Automatic switching two pipe hydronic system
First Claim
1. An automatic switching two pipe hydronic system, comprising:
- a supply line configured to supply a conditioned fluid to a space;
a return line configured to return utilized conditioned fluid from the space;
a primary boiler in fluid communication with the supply line and the return line, the primary boiler capable of operating in a first full load condition;
a secondary boiler in fluid communication with the supply line and the return line, the secondary boiler capable of operating in a first part load condition;
a heat exchanger in fluid communication with the supply line and the return line, the heat exchanger configured to transfer heat between the return line and the supply line;
a primary chiller in fluid communication with the supply line and the return line, the primary chiller capable of operating in a second full load condition;
a secondary chiller in fluid communication with the supply line and the return line, the secondary chiller capable of operating in a second part load condition;
a cooling tower in fluid communication with the heat exchanger, the primary chiller and the secondary chiller, the cooling tower configured to take away heat from the heat exchanger, the primary chiller and the secondary chiller;
at least one closed loop pump having a variable speed drive, the closed loop pump capable of regulating the flow between the return line and the supply line;
a plurality of flow controls valves disposed in the supply line and the return line, the flow controls capable of controlling the flow of fluid through the supply and return line and the primary boiler, the secondary boiler, the heat exchanger, the primary chiller, the secondary chiller, and the cooling tower;
a plurality of sensors for sensing an outside space temperature, an inside space temperature, and temperature of the fluid in the supply line and the return line;
a bypass pipe and automatic flow control valve entering the cooling tower below a cooling tower fluid distribution pan; and
a controlling module configured to acquire temperatures from the plurality of sensors and capable of controlling the flow of fluid through the flow control valves.
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Accused Products
Abstract
Disclosed is an automatic switching two pipe hydronic system for conditioning a space. In one embodiment the two pipe hydronic system enables automatic switching from a first mode of operation to a second mode of operation or vice versa in a reduced span of time. The present invention saves fuel, energy and water, when there are lower load conditions that affect boilers, chillers, and cooling towers. In another embodiment, the present invention provides a system for simultaneously heating and cooling a first portion and a second portion of a space by utilizing a plurality of boilers, chillers, heat exchangers, condenser pumps and closed loop pumps by using a plurality of sensors indicating the temperatures inside and outside the space and a controlling module controlling the operation of the system. The present invention can be easily achieved by making minor configurational modifications to existing systems thereby increases system versatility.
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Citations
6 Claims
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1. An automatic switching two pipe hydronic system, comprising:
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a supply line configured to supply a conditioned fluid to a space; a return line configured to return utilized conditioned fluid from the space; a primary boiler in fluid communication with the supply line and the return line, the primary boiler capable of operating in a first full load condition; a secondary boiler in fluid communication with the supply line and the return line, the secondary boiler capable of operating in a first part load condition; a heat exchanger in fluid communication with the supply line and the return line, the heat exchanger configured to transfer heat between the return line and the supply line; a primary chiller in fluid communication with the supply line and the return line, the primary chiller capable of operating in a second full load condition; a secondary chiller in fluid communication with the supply line and the return line, the secondary chiller capable of operating in a second part load condition; a cooling tower in fluid communication with the heat exchanger, the primary chiller and the secondary chiller, the cooling tower configured to take away heat from the heat exchanger, the primary chiller and the secondary chiller; at least one closed loop pump having a variable speed drive, the closed loop pump capable of regulating the flow between the return line and the supply line; a plurality of flow controls valves disposed in the supply line and the return line, the flow controls capable of controlling the flow of fluid through the supply and return line and the primary boiler, the secondary boiler, the heat exchanger, the primary chiller, the secondary chiller, and the cooling tower; a plurality of sensors for sensing an outside space temperature, an inside space temperature, and temperature of the fluid in the supply line and the return line; a bypass pipe and automatic flow control valve entering the cooling tower below a cooling tower fluid distribution pan; and a controlling module configured to acquire temperatures from the plurality of sensors and capable of controlling the flow of fluid through the flow control valves. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification