You are here

Domestic Hot Water and Heating, Finance and Incentives

EU Funding for Solutions to Decarbonise Heating and Cooling Market

Submitted by Baerbel Epp on November 19, 2017
Horizon 2020A search for ‘solar thermal’ in a recently published 195-page document titled Secure, Clean and Efficient Energy will not return encouraging results (see the attached document). The publication by the Horizon 2020 Work Programme 2018-2020 shows only 6 entries in total. “Solar thermal is definitely not a priority of the new programme,” said Daniel Mugnier, Head of R&D at French engineering services company Tecsol. “And even if the European Solar Thermal Technology & Innovation Platform were to try to promote several hot topics, there’s only one call [LC-SC3-RES-7-2019 on solar process heat] dedicated to the technology.”
 

Belo Horizonte – Brazil´s Solar Capital

Submitted by Baerbel Epp on October 25, 2017
Belo HorizonteBelo Horizonte, a municipality about 600 km north of Sao Paulo in the state of Minas Gerais, is also known as the solar capital of Brazil. Not only does it have a population of about 2.5 million, but solar water heater installations on many of its high-rise multifamily buildings. The photo shows one example, a block of flats for the wealthy middle class. The roof is completely covered in solar water heaters, which meet around half of the annual hot water requirements. This article will present the main drivers of an exciting market development in Latin America: a university research group specialised in solar heating and cooling, committed system planners, strong manufacturers and a pro-solar state utility.
Photos: Bärbel Epp
 

SHC Solar Award: Five Finalists with Successful Support Policies

Submitted by Baerbel Epp on October 15, 2017
Administrators of successful solar thermal support schemes are in the focus of this year’s Solar Award of the IEA Solar Heating and Cooling Programme (IEA SHC). The jury has chosen five finalists, of which one will receive the SHC Solar Award during the IEA SHC’s joint conference with ISES Solar World Congress (SWC 2017) in Abu Dhabi on 1 November 2017. The finalists come from Australia, Austria, Germany, Lebanon and Tunisia (see logos above). They implemented very different support policies, such as rebates and/or loans as well as building obligations. Their activities all had a strong impact on their national or regional solar heating and cooling market.

Switzerland: Strong Heat Pump and PV Competition

Submitted by Baerbel Epp on October 3, 2017
Switzerland market statisticsThere couldn’t be a starker contrast between the market development of two renewable heat segments: Whereas Swiss heat pump sales remained at around 18,400 units per year from 2014 to 2016, collector sales dropped significantly from 117,634 m² in 2014 to 66,699 m² last year. Market volume is now below where it was ten years ago and solar water heaters are facing strong competition from heat pumps and photovoltaics (see attached market report in German and French). The annual solar thermal symposium on 8 November in Dübendorf near Zurich will provide an opportunity to discuss alternative applications and technologies.
Source: Swissolar
 

Brazil: 2016 Market Statistics by Newly Founded Industry Association ABRASOL

Submitted by Baerbel Epp on April 30, 2017
Brazil Market Development 2016A recently introduced annual statistic by Brazil’s newly established industry association ABRASOL based in São Paulo shows that in 2016, the country was again the one with the third-largest number of new installations and the largest solar thermal market in South America. The 1,304,922 m² of newly installed glazed and unglazed water collector area (0.91 GWth) added in 2016 have put it only slightly ahead of India and behind China and Turkey. Brazil’s glazed collector market experienced a comparatively small drop of 4 % considering the country’s ongoing economic and political crisis and the slowdown of Minha Casa Minha Vida (My house, My Life), the programme which had made solar water heaters a requirement for new social housing projects. Reduced purchasing power led to a 10 % decline in the sales of unglazed collectors for swimming pools and vacuum tube collectors played only a minor role last year, garnering 2 % of sales.
Chart: ABRASOL
 

