ANA is the first customer using Boeing’s 787 Dreamliner, which has been engineered from the ground up to be more cost-effective for long-haul flights.
Boeing built the jet using primarily composite materials to make key parts (such as its wings) lighter than previous airliners. A “no-bleed” systems architecture replaces most of the air-driven pumps and compressors with electrically powered alternatives -- a design that lightens the fuel load on the engines.
Fuel efficiency is top of mind for Boeing as it designs its next generation of jets. We reported last week on the new features of its next-generation 737 jet, the 737 Max. The company has taken design tactics out of the Dreamliner playbook to make the 737 jet lighter and relieve the engine’s burden. Like the Dreamliner, the 737 Max features a no-bleed electrical system and an engine that’s integrated with the wing.
I agree, Scott. At long as a barrel of oil remains above $100, we'll likely see a lot of experimenting. I can understand Saudi Arabia's interest in keeping oil bellow $80 a barrel. Their view is that if oil is below $80, we won't bother to develop alternatives.
Thanks for the feedback. Clearly, some engineers who post comments on this site do think that political barriers to engineers' ability to do their jobs is worth mentioning and even discussing, as they keep bringing it up :)
What's at least as interesting to me as this study of Americans in general is that survey we did last year about what engineers thought about bioplastics, and the positive response to at least being willing to try them out in the next five years.
Thanks for finding that survey. So, this exposes the fundamental problem with regards to sustainability, such as the use of biofuels in the article, and that is our corrupt political system. I understand that certain engineers dont' feel that this issue belongs on this site, but I totally disagree as engineering is about finding solutions, and that includes minimizing our negative effects. It seems that most Americans agree but certain special interests don't and they carry mroe weight than the voters.
I just ran across an interesting study that seems germane to some of this discussion. That is, a supposed leftist orientation of those desiring sustainable energy alternatives doesn't exist, at least among Americans in general:
I don't think that I accused you of offering a "silver bullet", but I do think that the goal must be to be energy neutral, that we do not waste any finite energy resource such as oil, coal, natural gase, etc. So, I think that a "siver bullet" should be the goal, although that will not be any one thing but an array of neutral sources, as in non-depletable, carbon-neutral, and wildlife habitat and agricultural land loss neutral.
The fact is that we need a new sustainable operational paradigm to drive reasearch and development. Currently, the "free market" paradigm has failed to ever solve a problem and until we recognize that fact we will continue to delude ourselves into thinking that it can while we crash and burn.
So, while algae may be used, so will solar derived hydrogen for use in better fuel cells, human powered technology, etc. But, we need to have a goal and currently that goal is to allow the market, which is more concerned with profit and money, the figment of the human mind, than sustainability precisely because humans are more concerned with fulfilling their desires now than ensuring a sustainable future.
Any solution to the ongoing energy conundrum will require multiple approaches. I don't think that any thoughtful individual would argue that conservation, increases in design efficiency, alternatives to fossil-fuel, point-source generation, green buildings, etc. etc. etc. should all be part of our arsenal.
No where in my posts was it my intent to offer a silver bullet.
I personally believe that burning petroleum is terribly wasteful - it's so much more useful as a raw material than as a fuel. Sad, really. The more we can replace petroleum with renewable alternatives, the better off we'll be. It's really hard to make something like ABS or Polycarbonate from plants.
But it's hardly fair or reasonable to say that simply using algae is going to eliminate this problem - we must use everything we can come up with. No single solution can supplant the current system - coal and oil will probably be a part of the solution for a while, regardless of how much we may decry it's wasteful burning.
My argument is simply that we should include algae, since it is likely the most reasonable biofuel source at this time. If we can, and I suspect we will, come up with better ways of generating chemically convertible fuel, I'll support them also - but that's a few years off.
I am not arguing with your assertion. I still say we should use algae for now. At least no one can accuse us of depleting the food supply to garner energy.
The engineers and inventors of the post WWII period turned their attention to advancements in electronics, communication, and entertainment. Breakthrough inventions range from LEGOs and computer gaming to the integrated circuit and Ethernet -- a range of advancements that have little in common except they changed our lives.
The age of touch could soon come to an end. From smartphones and smartwatches, to home devices, to in-car infotainment systems, touch is no longer the primary user interface. Technology market leaders are driving a migration from touch to voice as a user interface.
Soft starter technology has become a way to mitigate startup stressors by moderating a motor’s voltage supply during the machine start-up phase, slowly ramping it up and effectively adjusting the machine’s load behavior to protect mechanical components.
A new report from the National Institute of Standards and Technology (NIST) makes a start on developing control schemes, process measurements, and modeling and simulation methods for powder bed fusion additive manufacturing.
If you’re developing a product with lots of sensors and no access to the power grid, then you’ll want to take note of a Design News Continuing Education Center class, “Designing Low Power Systems Using Battery and Energy Harvesting Energy Sources."
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.