Heat Pump Stocks List

Related ETFs - A few ETFs which own one or more of the above listed Heat Pump stocks.

Heat Pump Stocks Recent News

Date Stock Title
May 2 LXU Insider Sale: EVP - Manufacturing John Burns Sells 33,243 Shares of LSB Industries Inc (LXU)
May 1 MOD Modine (MOD) Falls More Steeply Than Broader Market: What Investors Need to Know
May 1 LXU LSB Industries, Inc. (NYSE:LXU) Q1 2024 Earnings Call Transcript
May 1 MOD Should You Invest in Modine (MOD) Based on Bullish Wall Street Views?
May 1 LII Lennox Calls for Community Members to Nominate Local Heroes for Feel The Love Program
May 1 LXU LSB Industries First Quarter 2024 Earnings: Beats Expectations
May 1 LXU Q1 2024 LSB Industries Inc Earnings Call
Apr 30 LXU LSB Industries, Inc. (LXU) Q1 2024 Earnings Call Transcript
Apr 30 LXU LSB Industries, Inc. 2024 Q1 - Results - Earnings Call Presentation
Apr 30 TT Trane Technologies Surpasses Q1 Earnings Estimates and Raises Full-Year Guidance
Apr 30 TT Trane Technologies beats Q1 estimates, raises guidance
Apr 30 TT Trane Technologies Reports Strong First Quarter Results and Raises 2024 Revenue and EPS Guidance
Apr 29 LXU LSB Industries Inc (LXU) Q1 2024 Earnings: Surpasses Analyst Revenue Forecasts
Apr 29 MOD Modine (MOD) Stock Falls Amid Market Uptick: What Investors Need to Know
Apr 29 LII Carrier, IBD Stock Of The Day, Breaks Out Past Buy Point Amid AI Heat Wave
Apr 29 LXU LSB Industries GAAP EPS of $0.08 beats by $0.04, revenue of $138M beats by $11.16M
Apr 29 LXU LSB Industries, Inc. Reports Operating Results for the 2024 First Quarter
Apr 29 TT Trane Technologies Q1 2024 Earnings Preview
Apr 29 TT Should You Buy Riot Platforms (RIOT) Ahead of Q1 Earnings?
Apr 29 TT Trane Technologies (TT) is a Top-Ranked Momentum Stock: Should You Buy?
Heat Pump

A heat pump is a device that transfers heat energy from a source of heat to what is called a thermal reservoir. Heat pumps move thermal energy in the opposite direction of spontaneous heat transfer, by absorbing heat from a cold space and releasing it to a warmer one. A heat pump uses external power to accomplish the work of transferring energy from the heat source to the heat sink.
The most common design of a heat pump involves four main components – a condenser, an expansion valve, an evaporator and a compressor. The heat transfer medium circulated through these components is called refrigerant.While air conditioners and freezers are familiar examples of heat pumps, the term "heat pump" is more general and applies to many heating, ventilating, and air conditioning (HVAC) devices used for space heating or space cooling. Heat pumps usually can be used either in heating mode or cooling mode, as required by the user. When a heat pump is used for heating, it employs the same basic refrigeration-type cycle used by an air conditioner or a refrigerator, but in the opposite direction – releasing heat into the conditioned space rather than the surrounding environment. In this use, heat pumps generally draw heat from the cooler external air or from the ground. Heat pumps can also be used in district heating and are a main element of cold district heating systems.
Heat pumps are also increasingly used to heat domestic hot water.
Heat pumps are significantly more energy efficient than simple electrical resistance heaters. The efficiency begins to decrease as the temperature difference between the heat source and sink increases. This loss of efficiency due to a fluctuating outdoor air temperature is a driving factor for the use of ground source heat pumps. The typical installation cost is also higher than that of a resistance heater. See § Performance considerations.
When discussing heat pump efficiencies, the following terms are commonly used: coefficient of performance (COP), seasonal coefficient of performance (SCOP) and seasonal performance factor (SPF). The higher the number, the more efficient a heat pump is, the less energy it consumes, and the more cost-effective it is to operate. There are several factors that will affect the efficiency of a heat pump, such as auxiliary equipment, technology, size and control system, but also temperature and humidity conditions: the efficiency drops when the temperature difference increases or when freezing can occur.

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