Chile: Solar Thermal Market Moves at Half Throttle

Submitted by Baerbel Epp on April 11, 2017
ChileOne year after the relaunch of the tax credit scheme for solar thermal systems in February 2016 (Law 20.897), some preliminary figures show a small increase of Chile’s solar market. But although the subsidy for newbuilds will be in effect until 2020, industry representatives have not been particularly satisfied with the impact of the new legal framework. Their criticism was supported by the fact that the announced subsidy scheme for social housing projects and low-income families has yet to be implemented. The market has improved slightly, but is moving at only half throttle. The photo shows the Villa Verde houses in the coastal city of Constitución. Some of the units which are part of this housing project have a thermosiphon system installed on the roof.
Photo: Calder
 

USA: Commercial Systems Dominate Californian Solar Thermal Market

Submitted by Baerbel Epp on March 24, 2017
California Incentive ProgrammeThe California Solar Initiative (CSI) – Thermal Program seems to have stabilised at around 20,000 m² (or around 200,000 ft²) of subsidised collector area per year. Commercial applications dominate the statistics, although there was a spike in the share of residential systems in 2016. The peak in applications for commercial pool heating in 2014 was due to the late addition of this type of system to the state subsidy scheme. It took almost a year before the level of incentives and other requirements were set, so that all the applications piling up over that period had to be processed in 2014. The data in the chart was provided by the California Public Utilities Commission (CPUC) and shows the subsidised and installed collector area for each year.
Source: CPUC
 

Lebanon: On Track for 2020 Square-Metre Target of 1 Million

Submitted by Baerbel Epp on March 3, 2017
NREAP LebanonLebanon seems to be one of only a handful of countries that are on track for meeting their solar thermal targets. The market statistics from the Lebanese Centre for Energy Conservation (LCEC) show around 250,000 m² of collector area were installed between 2009 and 2014, which exceeded the government’s aim of 190,000 m² for the same period. The second target set in 2009 – a collector area of 1 million m² by 2020 – is just as realistic, LCEC confirmed in its recently published National Renewable Energy Action Plan (NREAP) for the Republic of Lebanon 2016-2020 (see the attached document). The chart shows an estimated market increase of 600,000 m² between 2016 and 2020. The LCEC researchers and authors of Lebanon’s second NREAP also underline the importance of continuing the country’s financing mechanism.
Figure: Chart from NREAP, p. 87
 

Macedonia: National Subsidy Budget Raise

Submitted by Baerbel Epp on February 14, 2017
Macedonia Incentive ProgrammeThe Republic of Macedonia has been in a state of political turmoil for some time. The most recent general election was held in December 2016, but it is still unclear whether a new government can be formed. Considering the circumstances, the provisional authorities have taken laudable steps to maintain a sense of continuity when it comes to national renewable energy policy. In late January, the Ministry of Economy extended the Programme for partial subsidising of purchased and installed solar thermal collectors in households. “This scheme has been a success since its implementation in 2007 and attracts broad interest,” the country’s economy minister, Driton Kuchi, explained on TV Nova on 7 February. Online news portal Tochka reports that between 2007 and 2016 (see the chart above), the programme supported 4,237 households with a total of Macedonian Denar (MKD) 54 million (around EUR 900,000).
 

New Zealand: Over 35 Years of Steel Absorber Collector Production

Submitted by Baerbel Epp on December 19, 2016
Arthur WilliamsonFor more than 35 years, Thermocell collectors have been exclusively manufactured in New Zealand. Developed and commercialised in the late 1970s by Professor Emeritus Arthur Williamson from the University of Canterbury, these patented collector types have been produced in Christchurch ever since. In the peak years of 2005 and 2006, about 12 staff worked for Thermocell in administration, production and installation. As New Zealand’s solar thermal market has declined significantly over the past ten years, only two of those people are left today. “Arthur developed a reliable technology and we are maintaining systems which are more than 30 years old,” confirmed Ian Johns, General Manager of Sunstream Solar, a Thermocell collector reseller and installer from Christchurch. The photo shows Williamson in front of a “heat sheet”, the unique feature of Thermocell systems.
Photos: University of Canterbury / Sunstream Solar
 

Pages

Search results