Patents

Abstract

DC60 (25/07/14) High-performance heater 1 According to this invention, it has three key components: water pipe group 2, outer shell 3, top cover 4, mounted in such a way that each section acts as an exchanger. The tubular group (2) is characterized by a cross flow heat exchanger and is embedded in a porous material (18) at Contained inside the outer shell (3) the outer shell (3) has a double wall structure (water jacket), characterized by a combined swirl flow and counter flow heat exchanger. While the top cover (4) is characterized by a swirl flow heat exchanger, the cold water (10) flows into the outer shell (3) first and then flows to the water pipe group. (2) and the top lid (4) until it becomes hot water (14) in a bottom-up manner. Which contrasts with the hot gas (12) that flows through the high-performance heating device (1) from the top to the bottom, the high-performance heating device (1) is characterized as The heat exchanger and the burner parts can be separated independently for Easy maintenance, but still features that the water pipe group (2), which acts as a thermal load, continues to Embedded within the porous material (18) remains intact, both combustion and heat transfer can still occur. Simultaneously within the porous material (18) in order to provide the most efficient heat transfer to the water pipe group (2) by using the combined mode of heat transfer, both Convection Thermal conductivity And radiant heat until the steam in the hot exhaust gas condenses It turns into a liquid and is externally drained to a hole (28) at the bottom of this device (1). It is also highly fuel and combustion flexible. The hot gas (12) is generated From combustion and want to transfer heat to the heat exchanger in this device (1) can come from any burner Any type of flame (premixed flame or non-premixed flame) or any type of fuel (gaseous fuel or liquid fuel or mixed gas-liquid fuel) is simply connected to the hot gas conduit from the burner that flows into the device. (1) Only directly can make use of the heat.High performance heating apparatus 1 According to this invention, it has three key components: water pipe group 2, outer shell 3, top cover 4, mounted in such a way that each part does. Function as a separate heat exchanger, but connected in series, assembled in one unit.The water pipe group 2 is characterized by a cross flow heat ecxhanger and is embedded in 18 porous materials. The outer shell (3) has a double wall structure (water jacket), which is characterized as a combined swirl flow and counter flow heat exchanger. The top cover (4) is characterized by a swirl flow heat exchanger, cold water (10) flows into the outer shell (3) first. It flows towards the water pipe group (2) and the top cover (4) until it becomes hot water (14) in a bottom-up manner. Which contrasts with the hot gas (12) that flows through the high-performance heating device (1) from the top to the bottom, the high-performance heating device (1) is characterized as The heat exchanger and the burner parts can be separated independently for Easy maintenance, but still features the water pipe group (2), which serves as a thermal load. Immediately buried within the porous material (18), both combustion and heat transfer can still occur. Can be used simultaneously within porous materials (18) in order to maximize the efficiency of heat transfer to the water pipe group (2) by using combined mode of heat transfer, both Convection Thermal conductivity And radiant heat until the steam in the hot exhaust gas condenses It turns into liquid externally through holes (28) at the bottom of this device (1). It is also highly fuel and combustion flexible, ie, hot gas (12) that Caused by combustion and needs to transfer heat to the heat exchanger in this device (1) can come from any burner. Any type of flame (premixed flame or non-premixed flame) or any type of fuel (gaseous fuel or liquid fuel or mixed gas-liquid fuel) is simply connected to the water pipe. High performance heat (1) only directly can take advantage of heat.

Claims (1)

: DC60 (25/07/14) High-performance heater 1 According to this invention, it has three key components: water pipe group 2, outer shell 3, top cover 4, installed in such a way that each of them acts as an exchanger. The tubular group (2) is characterized by a cross flow heat exchanger and is embedded in a porous material (18) at Contained inside the outer shell (3) the outer shell (3) has a double wall structure (water jacket), characterized by a combined swirl flow and counter flow heat exchanger. While the top cover (4) is characterized by a swirl flow heat exchanger, the cold water (10) flows into the outer shell (3) first and then flows to the water pipe group. (2) and the top lid (4) until it becomes hot water (14) in a bottom-up manner. Which contrasts with the hot gas (12) that flows through the high-performance heating device (1) from the top to the bottom, the high-performance heating device (1) is characterized as The heat exchanger and the burner parts can be separated independently for Easy maintenance, but still features that the water pipe group (2), which acts as a thermal load, continues to Embedded within the porous material (18) remains intact, both combustion and heat transfer can still occur. Simultaneously within the porous material (18) in order to provide the most efficient heat transfer to the water pipe group (2) by using the combined mode of heat transfer, both Convection Thermal conductivity And radiant heat until the steam in the hot exhaust gas condenses It turns into a liquid and is externally drained to a hole (28) at the bottom of this device (1). It is also highly fuel and combustion flexible. The hot gas (12) is generated From combustion and want to transfer heat to the heat exchanger in this device (1) can come from any burner Any type of flame (premixed flame or non-premixed flame) or any type of fuel (gaseous fuel or liquid fuel or mixed gas-liquid fuel) is simply connected to the hot gas conduit from the burner that flows into the device. (1) Only directly can make use of the heat.High performance heating apparatus 1 According to this invention, it has three key components: water pipe group 2, outer shell 3, top cover 4, mounted in such a way that each part does. Function as a separate heat exchanger, but connected in series, assembled in one unit.The water pipe group 2 is characterized by a cross flow heat ecxhanger and is embedded in 18 porous materials. The outer shell (3) has a double wall structure (water jacket), which is characterized as a combined swirl flow and counter flow heat exchanger. The top cover (4) is characterized by a swirl flow heat exchanger. The cold water (10) flows into the outer shell (3) first and then flows downwards. Go to the water pipe group (2) and the top cover (4) to become hot water (14) in a bottom-up manner. Which contrasts with the hot gas (12) that flows through the high-performance heating device (1) from the top to the bottom, the high-performance heating device (1) is characterized as The heat exchanger and the burner parts can be separated independently for Easy maintenance, but still features the water pipe group (2), which serves as a thermal load. Immediately buried within the porous material (18), both combustion and heat transfer can still occur. Can be used simultaneously within porous materials (18) in order to maximize the efficiency of heat transfer to the water pipe group (2) by using combined mode of heat transfer, both Convection Thermal conductivity And radiant heat until the steam in the hot exhaust gas condenses It turns into liquid externally through holes (28) at the bottom of this device (1). It is also highly fuel and combustion flexible, ie, hot gas (12) that Caused by combustion and needs to transfer heat to the heat exchanger in this device (1) can come from any burner. Any type of flame (premixed flame or non-premixed flame) or any type of fuel (gaseous fuel or liquid fuel or mixed gas-liquid fuel) is simply connected to the water pipe. Only direct high-performance heat (1) can take advantage of the heat. Privilege (number one) which appears on the advertisement page: 1. High-performance heating devices (1), where they are characterized by a water pipe group (2), an outer shell (3) and a top cover (4), are installed in such a way that each of them acts as an exchanger. The tubular group (2) is characterized by a cross flow heat ecxhanger and embedded in a porous material (18) loaded. Inside the outer shell (3 tags: