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The buzzword these days is sustainability. A few years ago, this meant responsibility in a broader sense. Now, the focus is more on actual products. So, which alternatives can the industry offer to the appliance industry’s well-known products? And are these actually large, revolutionary steps? In white-good appliances, there are several alternatives. Europeans switched to high-efficiency horizontal-drum washers a long time ago—a revolutionary technology that left little room for improvement. The next big step might be to heat the water with gas instead of electricity. Martin Elektrotechnik is one German company that offers an automatic external water selector. It detects activation of the heating element and switches accordingly. However, at 285 euros, sales have been limited. The same unit can also be used for the dishwasher. The clothes dryer is another story. These appliances use 3–4 kWh per run, and there are more-efficient alternatives—the gas dryer and the heat pump dryer. Europe has a few gas dryer manufacturers, including UK-based Crosslee with its White Knight brand and Miele. Despite the advantages of efficiency and shorter drying time, they have not caught on in the larger marketplace. They only come as vented units, not as condenser units, and connecting the gas is just too much of a hurdle for many consumers, even when there is a click-on gas connector system available. Heat pump dryers are relatively new. Electrolux started in 1997 with an almost hand-built model under their premium, environmentally oriented AEG brand. At a price point of 1500 euros, even wealthy German consumers would not buy many of them. In 2005, the company started selling a redesigned model, called Öko-Lavatherm. It claimed energy savings up to 40% for around 700 euros, which is more in line with the cost of other premium models. Other manufacturers of heat pump dryers include Blomberg, the German brand owned by Turkish market leader Arçelik, and Swiss Schulthess. In cooling, there have been no large breakthroughs. Years ago, there was talk of vacuum-insulated panels, but no models were produced. Instead, there have been a number of smaller-scale efficiency improvements, and today, the industry suggests that consumers simply buy new, extraefficient models. AEG offers a typical case: a 300-L cooler/freezer in the A++ efficiency class now uses only 200 kWh per year, whereas a 10-year-old model used as much as 500 kWh. And what about the heating industry? Remember that in chilly Europe, heating is the largest energy user. The advice here is almost the same as for white-good appliances—just replace old equipment. There are still many noncondenser boilers on the market and a significant percentage of houses are insufficiently insulated. German Vaillant is calling its efficiency initiative "Generation Efficiency." But, like the home appliances market, progress is gradual. Current boilers are already highly efficient. Other technologies, such as solar panels, combined heat-and-power units, and heat pumps, catch on more slowly. Still, there were 1.1 million renewable energy units sold in Europe in 2006 compared with 440,000 just two years earlier. Some of the company’s smaller steps forward were seen at ISH. The small Vaillant ecoCOMPACT combiboiler now has a high-efficiency pump, which is said to reduce electricity use by 50%. Hot water output is higher for user comfort, and there are new modules for remote access for better preventive service. The main obstacle for customers wanting a heat pump is the installation, as sometimes complex drilling is needed. Vaillant solved that issue by taking over a drilling company and offers all of the services for a fixed price, just like its competitor, BBT Thermotechnik. Across the board, it seems manufacturers continue their efforts toward sustainability. The question now seems to be whether or not consumers will take advantage of the technology.

These references point out that such solar assist systems significantly raise the heating COP. So, the answer to the question is YES, it's possible to direct solar-heated air to the condenser of a heat pump and raise the heating COP.

MAGINE having to call an IT help desk to fix your central heating when it breaks down. That's not such a bizarre notion if a plan by engineers at IBM in Switzerland goes ahead. A cooling system they have developed allows the waste heat from computer chips to be put to use for domestic heating.

natural gas is okay but it's not ideal. It still emits greenhouse gases and NOx. It's also becoming more volatile and is likely to become much more expensive over the coming years. Also, the power mix in Ontario will become cleaner over the next decade -- no coal, more nuclear, hydroelectric, wind and natural gas. So there's an argument that heating your home with electricity could be cleaner than using natural gas, if you can do it efficiently -- in other words, if you can find a better way than using resistance heating.

a 34-year-old engineer who was a cryogenics expert with the U.S. Navy, realized that conventional air-source heat pumps that are popular in the U.S. south do not perform well in cold climates and are therefore not economical. So he went ahead and built his own, called Acadia, and it can operate efficiently down to minus 30 degrees C.

The use of a latent heat storage system using phase change materials (PCMs) is an effective way of storing thermal energy and has the advantages of high-energy storage density and the isothermal nature of the storage process. PCMs have been widely used in latent heat thermal-storage systems for heat pumps, solar engineering, and spacecraft thermal control applications. The uses of PCMs for heating and cooling applications for buildings have been investigated within the past decade. There are large numbers of PCMs that melt and solidify at a wide range of temperatures, making them attractive in a number of applications. This paper also summarizes the investigation and analysis of the available thermal energy storage systems incorporating PCMs for use in different applications.

Heat pump water heater (HPWH) systems mine the energy content of air to produce hot water very efficiently (Figure 1). Depending on cold-water and ambient-air temperatures and on patterns of hot water use, heat pump water heaters do the same job as standard electric water heaters using two to three times less electric energy.

Question: I travel quite a lot, and have seen extensive use of geothermal energy in Iceland and some Eastern European countries for district heating. But, I don't get a sense there is much geothermal use for heating in the United States. Is this the case? If it is, why don't we use more geothermal energy for heating homes and buildings? -- Bill T., Santa Fe, New Mexico

Amerigon Incorporated , a leader in developing and marketing products based on advanced thermoelectric (TE) technologies, today announced that its subsidiary, BSST LLC, will partner in a U.S. Department of Energy (DOE) project to develop a highly-efficient thermoelectric heating and cooling system for automobiles that will substantially reduce energy consumption, engine load and ultimately greenhouse gas emissions. The goal of the 36-month, up to $8.4 million project is to create a zonal heating and cooling system for automobiles that heats or cools the vehicle occupants, rather than the entire cabin and its components, thereby reducing the energy consumed by existing heating/cooling systems by one third.