Benefits of our Ecosmart Solar MAX welfare units:
Our Ecosmart Solar MAX welfare units will dramatically reduce operating costs all year round, with the potential to reduce fuel use to ZERO in the summer months. Large savings will also be made during the winter months, thanks to the large solar array and battery combination. Our hybrid solar welfare units will save fuel in all seasons which will, in turn, minimise your carbon footprint and lower costs too. These solar-powered welfare units will undoubtedly provide you with a whole range of benefits.
Our solar-powered welfare units are perfect for companies that are working to reduce their carbon footprint and, more importantly, improve the environment for communities in the vicinity of operation.
The Ecosmart Solar MAX welfare units are silent most of the time and only engage the diesel generator when absolutely necessary. Our Ecosmart system automatically switches between power supplied by solar, batteries and a generator, in the best combination to meet demands and keep batteries charged.
When solar gain is high, the Ecosmart system will not waste a drop of solar power. Solar power can flow directly to where it’s needed, bypassing the batteries and going direct to the circuit.
Our Solar MAX system has been designed to have the same user-friendly operation as the standard Ecosmart welfare unit. Power to run the heating, sockets, kettle and microwave comes instantly from solar, batteries and a generator in the most efficient combination. With built-in telemetry as standard, cabin operators can see all real-time power usage and control systems remotely via a mobile phone or desktop app.
If you are still unsure as to whether our Ecosmart Solar MAX welfare units are right for you and your site, do not hesitate to get in touch with a member of our expert team. We can provide you with all of the information you need to make an informed decision. You can call us on 01582 310692 or visit our Contact Page. We are always happy to help.
To illustrate the fuel & emissions saving potential of our welfare units see below data for a 16FT welfare unit. Based on 10 hours per day for 260 days, 80 days in winter mode and 180 days in summer mode. Each day is a typical usage day. 10 Persons accommodated. £1.70p per litre Diesel / HVO. £60 per H2 Bottle..
Solar panels achieve maximum output in direct sunlight, but they work in normal daylight and cloudy weather too. The amount of power a solar panel or charging kit generates in cloudy weather will be lower compared to direct sunlight. Also the positioning of the cabin will affect the solar charging of the batteries i.e. under trees, etc.
This assessment doesn’t take in consideration the usage of the hydraulics. This assessment is guidance only.
Provides canteen facilities for up to 8 persons, with a separate toilet, drying room and ample space to rest and eat.
Canteen facilities for up to 12 persons, with a separate toilet, drying room and ample space to rest and eat. Optional office & space saving canteen layouts are available.
Canteen facilities for up to 16 persons, with a separate toilet, drying room and ample space to rest and eat. Optional office & space saving canteen layouts are available.
Static welfare unit in a mobile trailer. Provides canteen facilities for up to 12 persons + office for 3, with a separate toilet, drying room.
As part of our on-going commitment to improvement we reserve the right to alter specifications, designs or figures, without prior notice. All dimensions and weights are approximate.
(a) Savings = Compared to an EasyCabin standard 12 with a 6Kva generator. All figures quoted for guidance only & do not include use of hydraulics. A full energy presentation is available on request.
(i) Based on 10 hours per day, 130 days in winter mode and 130 days in summer mode. Each day is a typical usage day. (ii) £1.40 per litre diesel / £1.20 per litre HVO. (ii) Includes 500w office output (iv) Solar panels achieve maximum output in direct sunlight, but they work in normal daylight and cloudy weather too. The amount of power generated in cloudy weather will be lower compared to direct sunlight. Also the positioning of the cabin will affect the solar charging of the batteries i.e. under trees, etc. (v) This assessment doesn’t take in consideration the usage of the hydraulics. (vii) This assessment is guidance ONLY